ABCC7 p.Arg75Gln

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PMID: 10376575 [PubMed] Mak V et al: "Proportion of cystic fibrosis gene mutations not detected by routine testing in men with obstructive azoospermia."
No. Sentence Comment
45 (%) Men With 2 Mutations ⌬F508/IVS8-5T 7 (11) ⌬F508/IVS8-5T 1 (10) ⌬F508/IVS8-5T 1 (1.8) ⌬F508/R117H 6 (9) W1282X/IVS8-5T 1 (1.8) ⌬F508/L206W 1 (1.6) G544S/IVS8-5T 1 (1.8) ⌬F508/M952T 1 (1.6) V754M/-741T→G 1 (1.8) ⌬F508/P67L 1 (1.6) R75Q/R258G 1 (1.8) ⌬F508/S549R 1 (1.6) R334W/R334W 1 (1.6) R117H/R117H 1 (1.6) R117H/IVS8-5T 1 (1.6) R347P/IVS8-5T 1 (1.6) N1303K/IVS8-5T 1 (1.6) 1677delTA/IVS8-5T 1 (1.6) R117L/IVS8-5T 1 (1.6) D979A/IVS8-5T 1 (1.6) IVS8-5T/IVS8-5T 1 (1.6) Men With 1 Mutation IVS8-5T/N 10 (16) ⌬F508/N 1 (10) IVS8-5T/N 9 (16) ⌬F508/N 1 (2) ⌬F508/N 6 (9) IVS8-5T/N 1 (10) ⌬F508/N 1 (1.8) G542X/N 1 (2) W1282X/N 2 (3) R75Q/N 1 (1.8) IVS8-5T/N 5 (10) L206W/N 1 (1.6) W1282X/N 1 (1.8) 4016insT/N 1 (1.6) R117H/N 1 (1.8) 2423delG/N 1 (1.8) Men With No Mutations 18 (28) 7 (70) 37 (66) 42 (86) *N indicates that no CFTR mutations or variants were detected.
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ABCC7 p.Arg75Gln 10376575:45:289
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ABCC7 p.Arg75Gln 10376575:45:724
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58 (%) 31 Mutation panel† ⌬F508 23 (18) ⌬F508 2 (10) ⌬F508 2 (1.8) ⌬F508 1 (1) R117H 9 (7) W1282X 2 (1.8) G542X 1 (1) W1282X 2 (1.6) R117H 1 (0.9) R334W 2 (1.6) S549R 1 (0.8) R347P 1 (0.8) N1303K 1 (0.8) Extensive screen† ⌬F508 23 (18) ⌬F508 2 (10) ⌬F508 2 (1.8) ⌬F508 1Mutations included in R117H 9 (7) W1282X 2 (1.8) G542X 131 mutation panel W1282X 2 (1.6) R117H 1 (0.9) R334W 2 (1.6) S549R 1 (0.8) R347P 1 (0.8) N1303K 1 (0.8) L206W 2 (1.6)‡ R75Q 2 (1.8)‡Mutations not included in P67L 1 (0.8)‡ G544S 1 (0.9)‡31 mutation panel 1677delTA 1 (0.8)‡ 2423delG 1 (0.9)‡ R117L 1 (0.8)‡ V754M 1 (0.9)‡ 4016insT 1 (0.8)‡ -741T→G 1 (0.9)‡ D979A 1 (0.8)§ R258G 1 (0.9)§ M952T 1 (0.8)¶ IVS8-5T 25 (20)# 2 (10) 12 (11) 5 (5) Detectable mutations 72 (56)# 4 (20) 24 (21)# 7 (7) Detectable mutations missed by 31 mutation panel 33 (46) 2 (50) 19 (79) Detectable non-IVS8-5T mutations missed by 31 mutation panel 8 (17) 0 (0) 7 (58) *Percentages indicate allele frequency.
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ABCC7 p.Arg75Gln 10376575:58:519
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73 Of the 7 additional mutations, G544S, 2423delG, V754M, and -741T→G are associated with the CF phenotype and R258G with the CBAVD phenotype, while R75Q (identified in 2 subjects), previously thought to be a benign polymorphism, may in fact confer phenotypic features of CF.2 Therefore, of the 24 alleles with CFTR mutations in men with idiopathic epididymal obstruction, 5 (21%) were identified by routine CFTR mutation analysis, 12 (50%) by IVS8-5T allele-specificoligonucleotideanalysis,and 12 (50%) by complete analysis of all CFTR exons.
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ABCC7 p.Arg75Gln 10376575:73:153
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87 ThefourthgroupconsistsofCFTRgene alterations that were formerly considered to be benign sequence variations.7,12,14 These include R75Q and IVS8-5T.
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ABCC7 p.Arg75Gln 10376575:87:130
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PMID: 10601093 [PubMed] Pallares-Ruiz N et al: "Complete mutational screening of the cystic fibrosis transmembrane conductance regulator gene: cystic fibrosis mutations are not involved in healthy men with reduced sperm quality."
No. Sentence Comment
63 Frequency distribution of CFTR gene variants in populations from southern France infertile men with OAT and in controls (T)n-1540A/G-(TG)n Controls OAT PVariants Allele frequency, % of chromosomes (n ϭ 50) (n ϭ 56) Controls CBAVDa OAT 9/9 A/A 10/10 1 (2) 1 (2) NS(n ϭ 100) (n ϭ 100) (n ϭ 112) 7/9 A/A 10/12 1 0 11/10 0 1223C/T (R31C) 0.01 0 0 10/10 0 3356G/A (R75Q) 0.02 0.01 0.009 Total 1 (2) 4 (7) NS1655T/G (F508C) 0 0.01 0.009 7/9 A/G 11/10 2 41716 G/A (E528E) 0 0.01 0.018 10/12 5 21859G/C (G576A)ϩ2134C/T 0.01 0.04c 0.009 7 (14) 6 (11) NS(R668C)b 7/7 A/A 12/12 0 12377C/T (L749L) 0 0.01d 0.009 11/12 1 03417A/T (T1095T) 0.01 0 0.018 10/11 3 03419T/G (L1096R) 0.01 0 0 10/10 1 44002A/G (P1290P) 0.01 0 0.018 Total 5 (10) 5 (9) NS4404C/T (T1424T) 0.01 0.01 0.018 7/7 A/G 12/12 0 2125G/C (5ЈUTR) 0.07 0.01 0.027 11/12 0 3405ϩ46G/T 0 0 0.018 11/11 5 0406-6T/C 0.01 0 0 10/11 3 3875ϩ40A/G 0.05 0.06 0.045 10/10 8 03041-71G/Cϩ4002A/Gb 0.02 0.02 0.009 Total 16 (32) 8 (14) NS3499ϩ37G/A 0 0 0.009 7/7 G/G 11/11 16 (32) 31 (55) Ͻ 0.024374ϩ13A/G 0 0 0.009 8/11 0 1 Total 16 (32) 32 (57) 0.018aGroup of CBAVD patients whose genotypes had been previously analysed 7/5 A/G 11/11 2 (4) 0 -in our laboratory.
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ABCC7 p.Arg75Gln 10601093:63:390
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75 Several missense variations identified in this study (R31C, R75Q, F508C, G576A, R668C, or E528E) have previously Table IV.
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ABCC7 p.Arg75Gln 10601093:75:60
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PMID: 10681187 [PubMed] Pallares-Ruiz N et al: "Is isolated idiopathic pancreatitis associated with CFTR mutations?"
No. Sentence Comment
30 It is unlikely, however, that this allele is a variant which predisposes towards idiopathic pancreatitis because it is carried on a TG11-M470 haplotype background, which is not a deleterious combination.3 Finally, when we screened the whole coding/flanking CFTR sequences of 10 random individuals, six polymorphisms/variants (125G/C and 875+40A/G twice, R75Q, 5T) and one cystic fibrosis mutation ( F508) were observed.
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ABCC7 p.Arg75Gln 10681187:30:354
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PMID: 10746558 [PubMed] Bombieri C et al: "A new approach for identifying non-pathogenic mutations. An analysis of the cystic fibrosis transmembrane regulator gene in normal individuals."
No. Sentence Comment
79 Out of the 20 missense mutations, three (G85E, ∆F508, and N1303K) are certainly CF-causing, and several (R31C, K68E, R75Q, I148T, V562L, G576A-R668C, L997F, F1052V, S1235R) have been described in congenital bilateral absence of the vas deferens, in disseminated bronchiectasis, in pancreatitis, or in atypical CF cases mutations as reported in the CFGAC website ().
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ABCC7 p.Arg75Gln 10746558:79:124
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80 Many (13 out of 20) of the missense mutations change highly conserved (5/5 species analyzed) amino acid residues (R75Q, G85E, I148T, I506V, R668C, G622D, L997F, I1027T, F1052V, L1096R, I1131V, R1162L, N1303K); others affect amino acid residues conserved in 4/5 species (K68 E, R170H, M470V, V562L, S1235R), or in 3/5 species (R31C and G576A; Tucker et al. 1992).
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ABCC7 p.Arg75Gln 10746558:80:114
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96 Moreover, 1525-61 A/G (i 9) and 3601-65 C/A (i 18) were detected by SSCA performed in the Spanish sample only (14/82 and 12/80, respectively); these mutations were not identifiable by DGGE as used in the present work The totals are: a378; b362; c380; d356 genes eCertainly a CF-causing mutations fThe most common allele at this site is (TTGA)7 gThe most common allele at this site is T7 hThe frequency shown is that of the M allele Mutation Position North-Central Southern Spain Total East Italy Italy France 82 genes 100 genes 100 genes 100 genes 382 genes % 125 G/C 5`UTR 1 2 7 3 13 3.4 R31C 2 1 1 1 0 3 0.8 K68E 3 1 0 0 0 1 0.3 R75Q 3 1 1 2 0 4 1.0 G85Ee 3 0 1 0 0 1 0.3 406-6 T/C i 3 0 0 1 0 1 0.3 I148T 4 1 0 0 0 1 0.3 621+3 A/G i 4 0 1 0 0 1 0.3 R170H 5 1 0 0 0 1 0.3 875+40 A/G i 6a 11 5 5 2 23 6.0 (TTGA)6 f i 6a 17 11 7 13 48 12.6 1341+28 C/T i 8 1 0 0 0 1 0.3 IVS8-6g T5 i 8 8 2 4 3/78 17a 4.5 IVS8-6g T9 i 8 10 7 10 11/78 38a 10.0 M470Vh 10 42 30 39 27 138 36.1 I506V 10 1 0 0 0 1 0.3 ∆F508e 10 1 0 2 0 3 0.8 1716 G/A 10 2 1 0 5 8 2.1 V562L 12 0 0 1 0 1 0.3 G576A 12 1 0/80 1 0 2b 0.6 G622D 13 0 0/80 1 0 1b 0.3 R668C 13 1 0/80 1 0 2b 0.6 2082 C/T 13 1 0/80 0 0 1b 0.3 2377 C/T 13 0 0/80 0 1 1b 0.3 2694 T/G i 14a 33 23 33 14/80 103c 27.1 2752-15 C/G i 14b 0 3 0 0 3 0.8 3041-71 G/C i 15 0 1 2 0 3 0.8 L997F 17a 0 2 0 0 2 0.5 I1027T 17a 1 0 0 0 1 0.3 F1052V 17b 1 0 0 0 1 0.3 L1096R 17b 0 0 1 0 1 0.3 3417 A/T 17b 1 0 1 0 2 0.5 I1131V 18 0 1 0 0 1 0.3 R1162L 19 0 1 0 0 1 0.3 3690 A/G 19 0 0 0 1/80 1c 0.3 S1235R 19 1 0 0 0 1 0.3 4002 A/G 20 2 3 3 3/80 11c 2.9 4005+28insA i 20 0 1 0 0 0.3 4029 A/G 21 1 0 0 0 1 0.3 N1303Ke 21 1 0 0 0 1 0.3 4404 C/T 24 1 0 1 0 2 0.5 4521 G/A 24 21 16 14/80 15/76 66d 18.5 Total 165 113 137 98 513 encountered in the present survey are possible.
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ABCC7 p.Arg75Gln 10746558:96:631
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115 The density of polymorphic sites, which is essentially the proportion of sites susceptible to evolving among the total number of sites (bp) of that gene, can be estimated by counting the number n of polymorphic sites existing in 177 Table 4 A list of the 13 ED-C mutations detected in this survey Mutation q±SE q-2.5SE 125 G/C 0.0340±0.0093 0.011 875+40 A/G 0.0602±0.0122 0.030 876-5 (GATT)6 0.1257±0.0170 0.083 IVS8 T5 0.0450±0.0107 0.018 IVS8 T9 0.1005±0.0155 0.062 IVS8 (TG)10 0.2900±0.0262 0.223 IVS8 (TG)12 0.0867±0.0162 0.046 1525-61 A/Ga 0.1750±0.0420 0.070 M470V 0.3613±0.0246 0.300 2694 T/G 0.2711±0.0228 0.214 3601-65 C/Aa 0.1500±0.0399 0.050 4002 A/G 0.0289±0.0086 0.007 4521 G/A 0.1854±0.0206 0.134 aSearched by SSCA in the sample of 40 Spanish individuals only: frequency and standard error are those of that sample Table 5 Distribution in the four subsamples of mutations found a few times but not classified Total number of Subsample times the mutation has been found NE Italy Central Southern Spain Italy France Twice G576A 1 - 1 - R668C 1 - 1 - L997F - 2 - - 3417 A/T 1 - 1 - 4404 C/T 1 - 1 - Three times R31C 1 1 1 - 2752-15 C/G - 3 - - 3041-71 G/C - 1 - Four times R75Q 1 1 2 - Eight times 1716 G/Aa 2 1 - 5 aGiven its frequency and distribution, this mutant will probably turn out to be a C mutant the stretch under study of N bp and dividing n by N. Usually, the number of sites identified as polymorphic sites is merely a minimum estimate of the total number n of polymorphic sites of the N stretch, because the number of polymorphic sites of the stretch that escaped detection remains unknown.
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ABCC7 p.Arg75Gln 10746558:115:1255
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PMID: 10798368 [PubMed] Orozco L et al: "Spectrum of CFTR mutations in Mexican cystic fibrosis patients: identification of five novel mutations (W1098C, 846delT, P750L, 4160insGGGG and 297-1G-->A)."
No. Sentence Comment
69 First, we tested these patients for 12 mutations selected for the following reasons: five are the most common mutations worldwide (∆F508, G542X, N1303K, G551D and R553X; CFGAC 1994); 362 Table 1 Frequency of the CFTR gene mutations in 97 (194 chromosomes) Mexican patients Mutation Number of Frequency affected alleles (%) ∆F508 79 40.72 G542X 12 6.18 ∆I507 5 2.57 S549N 5 2.57 N1303K 4 2.06 R75X 3 1.54 406-1G→A 3 1.54 I148T 3 1.54 2055del9→A 2 1.03 935delA 2 1.03 I506T 2 1.03 3199del6 2 1.03 2183AA→G 2 1.03 G551D 1 0.51 R553X 1 0.51 1924del7 1 0.51 G551S 1 0.51 1078delT 1 0.51 Y1092X 1 0.51 R117H 1 0.51 G85E 1 0.51 3849+10KbC→T 1 0.51 1716G→A 1 0.51 W1204X 1 0.51 W1098Ca 1 0.51 846delTa 1 0.51 P750La 1 0.51 V754M 1 0.51 R75Q 1 0.51 W1069X 1 0.51 L558S 1 0.51 4160insGGGGa 1 0.51 297-1G→Aa 1 0.51 H199Y 1 0.51 2869insG 0 0 R1162X 0 0 3120+1G→A 0 0 Total 34 145 74.58% aNovel mutations detected in this study Fig.1 Sequencing ladders showing the CFTR novel mutations.
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ABCC7 p.Arg75Gln 10798368:69:784
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PMID: 10950058 [PubMed] Ockenga J et al: "Mutations of the cystic fibrosis gene, but not cationic trypsinogen gene, are associated with recurrent or chronic idiopathic pancreatitis."
No. Sentence Comment
10 In addition, two possibly predisposing CFTR variants (R75Q, 1716G3A) were detected on four patients, one of these being a compound heterozygous for the missense mutation I336K and R75Q.
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ABCC7 p.Arg75Gln 10950058:10:54
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ABCC7 p.Arg75Gln 10950058:10:180
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11 No other family member (maternal I336K; paternal R75Q; sister I1336K) developed pancreatitis.
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ABCC7 p.Arg75Gln 10950058:11:49
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54 Finally, we tested all samples for the presence of mutations or variants R75Q, I336K, R347H, IVS8-5T (5T allele), 1716G3A, 2143delT, 2789ϩ5G3A, Y1092X, 3272-26A3G, D1152H, and CFTRdel2,3 (21kb) by PCR and restriction enzyme digestion with the respective enzymes (for mutation references, see http://www.genet.
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ABCC7 p.Arg75Gln 10950058:54:73
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78 In four patients two potentially predisposing variants, 1716G3A and R75Q, were also present, one of these being compound heterozygous for I336K and R75Q, whereas the other two carried only R75Q or 1716G3A.
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ABCC7 p.Arg75Gln 10950058:78:68
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ABCC7 p.Arg75Gln 10950058:78:148
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ABCC7 p.Arg75Gln 10950058:78:189
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89 Characteristics of the Study Population Patient Gender CFTR Genotype PolyT Genotype Age at Study, Yr Age at Onset of Disease, Yr Inclusion Criteria Pseudomonas Antibody* Exocrine Insufficiency† Morphological Changes‡ S. K. F I336K/R75Q 7T/7T 34 26 CP 2.44 Yes Mild M. T. M Y1092X/wt 7T/7T 34 30 CP 1.06 Yes Moderate K. M. M R75Q/wt 7T/7T 24 19 RAP 0.46 No Mild L. A. F 1716G3A/wt 7T/7T 27 26 RAP 0.45 No Normal C. B. F ⌬F508/wt 7T/9T 40 38 CP 0.84 No Mild W. O. M 1716G3A/wt 7T/7T 31 29 RAP 0.86 No Normal L. M. F wt/wt 5T/7T 37 27 CP 1.25 Yes Moderate H. K. F wt/wt 7T/7T 27 20 CP 0.84 Yes Mild K. A. M wt/wt 7T/7T 24 19 CP 0.57 Yes Mild H. K. M wt/wt 7T/7T 23 19 CP 0.58 Yes Severe E. H. M wt/wt 7T/7T 25 20 RAP 1.36 No Normal M. K. F wt/wt 7T/7T 35 30 CP 0.55 No Moderate W. S. M wt/wt 7T/7T 19 19 RAP 0.58 No Normal L. D. F wt/wt 7T/7T 33 30 CP 1.07 Yes Severe S.
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ABCC7 p.Arg75Gln 10950058:89:245
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ABCC7 p.Arg75Gln 10950058:89:338
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104 Family Study of CFTR In the compound heterozygous patient S.K., we investigated the parents and the sister of this patient for the presence of the missense substitutions R75Q and I336K.
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ABCC7 p.Arg75Gln 10950058:104:170
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107 On the other hand, missense substitution R75Q was found on the paternal CFTR allele of the patient S.K., which was different from the paternal CFTR allele of her sister (Fig.
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ABCC7 p.Arg75Gln 10950058:107:41
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124 Results of Sweat Test, Intestinal Current Measurement Test, and Anamnestic Features of Patients With Idiopathic Recurrent Acute or Chronic Pancreatic Disease and an Abnormal CFTR Allele Patient CFTR Genotype PolyT Genotype Sweat Chloride (mmol/L) Intestinal Current Measurement (␮A/cm2 )* Anamnestic Features Known to be Associated With Atypical CF S. K. I336K/R75Q 7T/7T 26 50 Nasal polyps M. T. Y1092X/wt 7T/7T 42 27 K. M. R75Q/wt 7T/7T 61 31 L. A.
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ABCC7 p.Arg75Gln 10950058:124:368
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ABCC7 p.Arg75Gln 10950058:124:432
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155 The missense substitution R75Q was found in two unrelated pancreatitis patients (10%), one of them compound heterozygous for R75Q/I336K.
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ABCC7 p.Arg75Gln 10950058:155:26
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ABCC7 p.Arg75Gln 10950058:155:125
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156 In a previous study, we had identified R75Q in two CBAVD patients and in 4% of random control individuals from the German population (17).
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ABCC7 p.Arg75Gln 10950058:156:39
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157 In another report, R75Q has been detected in six CF patients, five of them showing very mild symptoms of the disease (30).
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ABCC7 p.Arg75Gln 10950058:157:19
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158 Although another patient with severe CF was found to carry a second-site mutation on the R75Q allele, no further mutation apart from R75Q could be discovered in the five mildly affected patients. It has been suggested that the R75Q missense substitution represents a borderline CF mutation, which may need additional environmental factors to trigger the disease (30).
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ABCC7 p.Arg75Gln 10950058:158:89
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ABCC7 p.Arg75Gln 10950058:158:133
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ABCC7 p.Arg75Gln 10950058:158:227
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159 Further studies of larger cohorts are required to clarify the role and relevance of the R75Q substitution in the etiology of cystic fibrosis and pancreatic disease.
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ABCC7 p.Arg75Gln 10950058:159:88
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182 The fact that the paternal CFTR allele from our patient S.K. harboring the R75Q substitution is different from the paternal CFTR allele of her sister-who, like her mother, carries the I336K mutation without having developed pancreatitis-supports this theory.
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ABCC7 p.Arg75Gln 10950058:182:75
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PMID: 10980579 [PubMed] Bombieri C et al: "Increased frequency of CFTR gene mutations in sarcoidosis: a case/control association study."
No. Sentence Comment
3 Seven different CFTR gene mutations were observed: R75Q, R347P, 621 + 3 A/G, 1898 + 3 A/G, L997F, G1069R, and a novel mutation which was detected in this study, I991V. R75Q mutation was present in 3/26 patients, a significant increase (P = 0.01) in cases over controls, indicating its preferential association with sarcoidosis.
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ABCC7 p.Arg75Gln 10980579:3:51
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ABCC7 p.Arg75Gln 10980579:3:168
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33 Seven different missense or splicing mutations were found in the eight patients: R75Q, R347P, 1898 + 3 A/G, 621 + 3 A/G, L997F, G1069R, I991V. R75Q was present in three patients (nos. 15, 21, 27).
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ABCC7 p.Arg75Gln 10980579:33:81
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ABCC7 p.Arg75Gln 10980579:33:143
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35 R75Q has been described in CF and related diseases, as disseminated bronchiectasis,7,16 and allergic broncho-pulmonary aspergillosis.17 One patient (no.
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ABCC7 p.Arg75Gln 10980579:35:0
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36 15) had two CFTR mutations (R75Q, 1898 + 3 A/G), but it was not possible to determine the phase.
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ABCC7 p.Arg75Gln 10980579:36:28
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45 With the exception of two novel mutations, E826K7 and I991V (this study), all the mutations present in the 34 patients with sarcoidosis (R75Q, 621 + 3 A/G, R347P, DF508, 1898 + 3 A/G, V754M, L997F, G1069R, 4382 del A) have also been observed in CF and CF-related diseases.
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ABCC7 p.Arg75Gln 10980579:45:137
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46 Two recurrent mutations were observed in sarcoidosis: R75Q found in 3/34 patients and in 0/89 controls (P = 0.02), and L997F found in 2/34 patients and in 0/89 controls (NS).
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ABCC7 p.Arg75Gln 10980579:46:54
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47 R75Q may therefore be a CFTR gene mutation characteristic of sarcoidosis.
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ABCC7 p.Arg75Gln 10980579:47:0
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52 Sarcoidosis is a complex disease in which genetic and environmental factors may play Table 2 CFTR genotypes of sarcoidosis patients (n = 26) Missense and Same sense and ID splicing mutations intronic mutations TGm-Tn M470V 11 G1069R 11-7/12-7 V/V 13 R347P 4404 C/T 10-7/11-7 M/V 15 R75Q, 1898+3A/G 186-13 C/G 11-7/11-7 V/V 20 621+3 A/G 10-7/10-7 M/M 21 R75Q 11-7/11-7 V/V 27 R75Q 1716 G/A 10-7/11-7 M/V 31 I991V 11-7/10-9 M/V 32 L997F 4002 A/G, 3041-71 G/C 10-9/11-9 M/V 10 4404 C/T 11-7/11-7 V/V 18 4002 A/G 11-7/12-7 M/V 24 3417 A/T 11-7/11-7 V/V 28 4002 A/G 11-7/11-7 M/V 34 4002 A/G 11-7/11-7 M/V 26 12-5/11-7 V/V 16 12-5/11-7 V/V 9 11-7/11-7 V/V 12 12-7/10-9 M/M 14 11-7/10-9 M/V 17 11-7/11-7 V/V 19 11-7/10-9 M/V 22 10-7/11-7 M/V 23 10-7/11-7 M/V 25 10-7/11-7 M/V 29 11-7/11-9 M/V 30 11-7/11-7 V/V 33 11-7/12-7 V/V The phase of the mutations is not known, as no segregation analysis was possible.
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ABCC7 p.Arg75Gln 10980579:52:282
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ABCC7 p.Arg75Gln 10980579:52:353
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ABCC7 p.Arg75Gln 10980579:52:375
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PMID: 11025834 [PubMed] Wang X et al: "Mutation in the gene responsible for cystic fibrosis and predisposition to chronic rhinosinusitis in the general population."
No. Sentence Comment
53 Using this technique, we previously demonstrated that at least 96% of mutations in the exons and flanking intron regions of the CFTR gene can be detected.16 A 97% sensitivity was achieved using 115 samples with previously identified mutations16 in this study.Sequenceanalysisofsampleswith anabnormalDGGEpatternidentifiedan R75Q mutation in the N1303K carrier and an L967S mutation in the G542X carrier.
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ABCC7 p.Arg75Gln 11025834:53:323
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54 Neither R75Q or L967S is a CF-causing mutation (Cystic Fibrosis Mutation Data Base, http://www.genet .sickkids.on.ca/cftr/).
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ABCC7 p.Arg75Gln 11025834:54:8
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67 Cystic Fibrosis (CF) Mutations and Cystic Fibrosis Transmembrane Regulator (CFTR) Variants in Chronic Rhinosinusitis (CRS) Patients and Controls* CRS, No. (%) Non CRS, No. (%) P Value (n = 147) (n = 123) CF mutations ⌬F508/+ 1 2 ⌬F508/M470V 7 0 G542X/M470V, L967S 1 0 N1303K/+; M470V/M; R75Q/+† 1 0 (⌬F508/2789+5G→A)‡ 1 0 Frequency of CF carriers 10 (7) 2 (2) .04§ (n = 136) (n = 121) CFTR variants 5T Variant in non-CF carriers࿣ 5T/+ 11 (9) 6 (6) .25§ Codon 470 genotypes among non-CF carriers࿣ M/M 21 (16) 23 (19) M/V 55 (40) 64 (53) .03¶ V/V 60 (44) 34 (28) *Plus (+) indicates wildtype.
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ABCC7 p.Arg75Gln 11025834:67:301
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84 Cystic Fibrosis Transmembrane Regulator (CFTR) Genotypes and Clinical Features of Chronic Rhinosinusitis Patients Having a Cystic Fibrosis Mutation* Patient No. Sex CFTR Genotype Age of Onset, y Sinus Surgery, No. of Times Polyposis Pulmonary Status Gastrointestinal Status Sweat Chloride Concentration, mmol/L† Other Pertinent Clinical Features 1344 F N1303K/+; M470V/M; R75Q/+‡ Ͻ10 3 - Recurrent bronchitis Lactose intolerant 55, 58, 78 .
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ABCC7 p.Arg75Gln 11025834:84:379
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125 Indeed, in addition to CRS, patient 1344 had subtle sweat gland dysfunction and a history of bronchitis while patient 1386 had sputum infected with Pseudomonas aeruginosa, an organism common in CF patients but unusual in the general population.7 Both patients were found to carry mutations that are not associated with CF (R75Q and L967S).
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ABCC7 p.Arg75Gln 11025834:125:323
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PMID: 11175304 [PubMed] de Cid R et al: "CFTR and asthma in the French EGEA study."
No. Sentence Comment
1 Results regarding ∆F508 come from a Danish study conducted in about 9000 subjects from the general population.1 However, the hypothesis that ∆F508 heterozygosity in the CFTR gene could protect against asthma, was proposed earlier after a study conducted in obligate heterozygotes.3 Recently, a case control study based on 144 asthmatics recruited in emergency rooms in Barcelona and a first control group of 41 spouses of CF carriers showed an excess of heterozygotes for aminoacid variants in the asthmatics, R75Q, G576A, R668C and L997F being the most frequent.
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ABCC7 p.Arg75Gln 11175304:1:524
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8 Due to the work load, only the four most common variants previously observed in asthmatics (R75Q, G576A, R668C and L997F), which accounted for 50% of mutations in asthmatics in the Barcelona study, were typed in the EGEA study as previously in the second control group in Barcelona, using the same techniques.2 The most common mutation in cystic fibrosis, ∆F508 was analysed by acrylamide gel electrophoresis, and the missense variant M470V8 was analysed by DGGE.
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ABCC7 p.Arg75Gln 11175304:8:92
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10 Three missense variants R75Q,10 G576A,11 L997F11 were analyzed by restriction analysis.
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ABCC7 p.Arg75Gln 11175304:10:24
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11 Variant R668C11 was analyzed by SSC A. Prevalences in the whole sample of 480 subjects were 2.9%, 3.8%, 4.0%, 4.2% and 0.6% for heterozygosity for ∆F508, R75Q, G576A, R668C and L997F, respectively.
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ABCC7 p.Arg75Gln 11175304:11:161
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18 Any variant (R75Q, R668C, G576A, L997F), carriers of M allele (M470V), or 5T/-, shows odds ratios lower than 1, which were not statistically significant, except for 5T/-.
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ABCC7 p.Arg75Gln 11175304:18:13
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35 Although differences in population could explain the differences between asthmatics in Barcelona and in France, the most likely hypothesis is that the four variants which were unusually frequent in the asthmatics in the first study do not relate to asthma, since a similar distribution to that of Table 1 Comparison of cases and controls from the EGEA study Controls: no asthma P value Asthma cases Both parents: no asthma OR [95% CI] Number 247 174 Demographic and clinical characteristics Geographical origin within France Paris, % 24.9 25.8 0.98 North West, % 11.0 9.8 South West, % 5.3 4.6 North East, % 6.9 8.1 South East, % 51.8 51.7 Age, m±SD 30.2±17.9 34.7±16.1 0.01 [range] [7.0-68.8] [7.4-64.7] Sex, % males 57.1 49.4 0.12 Atopy (weal ≥ 3mm, any of 11 allergens), % 76.8 34.8 0.001 6.4 [4.2-9.7] IgE, IU/ml, GM 246 36 0.001 Hay fever or childhood eczema, % 61.4 30.5 0.001 3.6 [2.4-5.5] FEV1 % predicted, m±SD 0.88±0.19 1.04±0.15 0.001 FVC % predicted, m±SD 0.99±0.16 1.04±0.15 0.001 Methacholine challenge, numbera 113 127 PD20 ≤ 4mg, % 92.9 22.8 0.001 44.4 [22.4-87.8] CFTR data ∆F508, % 3.2 2.9 0.83 1.13 [0.36-3.52] R75Q, % 2.4 5.2 0.14 0.46 [0.16-1.28] G576A, % 3.6 4.0 0.84 0.90 [0.33-2.47] R668C, % 3.6 4.6 0.62 0.79 [0.30-2.07] L997F, % 0.4 0.6 1.0b R75Q or G576A or R668C or L997F, % 6.9 9.8 0.28 0.68 [0.34-1.37] M470V MM, % 18.2 17.2 MV, % 46.2 50.6 0.66 VV, % 35.6 32.2 IVS8-(T) n, 5T/-, % 6.9 12.6 0.05 0.51 [0.27-0.99] a FEV1 > 80% predicted and no contraindications.
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ABCC7 p.Arg75Gln 11175304:35:1196
status: NEW
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ABCC7 p.Arg75Gln 11175304:35:1334
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PMID: 11354633 [PubMed] Tzetis M et al: "CFTR gene mutations--including three novel nucleotide substitutions--and haplotype background in patients with asthma, disseminated bronchiectasis and chronic obstructive pulmonary disease."
No. Sentence Comment
48 on.ca) as disease-causing mutations, while 3 (R668C, R75Q, I1027T) have been listed as sequence polymorphisms.
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ABCC7 p.Arg75Gln 11354633:48:53
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49 R75Q and R668C have been reported with high frequencies in patients with DB, asthma and congenital bilateral absence of vas deferens (CBAVD) (Pignatti et al. 1995; Pignatti et al. 1996; Girodon et al. 1997; Lazaro et al. 1999; Kanavakis et al. 1998).
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ABCC7 p.Arg75Gln 11354633:49:0
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60 of CFTR gene IVS8-(T)n IVS8-(TG)m M470 V tested cases mutationa Asthma 20 1 L997F, T338Mb 9/7 10/12 M/V 1 Y301C 7/7 11/11 V/V 1 M1Rb, V11Ib 7/7 12/10 M/M 1 I148T/- 9/9 10/10 M/V 1 L997F/- 9/9 11/9 M/V 1 R297Q/- 5/5 13/11 M/M 1 R297Q/- 7/7 11/11 V/V 1 R75Q/- 7/7 11/11 V/V 1 A120T/ 5/7 11/11 V/V 1 -/- 7/7 11/12 M/V 1 -/- 7/9 11/11 M/M 2 -/- 7/7 12/10 M/V 7 -/- 7/7 11/11 V/V DB 19 1 F508del, I1027T 9/9 10/10 M/M 1 D565G, R668C 7/7 11/11 M/V 1 T896I/- 7/7 11/10 M/V 1 I148T/- 7/9 11/10 M/V 1 F508del/S977F 5/9 12/10 M/V 1 -/- 7/9 12/10 V/V 1 -/- 7/9 10/10 M/V 1 -/- 7/7 11/12 M/M 2 -/- 7/7 11/10 1 M/V, 1 V/V 2 -/- 7/7 12/10 1 V/V, 1 M/M 3 -/- 7/9 11/10 1 M/M, 2 V/V 4 -/- 7/7 11/11 1 V/V, 3 M/V COPD 12 1 F1052 V/- 7/7 11/10 M/V 1 S1235R/- 7/9 12/10 M/M 1 -/- 5/5 11/12 M/V 1 -/- 7/9 10/10 M/M 2 -/- 7/9 11/10 1 M/M,1 M/V 3 -/- 7/7 11/10 M/V 3 -/- 7/7 11/11 1 M/V, 2 M/M Controls 52 1 F508del/- 7/9 10/10 M/M 1 F1052 V/- 5/7 10/11 M/V 1 F1052 V/- 7/7 11/11 M/M 1 R668C, D565G/- 7/7 11/11 M/M 1 R688C, D565G/- 7/7 11/10 M/V 1 R75Q/- 7/7 11/11 V/V 1 R297Q/- 7/7 11/10 M/V 1 L997F/- 7/9 10/10 M/V 1 -/- 7/7 10/10 M/V 1 -/- 7/9 10/10 M/M 1 -/- 7/9 12/10 M/M 4 -/- 7/9 11/10 1 M/M, 1 V/V, M/V 15 -/- 7/7 11/10 13 M/V, 2 V/V 22 -/- 7/7 11/11 18 V/V, 3 M/V, 1 M/M been found that affect the same codon, of which M1 K affects the same nucleotide (T>A) (Cystic Fibrosis Genetic Analysis Consortium website).
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ABCC7 p.Arg75Gln 11354633:60:251
status: NEW
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ABCC7 p.Arg75Gln 11354633:60:1026
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72 The proportion of CFTR alleles in each group is expressed as c/d (e), where c indicates the number of alleles with the genotype indicated at left, d indicates the number of total alleles examined in each group and e represents the percentage aMutation name according to the Cystic Fibrosis Genetic Analysis Consortium bNovel mutations, reported for the first time in this study Mutationa Control Pulmonary disease patients Greek CF population patients (PS; PI) (n=52) Asthma DB COPD (n=426) (n=20) (n=19) (n=12) R75Q (356 G/A, exon 3) 1 (0.96%) 1 (2.5%) - - 1 (0.1%) R668C (2134 C/T, exon 13) 2 (1.9%) - 1 (2.6%) - 1 (0.1%) L997F (3123 G>C, exon 17a) 1 (0.96%) 2 (5%) - - - F508del 1 (0.96%) - 2 (5.3%) - 465 (54.6%) D565G (A>G at 1825, exon 12) 2 (1.9%) - 1 (2.6%) - 1 (0.1%) F1052 V (T>G at 3286, exon 17b) 2 (1.9%) - - 1 (4.2%) 1 (0.1%) R297Q (G>A at 1022, exon 7) 1 (0.96%) 2 (5%) - - - Y301C (A>G at 1034, exon 7) - 1 (2.5%) - - - I148T (T>C at 575, exon 4) - 2 (5%) - - 1 (0.1%) T388Mb (C>T at 1295, exon 8) - 1 (2.5%) - - - M1Rb (T>G at 134, exon 1) - 1 (2.5%) - - - V11Ib (G>A at 163, exon 1) - 1 (2.5%) - - - I1027T (3212 T/C, exon 17a) - - 1 (2.6%) - 1 (0.1%) T896I (C>T at 2819, exon 15) - - 1 (2.6%) - - S977F (C>T at 3062, exon 16) - - 1 (2.6%) - - A120T (G>A at 490, exon 4) - 1 (2.5%) - - - S1235R (T>G at 3837, exon 19) - - - 1 (4.2%) - Table 3 Frequency of M470 and (TG)mTn alleles in pulmonary disease patients and controls (DB disseminated bronchiectasis, COPD chronic obstructive pulmonary disease, n number of cases, ND not detected) Clinical status Allele M470 TG11/T7 TG10/T7 TG12/T7 TG10/T9 TG11/T5 TG12/T5 TG13/T5 Asthmaa (n=20) 13 (32.5%) 23 (57.5%) 3 (7.5%) 5 (12.5%) 3 (7.5%) 2 (5%) ND 1 (2.5%) DB (n=19) 17 (44.7) 18 (47.4%) 6 (15.8%) 4 (10.5%) 9 (23.7%) ND 1 (2.6%) ND COPD (n=12) 17 (70.8) 12 (50%) 5 (20.8%) 1 (4.2%) 4 (16.7%) 1 (4.2%) 1 (4.2%) ND Controls (n=52) 37 (35.5%) 71 (68.%) 23 (22.1%) 1 (0.96%) 6 (5.8%) 1 (0.96%) ND ND aAlleles TG11/T9 (2) and TG9/T9 (1) also detected alleles, P<0.01) were both found more frequently in patients with COPD.
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ABCC7 p.Arg75Gln 11354633:72:512
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PMID: 11466205 [PubMed] Larriba S et al: "Adenosine triphosphate-binding cassette superfamily transporter gene expression in severe male infertility."
No. Sentence Comment
87 Phenotypical and genotypical description of CAVD and non-CAVD infertile patients.a No. patient Phenotype FSH (U/L) Non-CFTR infertility-associated factors Testicular biopsy CFTR mutation M470V polymorphism CAVD infertility 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CBAVD CUAVD CUAVD CUAVD CUAVD 3.1 7.3 3.1 2.4 1.9 3.5 5.7 4.3 3.6 ND 2.2 4.8 11.3 2.1 ND 7.6 5.3 6.5 3.9 21.4 None None None None None None None None None None None None None None None None None None None Yes 1 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes V232D/V232D F508del/R117H F508del/R117H G542X/2789ϩ5GϾA F508del/D1270N ϩ R74W F508del/D1270N ϩ R74W S945L/R258G F508del/5T F508del/5T L206W/5T R117H/N F508del/N Y1014C/N 5T/N N/N N/N Y1092X/R258G 621ϩ1GϾT/5T Q890R/N N/N M/M M/M M/M M/M M/V M/V M/V M/M M/V M/V M/V M/V M/V M/V M/M V/V V/V M/V V/V M/M Non-CAVD infertility 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 TF (SA) TF (SA) TF (SA) TF (SA) TF (SA) TF (SA) TF (SA) TF (SA) TF (SA) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SSO) TF (SA) TF (SA) TF (SSO) OA OA OA OA OA OA OA OA 42.0 15.9 34.8 8.9 26.3 6.4 7.8 15.6 8.7 3.2 3.9 12.6 4.7 1.3 5.6 3.9 6.1 9.3 8.8 19.3 9.6 ND 3.3 5.9 6.6 3.6 1.9 4.2 2.0 4.4 None None None None None None None None None None None None None None None None Yes 2 Yes 2 Yes 2, 3 Yes 4 Yes 5 Yes 6 None None None None None Yes 1 Yes 7 Yes 8 Yes Yes Yes Yes No Yes Yes Yes Yes Yes Yes Yes Yes No No No No No No Yes Yes Yes Yes Yes Yes Yes No Yes Yes Yes F508del/N R334W/N N/N N/N N/N N/N N/N N/N N/N R75Q/N N/N N/N N/N N/N N/N N/N N/N N/N N/N N/N N/N N/N 5T/5T N/N N/N N/N N/N N/N N/N N/N M/M V/V M/V M/V M/V M/V V/V V/V V/V V/V M/V M/V M/V ND V/V M/M M/V M/M M/V M/M M/V V/V M/V M/V M/V V/V V/V M/V M/V V/V a CFTR mutations and M470V allele are also described for each patient.
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ABCC7 p.Arg75Gln 11466205:87:1759
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104 Three different mutations were detected in patients who presented the TF feature: R75Q, R334W, and F508del accounting for 9.4% of chromosomes and 18.8% of patients (3 of 16) (Table 1).
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ABCC7 p.Arg75Gln 11466205:104:82
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PMID: 11484207 [PubMed] Orozco L et al: "XV-2c/KM-19 haplotype analysis of cystic fibrosis mutations in Mexican patients."
No. Sentence Comment
65 Distribution of XK Haplotype on Chromosomes Bearing Uncommon Cystic Fibrosis (CF) Mutations A B C D S549N 4/4 DI507 3/3 N1303K 3/3 2055 del9!A 2/2 I148T 1/1 406-1G!A 1/1 R75X 1/1 I506T 1/1 935delA 1/1 2183AA!G 1/1 1924del7 1/1 G551S 1/1 1078delT 1/1 R117H 1/1 3849‡10KbC!T 1/1 1716G!A 1/1 W1204X 1/1 W1098C 1/1 846delT 1/1 R75Q 1/1 W1069X 1/1 L558S 1/1 4160insGGGG 1/1 297-1G!A 1/1 Fig.
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ABCC7 p.Arg75Gln 11484207:65:328
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PMID: 11788090 [PubMed] Strandvik B et al: "Spectrum of mutations in the CFTR gene of patients with classical and atypical forms of cystic fibrosis from southwestern Sweden: identification of 12 novel mutations."
No. Sentence Comment
27 MUTATIONS IDENTIFIED IN 258 CHROMOSOMES IN THE CF POPULATION ATTENDING THE SOUTH-WESTERN SWEDISH CF CENTRE Location in the Frequency of Mutation gene, exon Number of mutations mutation (%) Homozygotes Heterozygotes DF508 10 161 62.4 56 49 394delTT 3 13 5.0 3 7 R117C 4 7 2.7 7 3659delC 19 5 1.9 5 E60X 3 4 1.6 4 1112delT 7 4 1.6 1 2 R764X 13 4 1.6 1 2 621 1 1G ® T 4 3 1.2 3 G551D 11 2 0.8 2 I506L 10 2 0.8 2 N1088D (R75Q) 17b 2 0.8 2 Q1238X 19 2 0.8 2 R117H (IVS8-5T) 4 2 0.8 2 V603F (IVS8-5T) 13 2 0.8 2 1716G ® A 10 2 0.8 2 R75Q 3 2 0.8 2 R533X 11 1 0.4 1 2329A ® G Promoter 1 0.4 1 297-3 C ® A 2 1 0.4 1 Y161D 4 1 0.4 1 994del9 Exon/intron 6b 1 0.4 1 1154insTC 7 1 0.4 1 W361R 7 1 0.4 1 T338I 7 1 0.4 1 1249-5A ® G Intron 7 1 0.4 1 1717-2A ® G Intron 10 1 0.4 1 R560T 11 1 0.4 1 E1401X 23 1 0.4 1 3126del4 17a 1 0.4 1 S945L 15 1 0.4 1 R668C 13 1 0.4 1 2622 1 2del6 Intron 13 1 0.4 1 R1162Q Exon 19 1 0.4 1 3849 1 10kbC ® T Intron 19 1 0.4 1 R74W Exon 3 1 0.4 1 2363C ® T Promoter 1 0.4 1 IVS8-5Ta Intron 8 1 0.4 1 Unidentified 20 7.8 Total 258 100 61 116 The new mutations are displayed in bold.
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ABCC7 p.Arg75Gln 11788090:27:422
status: NEW
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ABCC7 p.Arg75Gln 11788090:27:537
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75 CLINICAL DATA FOR THE CF PATIENTS CARRYING NEW MUTATIONS Age PI Lung Sweat (years) at or disease Cl Mutations diagnosis PSb (severity) (mmol/liter) Additional symptoms Frameshift 1112delT/1112delT 4 PI 111 110 1112delT/DF508 0.3 PI 111 112 1112delT/DF508 0.2a PI 111 110 3126del4/E60X 2 PI 11 130 994del9/DF508 0.08 PI 2 120 Meconium ileus RNA splice 297-3C ® A/DF508 0.3 PI 1 120 2622 1 2del6/DF508 0.25 PI 111 100 Nonsense E1401X/unknown 6 PS 2 52 Poor growth, fat malabsorption, abnormal electrophysiological response in the intestinal mucosal biopsy Missense V603F, IVS8-5T/DF508 2 PI 1 101 N1088D, R75Q/DF508 4a PS 2 78 N1088D, R75Q/DF508 2 PS 2 75 Y161D/DF508 0.4 PI 1 83 Malabsorption I506L/DF508 42.5 PS 111 103 I506L/3659delC 30 PS 111 80 R1162Q/unknown nvc PS 1 6 Frequent pneumonias V603F, IVS8-5T/unknown nvc PS (1) 24 Sinusitis, severe recurrent hypoglycemia, nasal polyps, abdominal pain Promoter?
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ABCC7 p.Arg75Gln 11788090:75:608
status: NEW
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ABCC7 p.Arg75Gln 11788090:75:638
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120 There was a third CFTR variant, R75Q, found in these patients and associated with the N1088D allele.
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ABCC7 p.Arg75Gln 11788090:120:32
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PMID: 11788091 [PubMed] Ravnik-Glavac M et al: "Involvement of CFTR gene alterations in obstructive and nonobstructive infertility in men."
No. Sentence Comment
66 DETECTED NUCLEOTIDE ALTERATIONS IN CFTR GENES AND THEIR FREQUENCY IN MEN WITH INFERTILITY AND SUBFERTILITY AND IN CONTROL POPULATION CFTR Nucleotide Amino acid Type of Azoo Oligo OAT CBAVD Controls gene change change change (n 5 160) (n 5 100) (n 5 140) (n 5 14) (n 5 190) Ex 3 356G ® A R75Q P 2 0 1 0 1 Int 3 405 1 35C ® T / V 1 0 0 0 0 405 1 46G ® T / P 4 0 3 0 1 Ex 4 519T ® A L129L V 0 1 0 0 0 549C ® T H139H V 0 1 0 0 0 Ex 7 1022G ® A R297Q M 0 0 1 0 0 Int 8 IVS8-5T / P 8 4 10 3 8 Ex 10 1652del3 DF508 M 1 2 0 2 3 Int17a 3272-93T ® Ca / P 6 2 4 0 4 Ex17b 3417A ® T T1095T P 2 0 1 0 3 Ex 19 3837T ® G S1235R M 0 1 0 0 0 Ex 20 4002A ® G P1290P P 6 2 4 0 4 Ex 21 4029A ® G T1299T P 0 0 1 0 1 Abbreviations: P, Polymorphism; Azoo, azoospermia; V, variation; Oligo, oligozoospermia; M, pathogenic mutation; OAT, oligoasthenoteratozoospermia CBAVD, congenital bilateral absence of the vas deferens; Ex, exon; Int, intron.
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ABCC7 p.Arg75Gln 11788091:66:292
status: NEW
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PMID: 11933191 [PubMed] Ravnik-Glavac M et al: "DHPLC screening of cystic fibrosis gene mutations."
No. Sentence Comment
42 The following mutations have been studied: exon 3: W57G, R74W, R75Q, G85E, 394delTT, 405+ 1G>A; exon 4: E92X, P99L, 441delA, 444delA, 457TAT>G, D110H, R117C, R117H, A120T, 541delC, 544delCA, Q151X, 621+1G>T, 662- 2A>C; exon 7: 1078delT, F331L, R334W, I336K, R347C, R347P, A349V, R352Q, 1221delCT; exon 10: S492F, Q493X, 1609delCA, deltaI507, deltaF508; exon 11: G542X, S549N, G551D, R553X, A559T, R560K, R560T; exon 13: K716X, Q685X, G628R, L719X; exon 17b: H1054D, G1061R, 3320ins5, R1066H, R1066L, R1070Q, 3359delCT, L1077P, H1085R, Y1092X; exon 19: R1162X, 3659delC, 3662delA, 3667del4, 3737delA, I1234V, S1235R, 3849G>A; exon 20: 3860ins31,S1255X,3898insC,3905insT,D1270N, W1282X, Q1291R; and exon 21: N1303H, N1303K, W1316X.
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ABCC7 p.Arg75Gln 11933191:42:63
status: NEW
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PMID: 11938439 [PubMed] Audrezet MP et al: "Determination of the relative contribution of three genes-the cystic fibrosis transmembrane conductance regulator gene, the cationic trypsinogen gene, and the pancreatic secretory trypsin inhibitor gene-to the etiology of idiopathic chronic pancreatitis."
No. Sentence Comment
93 Thus, as in the case of the two previously reported compound heterozygotes, F508del/R117H4 and I336K/R75Q,32 none of our four compound heterozygotes could be described as carrying two `severe' CFTR mutations.
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ABCC7 p.Arg75Gln 11938439:93:101
status: NEW
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PMID: 12000363 [PubMed] Visich A et al: "Complete screening of the CFTR gene in Argentine cystic fibrosis patients."
No. Sentence Comment
56 Frequency of cystic fibrosis transmembrane regulator mutations in the Argentine population: 440 chromosomes analysed Mutation Localization Chromosome Number Percentage DF508 Exon 10 258 58.64 G542X Exon 11 18 4.10 W1282X Exon 20 12 2.73 N1303K Exon 21 12 2.73 R334W Exon 7 5 1.14 1717-1G»A Intron 10 5 1.14 3849π10KbC»T Intron 19 4 0.91 1811π1.6KbA»G Intron 11 4 0.91 IVS8-5T Intron 8 4 0.91 G85E Exon 3 3 0.68 621π1G»T Intron 4 3 0.68 2789π5G»A Intron 14b 3 0.68 DI507 Exon 10 3 0.68 2184delA Exon 13 2 0.45 2566insT Exon 13 2 0.45 2686insT Exon 14a 2 0.45 3659delC Exon 19 2 0.45 R1162X Exon 19 2 0.45 4016insT Exon 21 2 0.45 2789π2insA Intron 14b 2 0.45 L6V Exon 1 1 0.23 297π2A»G Intron 2 1 0.23 W57X Exon 3 1 0.23 R75Q Exon 3 1 0.23 Q220X Exon 6a 1 0.23 Y362X Exon 7 1 0.23 D426C Exon 9 1 0.23 1460delAT Exon 9 1 0.23 1353insT Exon 9 1 0.23 1782delA Exon 11 1 0.23 R553X Exon 11 1 0.23 S549R Exon 11 1 0.23 1898π3A»G Intron 12 1 0.23 2594delGT Exon 13 1 0.23 2183AA»G Exon 13 1 0.23 I1027T Exon 17a 1 0.23 R1066C Exon 17b 1 0.23 G1061R Exon 17b 1 0.23 4005-1G»A Intron 20 1 0.23 Total 367 83.45 209 nificant differences were observed among the compared populations (Table2).
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ABCC7 p.Arg75Gln 12000363:56:785
status: NEW
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PMID: 12001283 [PubMed] Schaedel C et al: "Predictors of deterioration of lung function in cystic fibrosis."
No. Sentence Comment
121 TABLE 3CFTR Mutations Associated With Pancreatic Sufficiency in Swedish CF Population Y109C S549I/S549I Y109N S945L R117C N1088D À R75Q R117H G1244E L206W 711 þ 3A !G T338I 1249 À 5A !G A455E 2789 þ 5G !
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ABCC7 p.Arg75Gln 12001283:121:136
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PMID: 12007216 [PubMed] Bobadilla JL et al: "Cystic fibrosis: a worldwide analysis of CFTR mutations--correlation with incidence data and application to screening."
No. Sentence Comment
109 Mutational Arrays, Detection Rates and Methods by Region* Estimated Projected detection of Number of Number of Country/ allele two CFTR mutations chromosomes Region Mutation array detectiona mutationsb includedc (max/min)d Reference Europe Albania ∆F508 (72.4%) C276X (0.7%) 74.5 55.5 4 270/146 CFGAC [1994]; Macek et al. G85E (0.7%) R1070Q (0.7%) [2002] Austria ∆F508 (62.9%) 457TAT→G (1.2%) 76.6 58.7 11 1516/580 Estiville et al. [1997]; Dörk et al. (total) G542X (3.3%) 2183AA→G (0.7%) [2000]; Macek et al. [2002] CFTRdele2,3 (2.1%) N1303K (0.6%) R1162X (1.9%) I148T (0.5%) R553X (1.7%) R117H (0.5%) G551D (1.2%) Austria ∆F508 (74.6%) 2183AA→G (2.4%) 95.3 90.8 8 126 Stuhrmann et al. [1997] (tyrol) R1162X (8.7%) G551D (1.6%) G542X (2.4%) R347P (1.6%) 2789+5G→A (2.4%) Q39X (1.6%) Belarus ∆F508 (61.2%) R553X (0.5%) 75.2 56.6 9 278/188 Dörk et al. [2000]; Macek et al. G542X (4.5%) R334W (0.5%) [2002] CFTRdele2,3 (3.3%) R347P (0.5%) N1303K (3.2%) S549N (0.5%) W1282X (1.0%) Belgium ∆F508 (75.1%) 622-1A→C (0.5%) 100.0 100.0 27 1504/522 Cuppens et al. [1993]; Mercier et G542X (3.5%) G458V (0.5%) al. [1993]; CFGAC [1994]; N1303K (2.7%) 1898+G→C (0.5%) Estivill et al.[1997] R553X (1.7%) G970R (0.5%) 1717-1G→A (1.6%) 4218insT (0.5%) E60X (1.6%) 394delTT (0.5%) W1282X (1.4%) K830X (0.5%) 2183A→G+2184delA (1.2%) E822K (0.5%) W401X (1.0%) 3272-1G→A (0.5%) A455E (1.0%) S1161R (0.5%) 3272-26A→G (1.0%) R1162X (0.5%) S1251N (1.0%) 3750delAG (0.5%) S1235R (0.8%) S1255P (0.5%) ∆I507 (0.6%) Bulgaria ∆F508 (63.6%) R75Q (1.0%) 93.0 86.5 21 948/432 Angelicheva et al. [1997]; (total) N1303K (5.6%) 2183AA→G (0.9%) Estivill et al. [1997]; Macek G542X (3.9%) G1244V+S912L (0.9%) et al. [2002] R347P (2.2%) G85E (0.9%) 1677delTA (2.1%) 2184insA (0.9%) R1070Q (1.8%) L88X+G1069R (0.8%) Q220X (1.2%) 2789+5G→A (0.8%) 3849+10KbC→T (1.1%) G1244E (0.8%) W1282X (1.0%) 1717-1G→A (0.8%) 2176insC (1.0%) Y919C (0.7%) G1069R (1.0%) WORLDWIDEANALYSISOFCFTRMUTATIONS581 Bulgaria 1) DF508 4) 1677delTA - - 6 13 Angelicheva et al. [1997] (ethnic 2) R347P 5) Q493R Turks) 3) G542X 6) L571S - - 1 30 Angelicheva et al. [1997] Bulgaria 1) DF508 (100.0%) (Gypsy) Croatia ∆F508 (64.5%) G551D (1.1%) 72.5 52.6 5 276 Macek et al. [2002] G542X (3.3%) 3849+10KbC→T (0.7%) N1303K (2.9%) Czech ∆F508 (70.0%) 1898+1G→T (2.0%) 89.6 80.3 10 2196/628 CFGAC [1994]; Estiville et al. Republic CFTRdele2,3 (5.5%) 2143delT (1.2%) [1997]; Dörk et al. [2000]; G551D (3.8%) R347P (0.8%) Macek et al. [2002] N1303K (2.9%) 3849+10KbC→T (0.6%) G542X (2.2%) W1282X (0.6%) Denmark ∆F508 (87.5%) G542X (0.7%) 92.3 85.2 6 1888/678 CFGAC [1994]; Schwartz et al. (excluding 394delTT (1.8%) 621+1G→T (0.6%) [1994]; Estiville et al. [1997] Faroe) N1303K (1.1%) 3659delC (0.6%) Estonia ∆F508 (51.7%) R117C (1.7%) 80.2 64.3 10 165/80 Estivill et al. [1997]; Klaassen et 394delTT (13.3%) E217G (1.7%) al. [1998]; Macek et al. S1235R (3.3%) R1066H (1.7%) [2002] 359insT (1.7%) 3659delC (1.7%) I1005R (1.7%) S1169X (1.7%) Finland ∆F508 (46.2%) G542X (1.9%) 78.8 62.1 4 132/52 CFGAC [1994]; Kere et al. 394delTT (28.8%) 3372delA (1.9%) [1994]; Estivill et al. [1997] France ∆F508 (67.7%) 2789+5G→T (0.79%) 79.7 63.6 12 17854/7420 Chevalier-Porst et al. [1994]; (total) G542X (2.94%) 2184delA+2183A→G (0.77%) Estivill et al. [1997]; Claustres et al. [2000]; Guilloud-Bataille N1303K (1.83%) G551D (0.74%) et al. [2000] 1717-1G→A (1.35%) 1078delT (0.63%) W1282X (0.91%) ∆I507 (0.62%) R553X (0.86%) Y122K (0.59%) France ∆F508 (75.8%) R297Q (0.8%) 98.7 97.4 18 599/365 Férec et al. [1992]; Scotet et al. (Brittany) 1078delT (4.0%) R347H (0.8%) [2000] G551D (3.6%) I1234V (0.8%) N1303K (3.0%) R553X (0.8%) R117H (1.7%) 2789+5G→A (0.8%) 3272-26A→G (1.3%) 4005+1G→A (0.7%) G542X (1.1%) 621+1G→T (0.6%) 1717-1G→A (1.0%) ∆I507 (0.6%) G1249R (0.8%) W846X (0.5%) France ∆F508 (70.0%) N1303K (0.8%) 90.4 81.7 16 250 Claustres et al. [1993] (southern) G542X (6.4%) 3737delA (0.8%) 1717-1G→A (1.6%) R1162X (0.8%) L206W (1.2%) Y1092X (0.8%) R334W (1.2%) S945L (0.8%) ∆I507 (1.2%) K710X (0.8%) 2184delA (1.2%) 1078delT (0.8%) R1158X (1.2%) Y122X (0.8%) (Continued) BOBADILLAETAL.
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ABCC7 p.Arg75Gln 12007216:109:1642
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113 Mexico ∆F508 (41.6%) G551S (0.5%) 75.5 57.0 35 374/194 Orozco et al.[1993]; Villalobos- G542X (5.6%) 1078delT (0.5%) Torres et al. [1997]; Liang et al. ∆I507 (2.5%) Y1092X (0.5%) [1998]; Orozco et al. [2000] S549N (1.9%) R117H (0.5%) N1303K (1.7%) G85E (0.5%) R75X (1.5%) 1716G→A (0.5%) 406-1G→A (1.5%) W1204X (0.5%) I148T (1.5%) W1098C (0.5%) 3849+10KbC→T (1.5%) 846delT (0.5%) 621+1G→T (1.2%) P750L (0.5%) 2055del9→A (1.0%) V754M (0.5%) 935delA (1.0%) R75Q (0.5%) I506T (1.0) W1096X (0.5%) 3199del6 (1.0%) L558S (0.5%) 2183AA→G (1.0%) 4160insGGGG (0.5%) G551D (0.5%) 297-1G→A (0.5%) R553X (0.5%) H199Y (0.5%) 1924del7 (0.5%) United States ∆F508 (68.6%) R553X (0.9%) 79.7 63.5 10 25048 Cystic Fibrosis Foundation (total) G542X (2.4%) 621+1G→T (0.9%) [1998] G551D (2.1%) 1717-1G→A (0.7%) W1282X (1.4%) 3849+10KbC→T (0.7%) N1303K (1.3%) R117H (0.7%) United States ∆F508 (48.0%) S1255X (1.4%) 77.3 59.8 16 160/148 Carles et al. [1996]; Macek et al. (African 3120+1G→A (12.2%) 444delA (0.7%) [1997]; Dörk et al. [1998]; American) 2307insA (2.0%) R334W (0.7%) Friedman et al. [1998] A559T (2.0%) ∆I507 (0.7%) R553X (2.0%) 1717-1G→A (0.7%) ∆F311 (2.0%) G542X (0.7%) G480C (1.4%) S549N (0.7%) 405+3A→C (1.4%) G551D (0.7%) United States 1) L1093P - - 1 2 Yee et al. [2000] (Cherokee) United States Non-French: French: Non- Non- Non- Non- Bayleran et al. [1996] (Maine) ∆F508 (82.0%) ∆F508 (58%) French: French: French: French: G542X (2.6%) 711+1G→T (8.3%) 95.3 90.8 11 191 G551D (2.6%) I148T (4.2%) French: French: French: French: N1303K (2.1%) A455E (4.2%) 80.3 64.5 8 72 R560T (1.0%) 1717-1G→A (1.4%) Total: 621+1G→T (1.0%) G85E (1.4%) 263 711+1G→T (1.0%) 621+1G→T (1.4%) R117H (1.0%) Y1092X (1.4%) 1717-1G→A (1.0%) G85E (0.5%) W1282X (0.5%) TABLE 1. Continued. Estimated Projected detection of Number of Number of Country/ allele two CFTR mutations chromosomes Region Mutation array detectiona mutationsb includedc (max/min)d Reference WORLDWIDEANALYSISOFCFTRMUTATIONS589 United States ∆F508 (46.0%) R334W (1.6%) 58.5 34.2 7 129 Grebe et al. [1994] (SW Hispanic) G542X (5.4%) W1282X (0.8%) 3849+10KbC→T (2.3%) R553X (0.8%) R1162X (1.6%) United States 1) R1162X - - 3 17 Mercier et al. [1992] (SW Native 2) D648V American) 3) G542X United States 1) R1162X 3) G542X - - 4 16 Mercier et al. [1994] (Zuni Pueblo) 2) 3849+10KbC®T 4) D648V Venezuela ∆F508 (29.6%) G542X (3.7%) 33.3 11.1 2 54 Restrepo et al. [2000] Other Regions Australia ∆F508 (76.9%) 621+1G→T (1.1%) 88.7 78.7 8 761/464 CFGAC [1994] G551D (4.5%) N1303K (0.9%) G542X (2.8%) W1282X (0.6%) R553X (1.3%) R117H (0.6%) East Asia 1) 1898+1G®T 2) 1898+5G®T - - 2 28 Suwanjutha et al. [1998] Hutterite 1) M1101K (69.0%) 2) DF508 (31.0%) - - 2 32 Zielenski et al. [1993] Brethren New Zealand ∆F508 (78.0%) N1303K (1.9%) 87.4 76.4 5 636 CFGAC [1994] G551D (4.4%) 621+1G→T (1.1%) G542X (2.0%) *This table presents the mutation panels for all regions investigated in this study.
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ABCC7 p.Arg75Gln 12007216:113:503
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PMID: 12404105 [PubMed] Schurmann M et al: "CFTR gene mutations in sarcoidosis."
No. Sentence Comment
3 We have genotyped a panel of 63 families with two or more affected siblings for the CFTR gene mutation R75Q, which was found to be present in three of 26 cases of the Italian study.
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ABCC7 p.Arg75Gln 12404105:3:103
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4 Although R75Q was present in seven families, it was neither associated with the sarcoidosis phenotype in the German population (P=0.5), nor was it linked to sarcoidosis (P=0.54).
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ABCC7 p.Arg75Gln 12404105:4:9
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14 Two successive studies from Italy reported a high frequency of CFTR mutations in individuals suffering from sarcoidosis.7,8 The most frequent CFTR mutation was R75Q, which was present in three of 26 cases.8 These findings prompted us to screen the panel of 63 families with two or more patients for R75Q.
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ABCC7 p.Arg75Gln 12404105:14:160
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ABCC7 p.Arg75Gln 12404105:14:299
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23 The complete panel (63 families) was genotyped for the CFTR gene mutation R75Q by PCR with primers 3i-5 and 3i-3 (according to ref9 ) and restriction enzyme digestion of the corresponding PCR products.
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ABCC7 p.Arg75Gln 12404105:23:74
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24 R75Q (G?A at nucleotide position 356) creates a new Bsr DI cleavage site in the mutated gene sequence.
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ABCC7 p.Arg75Gln 12404105:24:0
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25 DNA from a R75Q heterozygous subject from a previous study10 was used as control DNA.
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ABCC7 p.Arg75Gln 12404105:25:11
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31 Using this method, we are normally able to detect more than 90% of CF mutations among German CF patients.12,13 Differences in the genotype frequencies between patients and controls were assessed by Fisher´s exact test, and non-parametric linkage analysis was performed using Genehunter 2.0.14 Results R75Q was identified in eight patients, three parents and in one unaffected sibling from a total of seven families.
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ABCC7 p.Arg75Gln 12404105:31:306
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32 In these families, R75Q was not present in 13 patients, six parents, nor in three unaffected siblings.
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ABCC7 p.Arg75Gln 12404105:32:19
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33 In six of the seven families at least one affected sibling was negative for R75Q.
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ABCC7 p.Arg75Gln 12404105:33:76
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34 The frequency of R75Q heterozygosity in the group of unrelated founders (parents) was 0.057 (three in 53), which was slightly higher but statistically not significantly different (P=0.5; Fisher`s exact test) from the frequency of 0.011 (four in 94) among healthy German controls.10 The frequency for R75Q among patients was 0.05 (eight in 138), which was statistically neither different compared to the group of healthy controls (P=0.43) nor to the parents (P=0.64) nor to the healthy siblings (P=0.35).
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ABCC7 p.Arg75Gln 12404105:34:17
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ABCC7 p.Arg75Gln 12404105:34:300
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37 We conclude that R75Q is not associated with sarcoidosis in our study group.
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ABCC7 p.Arg75Gln 12404105:37:17
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38 In addition, we did not obtain any evidence for linkage between sarcoidosis and R75Q by linkage analysis.
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ABCC7 p.Arg75Gln 12404105:38:80
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40 To conclude it can be said that, R75Q and the sarcoidosis phenotype segregate as independent traits (Figure 1).
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ABCC7 p.Arg75Gln 12404105:40:33
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50 We identified the CFTR mutation R75Q in seven families but could not find any evidence, which would prove that this mutation has a predisposing effect on the disease, neither by association nor by linkage analysis.
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ABCC7 p.Arg75Gln 12404105:50:32
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51 Instead, R75Q segregated independently from the sarcoidosis phenotype in these families.
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ABCC7 p.Arg75Gln 12404105:51:9
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52 Previously, we and others reported a relatively high frequency of R75Q among patients with congenital absence of the vas deferens (CAVD),10,17,18 bronchiectasis,7,19 atypical mild cystic fibrosis,20 chronic idiopathic pancreatitis,21 allergic bronchopulmonary aspergillosis,22 and sarcoidosis.7,8 Bombieri et al.
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ABCC7 p.Arg75Gln 12404105:52:66
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53 concluded from their study that R75Q may be a CFTR gene mutation characteristic of sarcoidosis.8 Our results do not support this hypothesis.
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ABCC7 p.Arg75Gln 12404105:53:32
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54 Moreover, R75Q is listed as a polymorphism (356G/A) in the Cystic Fibrosis Genetic Analysis Consortium database.
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ABCC7 p.Arg75Gln 12404105:54:10
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55 The exact role of R75Q still remains unclear, but the results from the studies mentioned above suggest that R75Q may be associated with mild CF symptoms.
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ABCC7 p.Arg75Gln 12404105:55:18
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ABCC7 p.Arg75Gln 12404105:55:108
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69 Clearly, a concerted Europe-wide approach Figure 1 Detection of R75Q (356G/A) by PCR and restriction digestion in three families.
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ABCC7 p.Arg75Gln 12404105:69:64
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71 PCR products with primers encompassing R75Q were digested with the restriction enzyme Bsr DI and visualised by agarose gel electrophoresis.
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ABCC7 p.Arg75Gln 12404105:71:39
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74 In each of the three families, only one of the affected siblings is heterozygote for R75Q (three bands), while the other affected siblings are homozygous for the G allele (one band).
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ABCC7 p.Arg75Gln 12404105:74:85
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75 Lane C: Bsr DI digested PCR product from R75Q heterozygous control DNA.
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ABCC7 p.Arg75Gln 12404105:75:41
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PMID: 12452372 [PubMed] Gaia E et al: "Germline mutations in CFTR and PSTI genes in chronic pancreatitis patients."
No. Sentence Comment
56 All mutations (W1282X, N187K, R352Q, ⌬F508, R75Q, R31C, 621ϩ2T-ϾG, I197V, K68N, R1162X) were found in heterozygotes, indicating that these patients are carriers of a single mutation.
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ABCC7 p.Arg75Gln 12452372:56:51
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78 PATIENTS CARRYING THE CFTR MUTATION* Pt Sex Age (yr) Age at onset (yr) Alcohol (g/day)† Familial CFTR mutations Exocrine insufficiency Diabetes mellitus(Յ10) (10-40) (40-80) T.B. M 59 23 (Յ10) No W1282X Yes No B.G. M 40 29 (Յ10) Yes N187K No No E.P. M 40 34 (Յ10) No R352Q No Yes D.N. M 53 47 (10-40) No R75Q Yes No R.L. F 57 44 (Յ10) No R31C No No T.F. M 56 *‡ (Յ10) No 621 ϩ 2T 3 G Yes No F.G. M 54 46 (10-40) No I197V Yes No V.M. M 65 *† (10-40) No K68N Yes No B.L. F 57 56 (10-40) Yes ⌬F508 No Yes T.G. M 25 24 (Յ10) No R1162X No No *This table shows the characteristics of chronic pancreatitis patients, carriers of CFTR mutations.
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ABCC7 p.Arg75Gln 12452372:78:335
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88 Four mutations were found in patients with mild forms of CF (R31C, K68N, R75Q, and R352Q).
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ABCC7 p.Arg75Gln 12452372:88:73
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PMID: 12634855 [PubMed] Perri F et al: "On the role of CFTR, PSSR1 and PST1/SPINK1 in idiopathic chronic pancreatitis."
No. Sentence Comment
24 Table 1 Sequence variation identified in the PRSS1, PSTI, and CFTR genes in 37 Italian patients with ICP CFTR Patient PRSS1 PSTI Mutant PolyT 1 - a - W1282X/N 7T/9T 2 - - N187K/N 7T/7T 3 - - 711+1G/1T 7T/7T 4 - - R75Q/N 7T/9T 5 - - NDb ND 6 - - - 5T/9T 7 - - - 5T/7T 8 - - - 5T/7T 9 - - - 5T/7T 10 - - - 5T/7T 11 - P55S - 5T/7T 12 to 37 - - - 7T/7T or 7T/9T a Indicates two wild alleles.
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ABCC7 p.Arg75Gln 12634855:24:213
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PMID: 12651880 [PubMed] Witt H et al: "Chronic pancreatitis and cystic fibrosis."
No. Sentence Comment
502 However, some of the reported CFTR alterations have been found frequently in healthy individuals such as R75Q or L997F and might represent polymorphisms.
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ABCC7 p.Arg75Gln 12651880:502:105
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PMID: 12783301 [PubMed] Sheth S et al: "Increased prevalence of CFTR mutations and variants and decreased chloride secretion in primary sclerosing cholangitis."
No. Sentence Comment
84 The R75Q variant is currently not listed as a CF-causing mutation, although its contribution to CF-like phenotypes cannot be excluded.
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ABCC7 p.Arg75Gln 12783301:84:4
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109 The remaining three PSC patients had potentially disease-causing mutations (S686Y, I1366F, R75Q), which may contribute to CF-like phenotypes.
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ABCC7 p.Arg75Gln 12783301:109:91
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PMID: 12865275 [PubMed] Ahmed N et al: "Molecular consequences of cystic fibrosis transmembrane regulator (CFTR) gene mutations in the exocrine pancreas."
No. Sentence Comment
309 Table 2 Genotype classification according to the functional consequences of CFTR gene mutations Pancreatic status Class I Class II Class III Class IV Class V PS F1 , 875+1G→C(2) F, F (1) F, G551D (1) F, R117H (11) F,3849+10kbC→T (5) F, G85E2 (1) F, R347H (3) F,3272-26A→G (4) F, S1251N (2) F,A445E (3) F, D614G (1) F,P574H (2) F, R347P (1) F,3120G>A (1) R117H,R117H (1) F, 5T (8) F, L1335P (1) F,2789+5G→A (1) F,P67L (1) F,R347P/R347H (1) F,V232D(2) R334W, R334W(1) PS→PI F,3659delC (1) F,F (15) F,G551D (1) F, I1234V (1) F,2184insA (1) F,R560T (1) PI F, G542X (27) F,F (365) F, G551D (28) F, 621+1G→T (13) F, R560T (7) F,R553X (7) F, N1303K (9) F, R1162X (6) F,L1077P (2) F, 3659delC (5) F, I48T (1) F, 1717-1G→A (5) F,A559T (1) F, W1282X (5) F, G85E2 (2) F, 711+1G→T (5) G551D,G551D(1) F,2184delA(4) F,H199R (1) W1282X,W1282X (4) F,I1072T(1) F,Y1092X (3) F,S549 (R75Q) (1) F,556delA (3) F, Q493X (3) F,4016InsT (3) F, 3120+1G→A (2) F, G551D/R553X (2) F,Q814X(2) F,1154insTC (2) F,441delA (1) F, 4326delTC (1) F,Q552X(1) F,3007delG (1) F,2184insA (1) F, 4010del4 (1) F,3905insT (1) F,1078delT(1) F,E1104X (1) F,3876delA (1) F,4374+1G→T (1) F,E585X (1) F, E60X (1) CFTR, cystic fibrosis transmembrane regulator; PI, pancreatic insufficiency; PS, pancreatic sufficiency.
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ABCC7 p.Arg75Gln 12865275:309:921
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PMID: 12891373 [PubMed] Bombieri C et al: "Comment on 'CFTR gene mutations in sarcoidosis'."
No. Sentence Comment
2 In their study, mutation R75Q was investigated first, because it was detected in 3/26 patients of our published series: the mutation was present in 7/63 families, but it did not segregate with the disease.
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ABCC7 p.Arg75Gln 12891373:2:25
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9 In conclusion, our cumulative case control data obtained by a complete gene screening of 53 Italian sarcoidosis patients are in accordance with the segregation study of R75Q and CF-causing mutations in German families, and support the conclusion that CFTR gene mutations do not appear to have a major influence on the pathogenesis of sarcoidosis.
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ABCC7 p.Arg75Gln 12891373:9:169
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PMID: 14586256 [PubMed] Reboul MP et al: "Isolated idiopathic chronic pancreatitis associated with a compound heterozygosity for two mutations of the CFTR gene."
No. Sentence Comment
62 Patient no 4 is debatable from two points of view: a) her status of compound heterozygote for two mutations of the CFTR gene including one (R75Q) considered by some as a simple polymorphism [14], and by others as a mild mutation [15]; b) her clinical features of pancreatic damage and nasal polyps.
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ABCC7 p.Arg75Gln 14586256:62:140
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80 Patient CFTR no PolyT genotype Sex genotype Age (years) Sweat chloride (mmol/L) Anamnestic features known to be associated with atypical CF Reference 1 F508del/R117H 9T/7T M 45 29 CBAVD [4] 2 N1303K/R117H 9T/7T F n.a. 37 bronchiectasis, sinusitis, positive NPD [5] 3 R1162X/2789+5G>A 7T/7T F n.a. 108 chronic cough [5] 4 I336K/R75Q 7T/7T F 26 26 nasal polyposis [7] 5 F508del/L997F 9T/7T M 17 24 none [11] 6 3849+10kbC>T/3878delG 7T/7T M 14 n.a. none [11] 7 S1235R/L997F 5T/7T M 27 25 none [11] 8 F508del/R117H n.a. M 45 29 CBAVD, smooth P. aeruginosa [12] 9 F508del/I1027T n.a. F 32 59 none [12] 10 F508del/D1152H n.a. M 8 62 none [12] 11 F508del/D1152H n.a. F 15 32 none [12] 12 F508del/P574H n.a. F 26 81 sinus surgery, S. aureus, S. maltophilia [12] 13 F508del/3120G>A n.a. F 40 n.a. n.a. [12] 14 F508del/G1069R n.a. M 16 n.a. n.a. [12] 15 G542X/S1235R 7T/7T M 35 15 none [this study] n.a.: not available.
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ABCC7 p.Arg75Gln 14586256:80:327
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PMID: 14696845 [PubMed] Gronowitz E et al: "Association between serum oncofetal antigens CA 19-9 and CA 125 and clinical status in patients with cystic fibrosis."
No. Sentence Comment
45 The remaining 23 patients had at least one mild (I506L, R117C, S945L, T338I, W301R, 3849 ‡ 10KBC → T, 1249-5 → G, R117H, R75Q), moderate (G551D, R560T, V603F) or unknown mutation.
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ABCC7 p.Arg75Gln 14696845:45:140
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PMID: 14872121 [PubMed] Gilljam M et al: "Cystic fibrosis diagnosed in an elderly man."
No. Sentence Comment
21 Genetic testing later confirmed two CFTR gene mutations, 394delTT and P99L, and the R75Q variant.
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ABCC7 p.Arg75Gln 14872121:21:84
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34 R75Q was initially reported as an amino acid sequence polymorphism [8], but may be a mild missense mutation in exon 3 [Zielenski, pers.
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ABCC7 p.Arg75Gln 14872121:34:0
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36 This patient thus carried one severe and one mild mutation and the R75Q variant, with unknown linkage, in the region of the CFTR gene coding for the first membrane-spanning domain of the CFTR glycoprotein.
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ABCC7 p.Arg75Gln 14872121:36:67
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PMID: 14963811 [PubMed] Luzardo G et al: "Cystic fibrosis in Uruguay."
No. Sentence Comment
42 RESULTS Genetic analysis led to the detection of 15 different mutations: ∆F508, G542X, R1162X, G85E, N1303K, R334W, R75Q, R74W, D1270N, W1282X, ∆I507, 2789+5G→A, R1066C, R553X and -816C/T.
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ABCC7 p.Arg75Gln 14963811:42:123
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47 Mutation Cumulative (%)%N ∆F508 G542X R1162X G85E N1303K R334W R75Q Other mutations* Unknown 42 6 3 3 3 2 2 13 30 40.4 5.7 2.9 2.9 2.9 1.9 1.9 12.5 28.9 40.4 46.1 49.0 51.9 54.9 56.7 58.6 71.1 99.9 *R74W, D1270N, W1282X, ∆I507, 2789+5G→A, R1066C, -816C/T, R553X, 5T (3 cases associated to other mutations, 2 cases without known second mutation).
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ABCC7 p.Arg75Gln 14963811:47:70
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59 Genotypes N Percent ∆F508/∆F508 ∆F508/R1162X ∆F508/G85E ∆F508/G542X ∆F508/5T ∆F508/R334W ∆F508/1303X ∆F508/R1066C ∆F508/Unknown ∆I507/2789+G-A R74W/D1270N N1303K/G542X N1303K/R553K -816C-T/5T 5T/Unknown G542X/Unknown R75Q/Unknown W1282X/Unknown Unknown/Unknown 8 3 3 3 2 2 1 1 11 1 1 1 1 1 2 2 2 1 6 15.4 5.8 5.8 5.8 3.9 3.9 1.9 1.9 21.2 1.9 1.9 1.9 1.9 1.9 3.9 3.9 3.9 1.9 11.5 All individuals had pulmonary symptoms.All those carrying the ∆F508/∆F508 genotype had pancreatic insufficiency.
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ABCC7 p.Arg75Gln 14963811:59:294
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PMID: 15084222 [PubMed] D'Apice MR et al: "Molecular analysis using DHPLC of cystic fibrosis: increase of the mutation detection rate among the affected population in Central Italy."
No. Sentence Comment
90 Table 3: Polymorphisms (*) identified in our cohort of CF patients by DHPLC Polymorphism Nucleotide change Exon/intron 125G/C 125 G to C 5' UTR R75Q 356 G to A 3 875+40A/G 875+40A/G Intron 6a M470V 1540 A to G 10 T854T 2694 T to G 14a T966T 3030 G to A 15 4006-199G/A 4006-199G/A Intron 20 P1306P 4050 C to T 21 (*) According to [7].
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ABCC7 p.Arg75Gln 15084222:90:144
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PMID: 15151509 [PubMed] Casals T et al: "Bronchiectasis in adult patients: an expression of heterozygosity for CFTR gene mutations?"
No. Sentence Comment
81 Table2.ClinicalfeaturesandCFTRgenotypesfoundin20adultpatientswithbronchiectasis SampleSex/age Ageonset (years) FEV1/FVC (%predicted) Bacterial colonization Sweattest (mEq/l) Lobes affected Clinical features FirstCFTR change Second CFTRchangeM470V 1M/41520/43P30a >4-F508delL997FM/V 2F/231785/89P,S46a >4SN,ABPA,PNF508del-M/M 3F/24160/74P,S49a >4SN,PNF508del-M/V 4M/55-87/84S32a 2-F508del-M/V 5c F/372991/93S41a >4PNF508del-M/V 6F/333286/84No51a 2-G542X-M/M 7F/306101/112No56a >4-2789þ5G>A5T-12TGM/V 8F/3815106/104No29a 2OtitisS1235R-M/V 9F/34Birth75/100H20a >4SNV562L5T-11TGM/V 10d F/36530/51P20a >4SN,PNG1237S-M/V 11d M/401473/92H26a 3SN,PN,OZG1237S-M/V 12F/23541/47S23a >4HemoptysisR347HR75QV/V 13F/68548/52No34a >4PNY1014C5T-12TGV/V 14M/643088/84H39a 2-R75Q-M/V 15M/40Childhood56/79No33b >4SN,asthmaV754M-M/M 16M/474594/108No19a 2SN,PNQ179K-M/V 17M/23Childhood38/34No28a 2SN,PN5T-12TG5T-11TGM/V 18F/695068/89S52a 4DiabetesG576A,R668C-M/V 19F/47Childhood16/18P64b >4-G576A,R668C-M/V 20F/38672/88No39b >4SN,ABPA,asthma1716G/A-M/M M,male;F,female;FEV1,forcedexpiratoryvolumein1s(%ofpredictedvalueforheight);FVC,forcedvitalcapacity(%ofpredictedvalueforheight);P,Pseudomonas aeruginosa;H,Haemophilusinfluenza;S,Staphylococcusaureus;SN,sinusitis;ABPA,allergicbronchopulmonaryaspergillosis;PN,pneumonia;OZ,oligozoospermia.
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ABCC7 p.Arg75Gln 15151509:81:761
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PMID: 15266396 [PubMed] Cardoso H et al: "A low prevalence of cystic fibrosis in Uruguayans of mainly European descent."
No. Sentence Comment
38 *G542X, R1162X, G85E, N1303K, R334W, R75Q, R74W, D1270N, W1282X, ∆I507, 2789+5G->A, R1066C, -816C/T, and R553X. Table 1.
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ABCC7 p.Arg75Gln 15266396:38:37
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56 *G542X, R1162X, G85E, N1303K, R334W, R75Q, R74W, D1270N, W1282X, ∆I507, 2789+5G->A, R1066C, -816C/T, R553X. Table 2.
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ABCC7 p.Arg75Gln 15266396:56:37
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PMID: 15536480 [PubMed] Modiano G et al: "A large-scale study of the random variability of a coding sequence: a study on the CFTR gene."
No. Sentence Comment
33 In the Tajima`s test,19 the null hypothesis of neutrality is rejected if a statistically significant difference between p Common and rare nonsynonymous and synonymous cSNSs G Modiano et al European Journal of Human Genetics Table 1 List of the 61 cSNSsa encountered in the present survey The random samples of genes (and the technique utilized) cSNS variants found NE Italy (DGGE) Central Italy (DGGE) Southern France (DGGE) Northern France (DHPLC) Spain (SSCA) Czechia (DGGE) Hb  104 Exon Exon Length (bp) Ref. no. SNS SASc 1st 100d 2nd 500 1st 100d 2nde 1st 100d 2nd 500 1st 100 2nde 82d 72 Abs. Freq. Total sample size q  104 se  104 NSf Sf 1g 53 0 0 0 0 0/452 0 924 2 111 1 223C4T R31C 1 1 1/500 1 1 0 0/450 0 5 (11) 1 932 (2 432) 45.23 13.61 90 2 224G4T R31L 0 0 0/500 0 0 0 1/450 0 1 1 932 5.17 5.17 10 3 257C4T S42F 0 0 1/500 0 0 0 0/450 0 1 1 932 5.17 5.17 10 3 109 4 334A4G K68E 1 0 0 0/498 0 0 0 0/452 0 0 1 2 504 3.99 3.99 8 5 352C4T R74W 0 0 0 0/498 0 0 0 1/452 0 0 1 2 504 3.99 3.99 8 6 356G4A R75Q 1 7 1 7/498 2 9 2 9/452 0 2 40 (40) 2 504 (2 544) 157.23 24.66 310 7 386G4A G85E 0 0 1 1/498 0 0 0 0/452 0 0 2 2 504 7.99 5.65 16 4 216 8 482G4A R117H 0 0 0 0/292 0 2 0 1/456 0 0 3 2 302 13.03 7.52 26 9 528T4G I132M 0 0 0 0/292 0 0 0 1/456 0 0 1 2 302 4.34 4.34 8 10 575T4C I148T 1 2 0 1/292 0 0 0 1/456 0 1 6 2 302 26.06 10.63 52 5 90 11 640C4T R170C 0 0 0 0/6 0 0 1/448 0 1 1 436 6.96 6.96 14 12 641G4A R170H 1 1 0 0/6 0 0 2/448 0 4 (4) 1 436 (1 930) 20.73 10.35 41 6a 164 0 0 0/6 0 0 0/432 0 0 992 6b 126 0 0 0/6 0 0 0/454 0 942 7 247 0 0 0/6 0 0 0/796 0 1 284 8 93 13 1281G4A L383 0 0 0 0/6 0 0 1/456 0 0 1 1 516 6.60 6.60 13 9 183 14 1402G4A G424S 0 0 0/6 0 0 1/454 0 1 940 10.64 10.64 21 15 1459G4T D443Y 0 0 0/6 0 0 1/454 0 1 940 10.64 10.64 21 10 192 16 1540A4G M470Vh 42 197 30 37/96 39 199 (i) (i) 27 571(736) 1 484 (1 912) 3849.37 111.28 4 735 17 1598C4A S489X 0 0 0 0/96 0 0 0 1/796 0 1 2 374 4.21 4.21 8 18 1648A4G I506V 1 0 0 0/96 0 0 0 0/796 0 1 2 374 4.21 4.21 8 19 1655T4G F508C 0 1 0 0/96 0 0 0 1/796 0 2 2 038 8.42 5.96 17 20 1716G4A Q528 2 16 1 0/96 0 19 i I 5 43 (58) 1 478 (2 024) 286.56 37.08 557 11 95 21 1756G4T G542X 0 2 0 0/134 0 0 0/796 0 0 2 1 984 10.08 7.12 20 22 1764T4G G544 0 0 0 0/134 0 0 1/796 0 0 1 1 984 5.04 5.04 10 23 1784G4A G551D 0 0 0 0/134 0 0 1/796 0 0 1 1 984 5.04 5.04 10 12 87 24 1816G4A V562I 0 0 0 0 1 0 0/450 0 0 1 (1) 2 004 (2 504) 3.99 3.99 8 25 1816G4C V562L 0 0 0 1 0 0 1/450 0 0 2 (3) 2 004 (2 504) 11.98 6.91 24 26 1859G4C G576A 1 2 0 1 11 0 8/450 0 0 23 (27) 2 004 (2 538) 106.38 20.36 213 13 724j 449 27 1997G4A G622D 0 0 0/80 0/96 1 0 0 0/444 0 1 2 002 5.00 5.00 10 28 2082C4T F650 1 0 0/80 0/20 0 0 0 0/444 0 1 (1) 1 926 (2 412) 4.15 4.15 8 29 2134C4T R668C 1 2 0/80 0/96 1 11 0 12/444 0 27(32) 2 002 (2 558) 125.10 21.98 247 275 30 2377C4T L748 0 0 0/6 0 1 1 388 25.77 25.77 52 14a 129 31 2670G4A W846X 0 0 0/6 0 1 0/452 0/80 0 1 1 010 9.90 9.90 20 32 2694T4G T854 33 23 0/6 33 38 149/452 14/80 11 301 1 010 2980.20 143.92 4 184 33 2695G4A V855I 0 0 0/6 0 0 1/452 0/80 0 1 1 010 9.90 9.90 20 14b 38 0 0 0 0/520 0 0 0 0/446 0 2 448 15 251 34 2816G4C S895T 0 0 0/6 0 0 2/436 0 0 2 996 20.08 14.18 40 35 2831A4C N900T 0 0 0/6 0 0 1/436 0 0 1 996 10.04 10.04 20 36 2988G4C M952I 0 0 0/6 0 0 1/436 0 0 1 996 10.04 10.04 20 37 3030G4A T966 (2)k (1)k 0 6/436 0 6 (25)k 618 (1814)k 137.82 27.37 272 38 3032T4C L967S 0 0 0/6 0 0 1/436 0 0 1 996 10.04 10.04 20 16 80 0 0 0/498 0 0 0/450 0 0 1 502 17a 151 39 3123G4C L997F 0 2 2 1/494 0 7 1 4/454 0 0 17 2 502 67.95 16.42 135 40 3157G4A A1009T 0 2 0 0/494 0 0 0 0/454 0 0 2 2 502 7.99 5.65 16 41 3212T4C I1027T 1 0 0 0/494 0 0 0 0/454 0 0 1 2 502 4.00 4.00 8 17b 228 42 3286T4G F1052V 1 1 0 1/194 0 0 0 0/452 0 0 3 (3) 2 200 (2 240) 13.39 7.73 27 43 3337G4A G1069R 0 1 0 0/194 0 0 0 0/452 0 0 1 2 200 4.55 4.55 9 CommonandrarenonsynonymousandsynonymouscSNSs GModianoetal 186 EuropeanJournalofHumanGenetics 44 3345G4T Q1071H 0 0 0 0/194 0 1 0 0/452 0 0 1 2 200 4.55 4.55 9 45 3417A4T T1995 1 3 0 0/194 1 1 0 0/452 0 0 6 (8) 2 200 (2 506) 31.92 11.27 64 46 3419T4G L1096R 0 0 0 0/194 1 0 0 0/452 0 0 1 2 200 4.55 4.55 9 47 3477C4A T1115 0 0 0 0/194 0 0 0 1/452 0 0 1 2 200 4.55 4.55 9 18 101 48 3523A4G I1131V 0 0 1 0/10 0 0 0/448 0 0 1 (2) 1 512 (1 908) 10.48 7.07 21 49 3586G4C D1152H 0 0 0 0/10 0 0 1/448 0 0 1 1 512 6.61 6.61 13 19 249 50 3617G4T R1162L 0 0 1 1/494 0 0/260 0 0/454 0 0 2 2 262 8.84 6.25 18 51 3690A4G Q1186 0 0 0 0/494 0 0/260 0 0/454 1 0 1 2 262 4.42 4.42 9 52 3813A4G L1227 0 1 0 0/494 0 0/260 0 0/454 0 0 1 2 262 4.42 4.42 9 53 3837T4G S1235R 1 1 0 1/494 0 4/260 0 7/454 0 1 15 (15) 2 262 (2 310) 69.94 16.71 140 20 156 54 4002A4G P1290 2 3 0/6 3 5 18/454 3/80 2 36 1 012 357.73 58.22 690 21 90 55 4009G4A V1293I 0 0 0/6 0 0/300 0 1/456 0 0 1 1 316 7.60 7.60 15 56 4029A4G T1299 1 0 0/6 0 1/300 0 1/456 0 0 3 (8) 1 316 (2 330) 34.33 12.12 69 57 4041C4G N1303K 1 0 0/6 0 0/300 0 0/456 0 0 1 1 316 7.60 7.60 15 58 4085T4C V1318A 0 0 0/6 0 0/300 0 1/456 0 0 1 1 316 7.60 7.60 15 22 173 0 0 0/18 0 0 0/450 0 0 1 022 23 106 0 0 0 0/6 0 0 0/448 0 1 436 24l 198+3 59 4404C4T Y1424 1 0 0/6 1 2 5/420 0 2 11 (32) 980 (2 516) 127.19 22.34 251 60m 4521G4A Q1463 (21) (16) (3/32) (14/80) (30) (94/420) 15/76 (17) 15 (227) 76 (1052) 2142.86 131.07 3 367 61 4563T4C D1477 0 0 0/6 0 1 0/420 0 0 1 980 10.20 10.20 20 Totals 6 525 9 584 16 109 The bracketed figures include also the RFLP analysis data (see Materials and methods); the NE Italy, Central Italy, Southern and Northern France are each subdivided into two samples where the 1st is made up of 100 genes.
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ABCC7 p.Arg75Gln 15536480:33:1027
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PMID: 15618592 [PubMed] Divac A et al: "CFTR mutations and polymorphisms in adults with disseminated bronchiectasis: a controversial issue."
No. Sentence Comment
158 One of the patients with DB was a compound heterozygote (V920L/R75Q) and one was heterozygous for R75Q.
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ABCC7 p.Arg75Gln 15618592:158:63
status: NEW
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ABCC7 p.Arg75Gln 15618592:158:98
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159 Several groups have reported R75Q in patients with DB, CBAVD, chronic pancreatitis, asthma and chronic obstructive pulmonary disease.5 6 8-11 In contrast to previous reports,4-7 the frequency of CFTR mutations in patients with DB was not significantly higher than in our general population (2.17%, unpublished data, 2003).
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ABCC7 p.Arg75Gln 15618592:159:29
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188 11 Divac A, Nikolic A, Mitic-Milikic M, et al. High frequency of the R75Q CFTR variation in patients with chronic obstructive pulmonary disease.
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ABCC7 p.Arg75Gln 15618592:188:69
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PMID: 15705292 [PubMed] Claustres M et al: "Molecular pathology of the CFTR locus in male infertility."
No. Sentence Comment
380 such as F5()8C. I7I6G>A, R75Q or the double mutant |G576A+R668Ci may be mild [nuiants involved in CBAVD cases when no other mutation is found on the allele despite careful whole coding sequences scanning.
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ABCC7 p.Arg75Gln 15705292:380:25
status: NEW
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PMID: 15744517 [PubMed] Murphy D et al: "Optical detection and discrimination of cystic fibrosis-related genetic mutations using oligonucleotide-nanoparticle conjugates."
No. Sentence Comment
40 Before using each oligonucleotide, a working stock solution was prepared from the sample received from the supplier Fig. 1 Probe and target oligonucleotide sequences relating to the four cystic fibrosis mutations investigated in this study, namely DF 508, M470D, R74W and R75Q mutations.
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ABCC7 p.Arg75Gln 15744517:40:272
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81 The cystic fibrosis-related mutations that were selected for study are as follows: D F 508-a three base deletion of CTT at position 508 of the CFTR gene; M470V-an A to G SNP at position 1540 of the CFTR gene; R74W and R75Q-C to T and G to A SNPs at positions 352 and 356, respectively, of the CFTR gene.
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ABCC7 p.Arg75Gln 15744517:81:218
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113 To explore the applicability and usefulness of oligonucleotide-nanoparticle conjugates for this purpose, the CF-related SNPs R74W (C to T) and R75Q (G to A) were selected for study.
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ABCC7 p.Arg75Gln 15744517:113:143
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116 Denaturation behavior was then investigated for complexes formed using either of four target strand sequence types-mutation-free, R74W-bearing, R75Q-bearing and a sequence bearing both mutations.
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ABCC7 p.Arg75Gln 15744517:116:144
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121 Concerning the melting behavior of the latter complexes, it is observed that dissociation of the R74W-bearing complex (red line) may be clearly distinguished from that of the R75Q-bearing complex (pink line).
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ABCC7 p.Arg75Gln 15744517:121:175
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126 Denaturation behavior of the hybridized nanoparticle aggregates was investigated for complexes formed using either mutation-free, R74W-bearing, or R75Q-bearing target strands of 50 and 72 base length.
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ABCC7 p.Arg75Gln 15744517:126:147
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138 The second and third rows, each labeled ''DF 508`` and ''No mutation``, show Fig. 3a-c R74W and R75Q mutation detection.
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ABCC7 p.Arg75Gln 15744517:138:96
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139 a Thermal dissociation curves for three-strand complexes comprising two oligonucleotide-nanoparticle conjugates and a target oligonucleotide with the following sequence: (blue) mutation-free, (red) R74W mutation, (pink) R75Q mutation, and (brown) both R74W and R75Q mutations, respectively.
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ABCC7 p.Arg75Gln 15744517:139:220
status: NEW
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ABCC7 p.Arg75Gln 15744517:139:261
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141 Also, thermal dissociation curves are shown for three-strand complexes comprising two oligonucleotide-nanoparticle conjugates and a target oligonucleotide with the following sequence: (blue) mutation-free, (red) R74W mutation, (pink) R75Q mutation, respectively, for b 50 base and c 72 base targets the denaturation behavior of nanoparticle aggregates formed using target strands of 27 and 24 base length, the former lacking the CTT deletion mutation and the latter bearing the mutation, respectively.
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ABCC7 p.Arg75Gln 15744517:141:234
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144 This method was also applied to SNP mutation detection using the R74W and R75Q oligonucleotide sequences and aggregate hybridization conditions previously described for solution-based mutation detection experiments.
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ABCC7 p.Arg75Gln 15744517:144:74
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145 Denaturation behavior of hybridized nanoparticle aggregates was monitored for complexes formed using either of four target strand sequence types-mutation-free, R74W-bearing, R75Q-bearing and a sequence bearing both mutations.
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ABCC7 p.Arg75Gln 15744517:145:174
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151 Concerning the melting behavior of the aggregates formed using SNP-bearing target strands, it is observed that dissociation of the R74W-bearing complex (third row, 42 °C) may be clearly distinguished from that of the R75Q-bearing complex (fourth row, 33.5 °C) and that melting of the complex formed using the target sequence bearing both mutations may also be very clearly identified at the lowest melting temperature (fifth row, 28.5 °C).
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ABCC7 p.Arg75Gln 15744517:151:222
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157 Using this approach, fully complementary sequences were successfully distinguished from mismatched sequences, with single base mismatch resolution, for DF 508, M470V, R74W and R75Q mutations.
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ABCC7 p.Arg75Gln 15744517:157:176
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PMID: 15784035 [PubMed] Gallegos-Orozco JF et al: "Lack of association of common cystic fibrosis transmembrane conductance regulator gene mutations with primary sclerosing cholangitis."
No. Sentence Comment
106 of Classic CF Nonclassic CFTR Mutations Reference PSC Patients Mutations CF Mutations IVS8-5T of Unknown Effect McGill (1996) (21) 19 1 (G551D) 1 (R117H) NA NA Girodon (2002)(19) 29 0 3 (L997F, S1235R, D1270N) 2 1 (N782K) Sheth (2003)* (18) 19 0 3 (2752-26A→G, 3849 + 10kbC→T, I1139V) 1 3 (S686Y, I1366F, R75Q) Gallegos-Orozco (2004) 59 1 ( F508) 0 2 NA Total, no.
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ABCC7 p.Arg75Gln 15784035:106:319
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109 third (R75Q) of questionable effect, and a fourth (IVS8-5T) that occurred at the same frequency as in the general population.
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ABCC7 p.Arg75Gln 15784035:109:7
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PMID: 15987793 [PubMed] Weiss FU et al: "Complete cystic fibrosis transmembrane conductance regulator gene sequencing in patients with idiopathic chronic pancreatitis and controls."
No. Sentence Comment
237 In the group of ICP patients being heterozygous for a single CFTR mutation one severe (2184insA, this insertion causes a frame shift) and eight mild/uncommon mutations (26 S1235R, R31C, R75Q, R347P, G576A, M348V, and V754M) were identified.
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ABCC7 p.Arg75Gln 15987793:237:186
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256 The reason why numbers for compound heterozygous ICP patients in these studies are diverse (4/67 = 6% in our study) may be due to differences Table 1 CFTR and SPINK1 sequence variations identified in 30 of the 67 ICP patients PatientSex CFTR mutation T allele TG repeats PSTI mutation 1 M DF508/R117H 7/7 9/10 -/- 2 W DF508/A1087P 7/9 10/11 -/- 3 M DF508/D1152H 7/9 10/10 -/- 4 M S1235R/R668C 7/7 11/12 -/- 5 M 2184insA/- 7/7 10/12 -/- 6 M R31C/- 7/7 10/11 -/- 7 M R75Q/- 7/7 11/11 -/- 8 M R347P/- 7/7 11/12 -/- 9 M S1235R/- 7/7 11/12 -/- 10 W S1235R/- 7/7 11/12 -/- 11 M G576A/- 7/7 10/10 -/- 12 W M348V/- 7/9 10/10 -/- 13 M V754M/- 7/7 10/11 -/- 14 M -/- 5/7 11/12 -/- 15 W -/- 5/7 11/12 -/- 16 M -/- 5/7 11/12 -/- 17 W -/- 5/9 11/12 -/- 18 M -/- 5/7 11/12 -/- 19 M -/- 5/7 10/10 -/- 20 W -/- 5/7 10/10 -/- 21 W -/- 5/7 11/12 N34S/- 22 W -/- 7/7 10/11 N34S/- 23 M -/- 7/9 10/11 N34S/- 24 M -/- 7/7 11/11 N34S/- 25 M -/- 7/7 11/11 N34S/- 26 W -/- 7/7 11/11 N34S/- 27 M -/- 7/7 11/11 N34S/- 28 W -/- 7/7 10/11 N34S/- 29 W -/- 7/7 11/11 P55S/- 30 W -/- 7/7 11/11 IVS3+2TC/- Table 2 CFTR sequence variations identified in 11 of 60 healthy controls Control group Number DF508/- 3 R117H/- 2 I148T/- 1 L997F/- 1 5T/12TG 1 5T/11TG 3 in patient recruitment, the catchment populations, or the stringency with which cystic fibrosis patients were excluded.
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ABCC7 p.Arg75Gln 15987793:256:465
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PMID: 16088537 [PubMed] Luisetti M et al: "Genetics of idiopathic disseminated bronchiectasis."
No. Sentence Comment
42 Greek M/F 11/12 5/16 na Mean age (yrs) 53 Ϯ 15 53 Ϯ 14 na CFTR gene 1 G576A-R668C/L997F 1 ⌬F508/D192N 1 ⌬F508,I1027T mutation 1 ⌬F508/L997F 1 ⌬I507/3849 + 10kb C → T 1 D565G, R668C 1 ⌬F508/- 1 ⌬F508/3849 + 10kb C → T 1 T896I/- 1 R1066C/- 1 H949Y/T1220I 1 I148T/- 1 3667ins4/- 1 ⌬F508/- 1 ⌬F508/S977F 1 R75Q/- 1 2183AA→G 1 M1137V/- 1 L997F/- IVS8-5T 5 5/7 1 5/9 1 5/5 CFTR, cystic fibrosis transmembrane conductance regulator; na, not available.
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ABCC7 p.Arg75Gln 16088537:42:384
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PMID: 16193325 [PubMed] Bishop MD et al: "The cystic fibrosis transmembrane conductance regulator gene and ion channel function in patients with idiopathic pancreatitis."
No. Sentence Comment
80 Of the 50 random blood donors, none carried two mutations and 11 (22%) had mutations, with an allelic frequency of 11%, as follows: R117H in one blood donor, 1716A fi G in two, R75Q in two, and S1235R in one.
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ABCC7 p.Arg75Gln 16193325:80:177
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85 Sex Type of pancreatitis Age, years CFTR genotype TG repeata Sweat chloride, mmol/lb NTPD DClÀ free+ Iso, mVc Normal Borderline Abnormal Normal Abnormal 1 F Chronic 19 F508deld /L206W 63 Not done 2 M Acute 16 F508deld /R117H(7T)d 10 60 5.0 3 F Chronic 43 F508deld /L967S 46 À2.5 4 F Acute 16 W1282Xd /5T 12 38 1.0 5 F Acute 10 F508deld /D1152H 33 17.0 6 F Chronic 19 5T/5T 11/11 6 15.0 7 F Chronic 33 F508deld /À 69 7.4 8 M Chronic 25 F508deld /À 54 7.0 9 M Chronic 15 F508deld /À 33 14.0 10 F Chronic 33 F508deld /À 26 7.0 11 M Chronic 12 F508deld /À 24 6.0 12 M Chronic 21 2183AA fi G/À 124 Not done 13 F Acute 19 5T/À 11 71 11.0 14 M Chronic 71 5T/À 11 39 19.0 15 F Chronic 38 5T/À 11 20 30.0 16 F Chronic 21 5T/À 11 18 Not done 17 F Chronic 17 5T/À 11 17 Not done 18 F Chronic 26 5T/À No DNA 12 38.0 19 F Chronic 45 5T/À 11 5 34.0 20 F Chronic 40 R75Q/À 32 16.0 21 F Chronic 11 S1235R/À 31 46.0 22 F Acute 1 R170H/À 19 Not done 23 F Acute 14 1716G fi A/À 14 26.0 24 F Chronic 23 1716G fi A/À 12 12.0 25 M Acute 8 À/À 51 15.0 26 M Chronic 67 À/À 46 11.0 27 M Acute 13 À/À 44 36.0 28 F Acute 28 À/À 35 3.0 29 F Chronic 21 À/À 22 6.0 TG12.
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ABCC7 p.Arg75Gln 16193325:85:926
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PMID: 16251901 [PubMed] Pompei F et al: "Haplotype block structure study of the CFTR gene. Most variants are associated with the M470 allele in several European populations."
No. Sentence Comment
30 The T2A rate was much lower than 1 Frequencies of the CFTR variants within the M or the V alleles exon or intron VARIANT SITES in the M genes (MM subjects) in the V genes (VV subjects) A 5' UTR 125 g/c 8/144 (0.056) 3/356 (0.008) -80 1 2 R31C 5/226 (0.004) 1/576 (0.002) -56 in M genes in V genes 6 2 R75Q 1/226 (0.004) 15/576 (0.026) -51 M V (ttga)n 0.461 0.017 7 3 G85E 0/226 (0) 1/576 (0.002) -51 2.214 0.362 (tg)n 0.616 0.114 B i 3 406-6 t/c 0/226 (0) 6/576 (0.010) -29 (t)n 0.499 0.036 8 4 R117H 2/226 (0.009) 0/576 (0) -29 10 4 I148T 3/224 (0.013) 0/576 (0) -29 C i 4 621+3 a/g 1/224 (0.004) 0/576 (0) -29 12 5 R170H 1/158 (0.006) 0/402 (0) -26 D i 6a 875+40 a/g 6/36 (0.167)c 0/118 (0)c -25 i 6b (ttga)6 13/36 (0.361) 1/118 (0.008) -23 E i 6b 1001+11 c/t 5/60 (0.083) 0/166 (0) -23 F i 8 1341+28 c/t 1/152 (0.007) 0/464 (0) -18 i 8 (tg)10 39/76 (0.513) 5/218 (0.023) -11 i 8 (tg)11 21/76 (0.276) 205/218 (0.940) -11 i 8 (tg)12 16/76 (0.211) 8/218 (0.037) -11 i 8 t5 4/76 (0.053) 2/218 (0.009) -11 i 8 t7 48/76 (0.632) 214/218 (0.982) -11 i 8 t9 24/76 (0.316) 2/218 (0.009) -11 16 10 M470V H ex 10 F508del 3/226 (0.013) 0/572 (0) 0 19 10 F508C 0/226 (0) 1/572 (0.002) 0 20 10 1716g/a 15/226 (0.066) 0/572 (0) 0 21 11 G542X 1/158 (0.006) 0/400 (0) +28 24 12 V562I 1/226 (0.004) 0/576 (0) +30 25 12 V562L 1/226 (0.004) 0/576 (0) +30 26 12 G576A 3/226 (0.013) 0/576 (0) +30 28 13 2082c/t 1/104 (0.010) 0/226 (0) +32 29 13 R668C 3/224 (0.013) 0/562 (0) +32 32 14a 2694t/g 45/70 (0.643) 9/208 (0.043) +35 I i 14a 2752-15 c/g 0/226 (0) 5/576 (0.009) +44 37 15 3030g/a 1/158 (0.006) 7/402 (0.017) +44 O i 15 3041-71 g/c 5/226 (0.022) 0/576 (0) +47 39 17a L997F 1/226 (0.004) 4/576 (0.007) +51 40 17a A1009T 0/226 (0) 1/572 (0.002) +51 42 17b F1052V 1/226 (0.004) 0/572 (0) +52 43 17b G1069R 1/226 (0.004) 0/572 (0) +52 44 17b Q1071H 1/226 (0.004) 0/572 (0) +52 45 17b 3417a/t 0/226 (0) 4/572 (0.007) +52 46 17b L1096R 1/226 (0.004) 0/572 (0) +52 52 19 3813a/g 0/118 (0) 1/484 (0.002) +68 53 19 S1235R 3/100 (0.030) 0/294 (0) +68 54 20 4002a/g 5/56 (0.089) 1/168 (0.006) +83 q in the M alleles q in the V alleles 56 21 4029a/g 0/194 (0) 3/506 (0.006) +93 57 21 N1303K 1/92 (0.011) 0/272 (0) +93 59 24 4404c/t 3/226 (0.013) 14/576 (0.024) +107 60 24 4521g/a 21/56 (0.375) 2/172 (0.012) +107 "slow evolution" markers "fast evolution" markers (i.e. STRs) H is the sum of the degrees of heterozygosity of all the markers Ref.No.a ABSOLUTE AND RELATIVE FREQUENCIES distance from the M470V siteb (Kb) H associated with the….
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ABCC7 p.Arg75Gln 16251901:30:303
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PMID: 16617455 [PubMed] Courtney JM et al: "Association of improved pulmonary phenotype in Irish cystic fibrosis patients with a 3' enhancer polymorphism in alpha-1-antitrypsin."
No. Sentence Comment
80 T 1.2% 1.7% 1.4% Nonmild R560T 1.5% 1.3% 1.4% Nonmild G542X 0.7% 1.7% 1.1% Nonmild E60X 0.5% 0.9% 0.6% Mild R553X 0.0% 1.3% 0.5% Nonmild N103K 0.7% 0.0% 0.5% Nonmild 9DELTT 0.0% 0.9% 0.3% Mild 3849 þ 10 kb C > T 0.0% 0.9% 0.3% Mild R75Q 0.0% 0.9% 0.3% Mild 1717 þ 1 G > A/À 0.5% 0.0% 0.3% Mild D1507 0.5% 0.0% 0.3% Mild Minor alleles 9.5% 27.4% 15.9% Mild 1 Alleles listed individually occur at a frequency of !0.5% in either population.
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ABCC7 p.Arg75Gln 16617455:80:237
status: NEW
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PMID: 16840743 [PubMed] Wilschanski M et al: "Mutations in the cystic fibrosis transmembrane regulator gene and in vivo transepithelial potentials."
No. Sentence Comment
54 CFTR GENE MUTATIONS IN THE PATIENT GROUPS Control Subjects (n ϭ 31) Heterozygotes (n ϭ 21) CBAVD-1 (n ϭ 18) CBAVD-2 (n ϭ 36) CF-PS (n ϭ 24) CF-PI (n ϭ 26) G542X*/R75Q ⌬F508*/- (n ϭ 16) ⌬F508* (n ϭ 6) ⌬F508*/2789ϩ5G→A* ⌬F508*/R117H [5T]* (n ϭ 4) ⌬F508*/⌬F508* (n ϭ 11) ⌬F508* ⌬F508*/5T W1282X*/5T (n ϭ 8) R334W*/R334W* ⌬F508*/A455E* (n ϭ 2) ⌬F508*/G542X* (n ϭ 2) G542X* W1282X*/- (n ϭ 2) D1152H† ⌬F508*/R117H [7T] (n ϭ 10) ⌬F508*/3849ϩ10kbC→T* (n ϭ 2) ⌬F508*/G551D* (n ϭ 2) R117H[7T] G85E† /R75Q L206W† ⌬F508*/R117C [7T] G551D*/3849ϩ10kbC→T* ⌬F508*/621ϩ1G→T* (n ϭ 2) S431G R75Q/- A198P G551D*/R117H [7T] ⌬F508*/3272-26A→G† (n ϭ 2) ⌬F508*/2789ϩ5 G→A* 5T ⌬F508*/5T (n ϭ 8) ⌬F508*/P574H† (n ϭ 2) ⌬F508*/W1282X* G542X*/5T ⌬F508*/I1234V† ⌬F508*/G85E* W1282X*/5T ⌬F508*/P67L† ⌬F508*/L1077P† (n ϭ 2) ⌬F508*/P67L† ⌬F508*/R347H† G551D*/G480C† ⌬F508*/L206W† ⌬F508*/5T ⌬F508*/- (n ϭ 2) ⌬F508*/M952T† ⌬F508*/875ϩ1G→C† -/- ⌬F508*/S549R† G551D*/R75Q A455E*/L206W† ⌬F508*/- (n ϭ 2) 621ϩG→T*/R117C [7T] A455E*/- R117H [7T]/5T ⌬I507*/- R117L[7T]/5T -/- R117H/R117H [7T/7T] D979A/5T 5T/-741T→G 4016insT† /D110H Definition of abbreviations: CBAVD ϭ congenital bilateral absence of the vas deferens; CF-PI ϭ pancreatic-insufficient cystic fibrosis; CF-PS ϭ pancreatic-sufficient cystic fibrosis.
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ABCC7 p.Arg75Gln 16840743:54:198
status: NEW
X
ABCC7 p.Arg75Gln 16840743:54:723
status: NEW
X
ABCC7 p.Arg75Gln 16840743:54:858
status: NEW
X
ABCC7 p.Arg75Gln 16840743:54:1482
status: NEW
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58 The clinical significance of one of his mutations (R75Q) remains uncertain.
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ABCC7 p.Arg75Gln 16840743:58:51
status: NEW
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PMID: 17020467 [PubMed] Giannattasio S et al: "Molecular basis of cystic fibrosis in Lithuania: incomplete CFTR mutation detection by PCR-based screening protocols."
No. Sentence Comment
52 Among these, R75Q is actually a variant of uncertain significance.
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ABCC7 p.Arg75Gln 17020467:52:13
status: NEW
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53 Although its effect on CFTR protein structure and function has not yet been investigated, recent evidence suggests that, even if it has been found to occur with a similar frequency in random healthy control donors as well as in affected subjects (Cohn et al. 2005), R75Q might be reclassified as an uncommon mutation causing a variable phenotype.
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ABCC7 p.Arg75Gln 17020467:53:266
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55 Thus, it cannot be excluded that the R75Q mutation may contribute, in cooperation with other CFTR gene defects, to the CF phenotype.
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ABCC7 p.Arg75Gln 17020467:55:37
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60 CFTR GENOTYPE CHARACTERIZED IN 32 NON-p.F508del HOMOZYGOTE LITHUANIAN CF PATIENTS Patient CFTR mutationa (TG)ma Tna M470V 1 F508del/R553X 10/10 9/7 MM 2 F508del/R553X 10/12 9/7 VV 3 F508del/R553X 10/10 9/7 VV 4 F508del/R553X 10/10 9/7 VV 5 F508del/3944delGT 10/11 9/7 VV 6 F508del/W1282X 10/10 9/7 VV 7 F508del/G314R 10/12 9/7 MV 8 F508del/N1303K 10/11 9/7 MV 9 F508del/CFTRdele2,3(21kb) 10/11 9/7 MV 10 F508del/CFTRdele2,3(21kb) 10/11 9/7 MV 11 F508del/- 10/10 9/7 VV 12 F508del/- 10/11 9/7 MV 13 F508del/- 10/10 9/7 VV 14 F508del/- 10/10 9/9 VV 15 F508del/- 10/10 7/7 MV 16 F508del/- 10/11 9/7 MV 17 F508del/- 10/10 9/7 VV 18 N1303K/- 10/10 7/7 MM 19 R75Q/- 10/11 7/7 MV 20 -/- 11/11 7/7 VV 21 -/- 10/12 7/7 MM 22 -/- 11/11 9/7 MV 23 -/- 11/11 7/7 MV 24 -/- 10/10 7/7 MV 25 -/- 10/12 9/7 MV 26 -/- 10/11 7/7 MM 27 -/- 11/11 9/7 VV 28 -/- 12/12 7/7 MV 29 -/- 11/11 9/9 MM 30 -/- 10/11 9/9 MV 31 -/- 11/11 5/7 MV 32 -/- 10/11 9/9 MM aFor each patient, (TG)m and Tn alleles are indicated in phase with each other but not with CFTR mutations identified.
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ABCC7 p.Arg75Gln 17020467:60:653
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3 Seven CFTR mutations, p.N1303K (2.0%), p.R75Q (1.0%), p.G314R (1.0%), p.R553X (4.2%), p.W1282X (1.0%), and g.3944delGT (1.0%), accounted for 10.1% of Lithuanian CF chromosomes.
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ABCC7 p.Arg75Gln 17020467:3:41
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32 The following CFTR mutations were found: p.N1303K (2.0%), p.R75Q (1.0%), p.G314R (1.0%), p.R553X (4.2%), p.W1282X (1.0%), and g.3944delGT (1.0%).
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ABCC7 p.Arg75Gln 17020467:32:60
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33 All of these mutations were found in compound heterozygosity with p.F508del, except in the case of one p.N1303K and the p.R75Q alleles, whose associated mutant alleles were not identified through DGGE analysis (Table 2).
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ABCC7 p.Arg75Gln 17020467:33:122
status: NEW
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46 CFTR GENE MUTATIONS IDENTIFIED BY PCR SCREENING METHODS IN 98 UNRELATED LITHUANIAN CF CHROMOSOMES Number of chromosomes CFTR allele (relative frequency) p.F508del 51 (52.0%) p.R553X 4 (4.2%) p.N1303K 2 (2.0%) CFTRdele2,3(21kb)a 2 (2.0%) p.R75Q 1 (1.0%) p.G314R 1 (1.0%) p.W1282X 1 (1.0%) g.3944delGT 1 (1.0%) Uncharacterized 35 (35.8%) Total 98 (100%) aDork et al. 2000.
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ABCC7 p.Arg75Gln 17020467:46:239
status: NEW
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PMID: 17035430 [PubMed] Ziedalski TM et al: "Prospective analysis of cystic fibrosis transmembrane regulator mutations in adults with bronchiectasis or pulmonary nontuberculous mycobacterial infection."
No. Sentence Comment
10 The frequency of CFTR mutations was elevated above that expected in the general population: heterozygous ⌬F508 (12% vs 3%), R75Q (14% vs 1%), and intron 8 5T (17% vs 5 to 10%).
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ABCC7 p.Arg75Gln 17035430:10:131
status: NEW
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79 Other identified mutations included R75Q, G542X, V4566A, D1152H, F650L, I1027T, W1282X, and the intron 8 polymorphism IVS 8 5T.
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ABCC7 p.Arg75Gln 17035430:79:36
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81 Only two subjects had a known pathologic CFTR mutation (patient 15, R75Q; patient 18, IVS8 5T).
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ABCC7 p.Arg75Gln 17035430:81:68
status: NEW
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85 R75Q was the most prevalent mutation (n ϭ 5), followed by the IVS 8 5T polymorphism (n ϭ 5) and ⌬F508 (n ϭ 2).
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ABCC7 p.Arg75Gln 17035430:85:0
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89 Of interest, the R75Q mutation was detected in seven subjects (frequency, 14%), while ⌬F508 mutations were found in six subjects (frequency, 12%).
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ABCC7 p.Arg75Gln 17035430:89:17
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94 Comparison of pulmonary function test data did not demonstrate significant differences between the Table 1-Subjects With Diagnosis of CF* Patient No. Age, yr Sex Bronch NTM† Other Infection‡ CFTR Mutations M470V Alleles IVS8 PolyT§ Sweat Chloride Level, mEq/dL 1 63 F Y MAC, Mch ⌬F508, I1027T 1 7T/9T 41 2 58 F Y MAC 2 7T/7T 65 3 66 F Y MAC, Mka PA 1 7T/7T 70 4 62 F Y MAC R75Q 2 5T/7T 67 5 53 F Y MAC G542X 0 5T/7T 60 6 74 F Y MAC SA ⌬F508, D1152H 1 9T/9T 46 7 33 F Y N PA ⌬F508, V456A 1 9T/9T 74 8 49 M Y N 1 7T/7T 77 9 73 F Y N S malto W1282X 1 7T/7T 63 10 52 F N Msi 2 2 7T/7T 68 *Bronch ϭ bronchiectasis (Bronch); F ϭ female; M ϭ male; Y ϭ yes; N ϭ no.
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ABCC7 p.Arg75Gln 17035430:94:399
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99 Table 2-Subjects With Indeterminate Sweat Chloride Concentrations (40 to 60 mEq/dL)* Patient No. Age, yr Sex Bronch NTM† Other Infection CFTR Mutations M470V Alleles IVS8 PolyT Sweat Chloride Level, mEq/dL 11 60 F Y Mch, Mgo 2 7T/7T 40 12 68 F Y MAC 1 7T/7T 41 13 62 F Y MAC, Mch, Mgo 2 7T/7T 46 14 81 F Y MAC 2 7T/7T 49 15 65 F Y MAC R75Q 1 9T/9T 51 16 72 F Y MAC 2 7T/7T 53 17 62 F Y MAC 2 9T/9T 55 18 48 F Y 0 5T/7T 42 *See Table 1 for expansion of abbreviations.
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ABCC7 p.Arg75Gln 17035430:99:342
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107 Third, we have identified added novel CFTR mutations in this adult population, as well as an unusually high prevalence of typically infrequent mutations (eg, R75Q) in this population.
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ABCC7 p.Arg75Gln 17035430:107:158
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113 In contrast to Table 3-Subjects With Normal Sweat Chloride Concentrations (< 40 mEq/dL)* Patient No. Age, yr Sex Bronch NTM† Other Infection‡ CFTR Mutations M470V Alleles IVS8 PolyT Sweat Chloride, mEq/dL 19 40 F Y Mab 1 7T/7T 19 20 41 F Y MAC 1 7T/7T 20 21 74 F Y MAC, Mgo Asp, Noc ⌬F508 1 7T/9T 22 22 28 M Y MAC L183I 1 7T/7T 23 23 49 F Y MAC 1 7T/7T 25 24 58 M Y MAC, Mfo 1 5T/7T 25 25 76 F Y MAC SA A394V 2 5T/9T 26 26 79 F Y MAC 1 7T/7T 27 27 58 F Y MAC R75Q 1 7T/7T 28 28 78 F Y MAC PA 1 7T/9T 31 29 64 F Y MAC 1 5T/9T 31 30 57 F Y MAC, Mxe R75Q 2 7T/7T 34 31 81 F Y MAC, Mmu R668C 1 7T/7T 34 32 82 F Y N PA F650L 1 5T/9T 33 33 69 F Y MAC, Mch, Mab PA ⌬F508 0 7T/9T 35 34 81 F Y MAC C1344S 2 7T/7T 38 35 72 F Y MAC R75Q 2 7T/7T 38 36 55 M Y N ⌬F508 1 7T/7T 21 37 61 F Y N 0 7T/9T 20 38 42 F Y N 1 9T/9T 21 39 50 M Y N PA, SA, Asp 1 5T/7T 22 40 71 M Y N 2 7T/7T 23 41 83 F Y N 2 7T/7T 23 42 46 M Y N 2 7T/7T 25 43 49 F Y N R75Q 2 7T/7T 33 44 48 F Y N PA R75Q 2 9T/9T 35 45 76 F Y N R1162L 1 7T/7T 35 46 67 M Y N A209S 0 9T/9T 36 47 46 F Y N 1 7T/7T 36 48 63 F N MAC 1 9T/9T § 49 60 F N MAC 1 7T/7T 31 50 40 F Y Mab 1 7T/7T 19 *See Tables 1 and 2 for expansion of abbreviations.
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ABCC7 p.Arg75Gln 17035430:113:480
status: NEW
X
ABCC7 p.Arg75Gln 17035430:113:568
status: NEW
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ABCC7 p.Arg75Gln 17035430:113:749
status: NEW
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ABCC7 p.Arg75Gln 17035430:113:963
status: NEW
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ABCC7 p.Arg75Gln 17035430:113:994
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124 The most phenotypically severe CFTR mutation, ⌬F508, was present in 12% of subjects in this study, compared to the general frequency of 3% in the white population in the United States.39,40 The R75Q mutation frequency was 14% in this study, compared to the general frequency of 1% in Northern Europeans.41 The intron 8 5T polymorphism was present in 17% of subjects in this study, compared to 5 to 10% in the general population.42,43 CFTR mutations identified in this study, including ⌬F508, R75Q, R117H, S1235R, D1152, L183I, and IVS8 5T, have been associated with mild symptoms of CF41,44-46 or with atypical manifestations of CF, such as isolated bronchiectasis14-17,19,20,22,23,25-27 and CBAVD.42,43,47 This study also reports three novel CFTR mutations, each in a separate patient with normal sweat chloride level: A394V, C1344S, and F650L.
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ABCC7 p.Arg75Gln 17035430:124:201
status: NEW
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ABCC7 p.Arg75Gln 17035430:124:506
status: NEW
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PMID: 17329263 [PubMed] Ratbi I et al: "Detection of cystic fibrosis transmembrane conductance regulator (CFTR) gene rearrangements enriches the mutation spectrum in congenital bilateral absence of the vas deferens and impacts on genetic counselling."
No. Sentence Comment
49 Apart from the IVS8(T)5 variant, sequence variations which are reported as neutral because of segregation analysis in CF families or their frequency in the general population (Bombieri et al., 2000) (such as 356G.A (R75Q), 1540A.G (M470V) or 1716G.A) were not considered as disease-causing when found in isolation.
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ABCC7 p.Arg75Gln 17329263:49:216
status: NEW
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PMID: 17400678 [PubMed] Keen C et al: "Airway nitric oxide in patients with cystic fibrosis is associated with pancreatic function, Pseudomonas infection, and polyunsaturated fatty acids."
No. Sentence Comment
30 Patients in group 3 were heterozygous for mutations dF508 and V603F, R560T, or 621 ϩ 1G-T; group 4 patients were heterozygous for mutations dF508, 3659del C, or 394delTT and a mutation linked to a "mild" phenotype (eg, N1088D, R117C, R117H, R75Q, R658X, S945L, 1154insTC, or T338I).
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ABCC7 p.Arg75Gln 17400678:30:247
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PMID: 17489851 [PubMed] Tzetis M et al: "Contribution of the CFTR gene, the pancreatic secretory trypsin inhibitor gene (SPINK1) and the cationic trypsinogen gene (PRSS1) to the etiology of recurrent pancreatitis."
No. Sentence Comment
63 Nine patients (36%) were compound heterozygotes for two CFTR mutations, both mild (class IV or V): p.I148T/p.R75Q, c.278915G.A/p.R75Q or mild and severe: three with p.F508del/p.R334W and four withc.444delA/p.R334W,p.E822X/c.278915G.A, p.E822X/p.R347H and p.F508del/c.3272226A.G, each.
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ABCC7 p.Arg75Gln 17489851:63:109
status: NEW
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ABCC7 p.Arg75Gln 17489851:63:129
status: NEW
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83 This could especially apply for p.R334W, p.R347H, p.R1070Q, p.R75Q and c.278915G.A, for which the difference in mutation frequency between patients and classic CF cohort, reached statistical significance (Table 2).
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ABCC7 p.Arg75Gln 17489851:83:62
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90 Mutations and variants in the CFTR gene CFTR mutation/variant Patients with pancreatitis, n ¼ 25 (%) Controlsa , n ¼ 211 (%) Classic patients with CF, n ¼ 426 (%) p vs controls p vs patients with CF p.F508del 5 (10) 2 (0.47) 465 (54.6) ,0.0001 ,0.0001 p.R334W 4 (8) - 7 (8.2) 0.00011 0.0019 c.444delA 1 (2) - 1 (0.1) c.278915G.A 2 (4) - 11 (1.3) 0.011 CFTRdel2,3 (21 kb) 1 (2) - 2 (0.2) c.E822X 2 (4) - 12 (1.5) 0.011 p.R347H 1 (2) - - 0.055 p.R1070Q 3 (6) 1 (0.24) 7 (0.8) 0.004 0.013 p.G576A 1 (2) - 1 (0.1) p.F1052V 1 (2) 4 (0.95) 1 (0.1) p.I148T 1 (2) - 1 (0.1) c.3272226A.G 1 (2) - 7 (0.82) p.R75Q 2 (4) 4 (0.95) 1 (0.1) 0.0086 c.2752215G/C 1 (2) 4 (1) 5 (0.6) TG11T7 26 (52) 286 (67.7) ND TG11T5 2 (4) 5 (1.18) ND TG10T7 8 (16) 79 (18.7) ND TG10T9 8 (16) 14 (3.3) ND 0.0005 TG12T7 2 (4) 8 (1.9) ND M470 6 (12) 48 (11.4) ND V470 8 (16) 166 (39.3) ND 0.008 CF, cystic fibrosis; ND, not determined.
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ABCC7 p.Arg75Gln 17489851:90:613
status: NEW
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PMID: 17719933 [PubMed] Pall H et al: "Primary sclerosing cholangitis in childhood is associated with abnormalities in cystic fibrosis-mediated chloride channel function."
No. Sentence Comment
65 The R75Q variant was common in both groups of subjects and is currently not listed as a CF causing mutation, although its contribution to CF-like phenotypes cannot be excluded.
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ABCC7 p.Arg75Gln 17719933:65:4
status: NEW
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70 The data indicate the following frequencies: IVS8T5, 3% to 5%, depending on population; R75Q, 3% to 6%, depending on population; 1716G ¡ A, 1% to 2% (personal communication from Julian Zielenski, Hospital for Sick Children, Toronto, Canada).
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ABCC7 p.Arg75Gln 17719933:70:88
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90 Mutations/Variants Polymorphism 1540 locus T Tract Sweat chloride (mmol/L) ⌬Cl ؉ Iso (mV)* PSC 1 GG 7/7 20.2 -1.2 2 GG 7/7 19.7 -17.3 3 R75Q AA 7/7 14.8 -3.9 4 4521G/A(8T/9T) AA 7/7 19.4 -13.3 5 2694T/G AG 7/7 NP NP 6 GG 7/7 5.1 -12.5 7 NP 5.8 -17.8 8 AA 7/7 9.9 -12.8 9 E725K AG 7/7 56.3 -5.1 10 R75Q AA 7/7 30.3 -5.5 11 4006 - 200G/A, 1233A/T AA 7/9 32.1 -29 12 2694T/G AG 7/7 8.7 -2.4 13 4521G/A, 4700T8/9 AG 7/7 4.8 -3.8 14 1525 - 61A/G AG 7/9 45.3 -2.2 15 3030G/A GG 7/7 18.6 -0.45 16 AA 7/7 7.6 -4.5 17 R75Q AG 7/9 21.6 -1.8 18 1001 ϩ 11C/T AG 7/9 45 1.2 19 AA 7/7 11 -11.5 20 1716G ¡ A AG 7/7 18.9 -20.1 IBD 21 1001 ϩ 11C/T AG 7/9 8.9 -13 22 S1235R/2752 - 26A ¡ G 185 ϩ 324C/T AG 7/7 15 -15 23 AG 7/7 17.8 -20 24 IVS8T5 AA 5/7 4.8 -10.4 25 875 ϩ 40A/G, 125G/C GG 7/7 10.8 -30 26 AG 7/7 22.9 -10.5 27 IVS8T5 AG 5/7 15.1 NP 28 AG 7/7 20.1 -8 29 R75Q GG 7/7 10.1 -17 30 AA 7/7 14 NP 31 Q1352H 4521A(hom), 4700T8/8 AG 7/7 3.5 -35 32 AA 7/7 11.8 -8 33 125G/C AG 7/7 9.4 -33 34 R75Q/IVS8T5 1898 ϩ 152T/A AG 5/7 4 -14 Subjects with IBD were disease control subjects.
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ABCC7 p.Arg75Gln 17719933:90:149
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ABCC7 p.Arg75Gln 17719933:90:310
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ABCC7 p.Arg75Gln 17719933:90:522
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ABCC7 p.Arg75Gln 17719933:90:897
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ABCC7 p.Arg75Gln 17719933:90:1026
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PMID: 17890437 [PubMed] Montgomery J et al: "Scanning the cystic fibrosis transmembrane conductance regulator gene using high-resolution DNA melting analysis."
No. Sentence Comment
98 Allele fraction (%) 1 125GϾC 3.8 3 356GϾA R75Q 3.5 4 605GϾC S158T Ͻ0.4b,c 6b 1001 ϩ 11CϾT 13.1 10 1540AϾG M470V 30.0d 1716GϾA 1.5 12 1859GϾC G576A 1.5 13 2134CϾT R668C 1.5 14a 2694TϾG 26.2 14b 2752 - 6TϾC 0.4 15 3032TϾC L967S 0.8 17b 3417AϾT T109S 1.5 19 3601 - 17TϾC 0.4 20 3891GϾA Ͻ0.4b,c 4002AϾG 1.5 21 4029AϾG 0.4 23 4294CϾG L1388V 0.4b 4316GϾA C1395Y 0.4b 4374 ϩ 13AϾG 0.4 24 4404CϾT 0.8 4521GϾA 20.8 a All variants were identified by scanning random panels and confirmed by sequencing.
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ABCC7 p.Arg75Gln 17890437:98:54
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PMID: 18306312 [PubMed] Gene GG et al: "N-terminal CFTR missense variants severely affect the behavior of the CFTR chloride channel."
No. Sentence Comment
116 Moreover, some nascent/immature CFTR protein present in the ER and A B 501 E92K Y89C G85E/V P5L S50P E60K R75Q NBD1 NBD2 R FIGURE 1.
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ABCC7 p.Arg75Gln 18306312:116:106
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156 Confocal images from representative xy sections taken from1of 3 independent experiments show the subcellular distribution of wild-type CFTR (WT), p.F508del mutant (F508del), and variants p.S50P (S50P), p.E60K (E60K), p.G85E (G85E), p.G85V (G85V), p.E92K (E92K), p.P5L (P5L), p.R75Q (R75Q), and p.Y89C (Y89C).
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ABCC7 p.Arg75Gln 18306312:156:277
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ABCC7 p.Arg75Gln 18306312:156:283
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182 C:Whole-cell currents evoked by variants p. R75Q (R75Q), p.P5L (P5L), and p.Y89C (Y89C).Wild-type CFTR current (WT) is also shown for comparison. Forskolin was applied for 90s.
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ABCC7 p.Arg75Gln 18306312:182:44
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ABCC7 p.Arg75Gln 18306312:182:50
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184 Current densities of wild-type CFTR (WT), p.R75Q (R75Q) and p.P5L (P5L) variants depended on the posttransfection time.
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ABCC7 p.Arg75Gln 18306312:184:44
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ABCC7 p.Arg75Gln 18306312:184:50
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200 Representative single-channel recordings of wild-type CFTR, and variants p. R75Q and p.P5L.
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ABCC7 p.Arg75Gln 18306312:200:76
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201 A: Single channel records showing the behavior of wild-type CFTR (WT), p.R75Q (R75Q), and p.P5L (P5L) variants over a prolonged period.
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ABCC7 p.Arg75Gln 18306312:201:73
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ABCC7 p.Arg75Gln 18306312:201:79
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3 By site-directed mutagenesis, we generated four CFTR variants in the N-terminal cytoplasmic tail (p.P5L, p.S50P, p.E60K, and p.R75Q) and four in the first transmembrane segment of membrane-spanning domain 1 (p.G85E/V, p.Y89C, and p.E92K).
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ABCC7 p.Arg75Gln 18306312:3:127
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6 In contrast, both p.R75Q and p.Y89C had a glycosylation pattern and a subcellular distribution comparable to the wild-type CFTR, while the percentage of mature p.P5L was considerably reduced, suggesting a major biogenesis flaw on this channel.
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ABCC7 p.Arg75Gln 18306312:6:20
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8 Single-channel patch-clamp analyses revealed that the channel activity of p.R75Q appeared similar to that of the wild-type CFTR, while both p.P5L and p.Y89C channels displayed abnormal gating.
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ABCC7 p.Arg75Gln 18306312:8:76
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9 Overall, our results predict a major impact of the CFTR missense variants analyzed, except p.R75Q, on the CF phenotype and highlight the importance of the CFTR N-terminus on channel physiology.
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ABCC7 p.Arg75Gln 18306312:9:93
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40 The eight CFTR variants included in this study: p.P5L, p.S50P, p.E60 K, p.R75Q, p.G85E, p.G85V, p.Y89C, and p.E92K (Fig. 1A) were generated by oligonucleotide-directed mutagenesis in pCMVCFTRNot6.2wt using the QuickChangeTM XL-Site-Directed Mutagenesis Kit (Stratagene, La Jolla, CA) according to the manufacturer`s instructions (see Supplementary Table S1 for a detailed description of the mutagenesis primers employed; available online at http://www.interscience.wiley.com/jpages/1059-7794/supp mat).
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ABCC7 p.Arg75Gln 18306312:40:74
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76 The average capacitances of HEK 293 cells transfected with wild-type CFTR and each of the three active channel variants were: wild-type CFTR (1671 pF; n 5 24); p.R75Q (2473 pF; n 5 18); p.Y89C (2072 pF; n 5 6); and p.P5L (2173 pF; n 5 20).
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ABCC7 p.Arg75Gln 18306312:76:162
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102 RESULTS Description and Cross-Species Analysis of Natural N-Terminus CFTR Variants We chose eight naturally occurring sequence variants, four located across the N-terminal CFTR tail (p.P5L, p.S50P, p.E60K, and p.R75Q), and four within the first segment of MSD1 (p.G85E, p.G85V, p.Y89C, and p.E92 K) (Fig. 1A; Table 1).
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ABCC7 p.Arg75Gln 18306312:102:212
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109 Some of the variants such as p.R75Q and p.Y89C, presented a glycosylation status comparable to the wild-type CFTR, suggesting that they might reach the PM.
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ABCC7 p.Arg75Gln 18306312:109:31
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118 B: Alignment of the N-terminus (amino acids 1 to 100) of the CFTR protein derived from di¡erent species.The sequences derived from human (Homo sapiens, Gen- BankNM_000492), mouse (Mus musculus,GenBankNM_021050), Norway rat (Rattusnovergicus,GenBankNM_031506), European rabbit (Oryctolagus cuniculus, GenBank NM_001082716), cow (Bos taurus, GenBank NM_174018), sheep (Ovis aries, GenBank NM_001009781), African clawed frog (Xenopus laevis, GenBank X65256), and spiny dog'sh (Squalus acanthias, GenBank M83785) were aligned using the ClustalW multiple sequence alignment program.The amino acid residue a¡ected by each of the variants analyzed (p.P5L, p.S50P, p.E60K, p.R75Q, p.G85E, p.G85V, p.Y89C, and p.E92K) is indicated in bold.
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ABCC7 p.Arg75Gln 18306312:118:677
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120 Likewise, variants p.R75Q and p.Y89C (Fig. 3) presented a localization pattern similar to that of wild-type CFTR, with most of the protein visualized in the PM (yellow colocalization of the merge images).
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ABCC7 p.Arg75Gln 18306312:120:21
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131 From the variants expressed in the PM (Fig. 3), only p.R75Q and p.Y89C generated cAMP-stimulated currents comparable to that of wild-type CFTR channel (Fig. 4C).
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ABCC7 p.Arg75Gln 18306312:131:55
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133 Genotype^Phenotype Correlation in the N-Terminal CFTR MissenseVariants Under Studyà Missense varianta Phenotype Second allele (number of patients)b p.P5L CF p.F508del (1), p.P205S (1) p.S50P CBAVD p.F508del (1), p.E115del (1) p.E60K CF p.G542X (1), p.I507del (1) p.R75Q HT p.F508del (3), p.E725K (1) B p.R347H (1), p.R75Q (1), n.i. (4) Br c.1584G4A (2), c.1210-7_1210-6delTT (1), n.i.(3) NT p.F508del (1) CP c.1584G4A (1), n.i. (3) MI n.i. (1) CUAVD n.i. (2) OZ n.i. (2) Normal p.R75Q (1), c.2052_2053insA (1), n.i. (1) p.G85E CF p.F508del (8), p.G542X (2), p.I507del (1), c.580-1G4T (1), p.G85E (1), c.1477_ 1478delCA (1) CBAVD p.G576A (1) HT p.L997F (1),WT (1) p.G85V CF p.F508del (2), p.G542X (2), p.Y1092X (1), c.265715G4A (1), p.A1006E, c.1210-7_1210- 6delTT (1), n.i. (1) p.Y89C CF n.i. (1)c p.E92K CF p.F508del (2), p.Q890X (1), p.L206W (1) CBAVD c.1210-7_1210-6delTT (1) ÃThe recommendations for mutation nomenclature (www.hgvs.org/mutnomen/) were used to name CFTR gene sequence variations at both the nucleotide level and the protein level.
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ABCC7 p.Arg75Gln 18306312:133:270
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ABCC7 p.Arg75Gln 18306312:133:322
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ABCC7 p.Arg75Gln 18306312:133:485
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138 The p.S50P variant was only found in CBAVD patients [Casals et al., 2000], whereas the p.R75Q variant was described as a neutral change (CFMDB) and reported later in several CFTR-related disorders such as obstructive azoospermia [Dork et al., 1997], bronchiectasis [Casals et al., 2004b], chronic pancreatitis [Casals et al., 2004a], hypertrypsinemia [Gartner et al., 2003], as well as in the general population [Bombieri et al., 2000].
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ABCC7 p.Arg75Gln 18306312:138:89
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151 Similar values were observed for p.R75Q (98755 pA/pF, n 5 18), and p.Y89C (114754 pA/pF, n 5 6), indicating that these CFTR variants were trafficked to the PM.
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ABCC7 p.Arg75Gln 18306312:151:35
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158 In the £uorescent images from variants p.P5L, p.R75Q, and p.Y89C, the contour plot from a successfully transfected cell, obtained from the corresponding phase contrast image, is shown to aid the identi'cation of the cell boundary.
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ABCC7 p.Arg75Gln 18306312:158:53
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166 Single-Channel Analysis of N-Terminus CFTR Variants Expressed at the Plasma Membrane To further investigate whether variants p.R75Q, and p.Y89C affected the chloride channel function of CFTR and, particularly, to delineate whether the reduced current density of p.P5L could be attributed only to a folding/trafficking defect or also to a channel malfunction, single-channel experiments were carried out.
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ABCC7 p.Arg75Gln 18306312:166:127
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183 D:Tra/cking of p.R75Q and p.P5L variants to the PM.
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ABCC7 p.Arg75Gln 18306312:183:17
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197 As explained above, variants p.R75Q and p.Y89C were also able to reach the PM and supported chloride currents (Fig. 4).
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ABCC7 p.Arg75Gln 18306312:197:31
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198 Single-channel records showed that variant p.R75Q displayed a phenotype similar to wild-type, in terms of NPo (0.3070.07), to (2967116 ms), and chord conductance (8.670.8 pS) (n 5 10) (Fig. 5; Table 2).
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ABCC7 p.Arg75Gln 18306312:198:45
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205 Summary of Single-Channel Analysis From N-Terminal CFTR Variantsy Variant (number of patches) NPo to (ms) G (pS) Wild-type (n 511) 0.3070.05 259754 8.670.6 p.P5L (n 5 7) 0.0970.05Ã 77715Ã 4.870.3Ã p.R75Q (n 510) 0.3070.07 2967116 8.670.8 y Summary of single-channel electrophysiological properties of the N-terminal CFTR variants studied that showed successful tra/cking to the plasma membrane.
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ABCC7 p.Arg75Gln 18306312:205:214
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213 Four of the variants (p.P5L, p.S50P, p.E60 K, and p.R75Q) are localized within the cytosolic N-terminal tail, and the remaining four (p.G85E, p.G85V, p.Y89C, and p.E92K) are embedded in three positions within the first transmembrane segment (TM1) of MSD1.
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ABCC7 p.Arg75Gln 18306312:213:52
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218 Conversely, we have observed that three CFTR missense variants, two (p.P5L and p.R75Q) located in the cytosolic N-terminus and one (p.Y89C) located within the first segment of MSD1, appeared to mature and reach the PM, albeit with different efficiencies.
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ABCC7 p.Arg75Gln 18306312:218:81
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240 For the remaining N-terminus CFTR cytosolic variants showing maturation and PM localization, p.R75Q also affected the charge of the position as a result of amino acid exchange.
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ABCC7 p.Arg75Gln 18306312:240:95
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241 Nevertheless, p.R75Q CFTR both displayed a maturation pattern and subcellular localization analogous to the wild-type CFTR, and did not cause major alterations in intrinsic chloride channel activity.
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ABCC7 p.Arg75Gln 18306312:241:16
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242 Thus, the fact that p.R75Q is located at the hinge between the N-terminal CFTR cytosolic tail and the first segment of MSD1 may involve some degree of structural interdomain flexibility.
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ABCC7 p.Arg75Gln 18306312:242:22
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243 Our data seem to corroborate previous results from genotype-clinical phenotype correlations [Divac et al., 2004; Ravnik-Glavac et al., 2000; Ziedalski et al., 2006], leading to the p.R75Q variant`s consideration as a polymorphism [Nikolic et al., 2006].
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ABCC7 p.Arg75Gln 18306312:243:185
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PMID: 18652532 [PubMed] Stankovic M et al: "The CFTR M470V gene variant as a potential modifier of COPD severity: study of Serbian population."
No. Sentence Comment
2 As it is known that certain CFTR variants have consequences on the function of CFTR protein, the aim of this study was to examine the possible role of F508del, M470V, Tn locus, and R75Q variants in COPD development and modulation.
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ABCC7 p.Arg75Gln 18652532:2:181
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37 The R75Q polymorphism, not as frequent as M470V and 5T variants, was found to be significantly more frequent in patients with atypical CF (Hughes et al., 2001).
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ABCC7 p.Arg75Gln 18652532:37:4
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39 As it is known that certain CFTR variants may have a consequence on function of CFTR protein, the aim of this study was to examine the role of F508del, M470V, Tn locus, and R75Q variants in COPD development and modulation concerning severity and onset of the disease.
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ABCC7 p.Arg75Gln 18652532:39:173
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52 The R75Q polymorphism (356G=A in exon 3) was detected by denaturing gradient gel electrophoresis method, and its presence was confirmed by automated sequencing (ALFexpress 2.0 DNA sequencer; Pharmacia Biotech, Vienna, Austria) (Fanen et al., 1992).
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ABCC7 p.Arg75Gln 18652532:52:4
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66 All genotype distributions were in Hardy-Weinberg equilibrium, with the exception of R75Q polymorphism in COPD group.
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ABCC7 p.Arg75Gln 18652532:66:85
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68 We have observed no association of F508del, M470V, 5T, and R75Q genetic variants with COPD status, while corresponding statistical powers were 0.31, 0.05, 0.10, and 0.18, respectively.
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ABCC7 p.Arg75Gln 18652532:68:59
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79 Association of F508del, 5T, and R75Q variants of CFTR gene with COPD severity was not observed.
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ABCC7 p.Arg75Gln 18652532:79:32
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80 Discussion This study was undertaken to assess the role of F508del mutation and three common CFTR variants, M470V, IVS8-5T, and R75Q, in the etiology of COPD.
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ABCC7 p.Arg75Gln 18652532:80:128
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94 Allelic Frequencies and Genotype Distribution of CFTR Gene Variants in COPD Group and Controls Genotype=allele distribution COPD Controls OR (95%CI)a p-valuea F508del F508del=wtb 5 (5.8) 1 (1.0) 8.00 (0.82-77.98) 0.073 F508 allelec 0.029 0.005 0.10 M470V MM 18 (21.0) 18 (17.6) MV 37 (43.0) 48 (47.1) VV 31 (36.0) 36 (35.3) 0.98 (0.50-1.95) 0.96 V allelec 0.576 0.588 0.83 Tn locus 9T=9T 2 (2.3) 1 (1.0) 7T=9T 16 (18.6) 18 (17.6) 7T=7T 56 (65.1) 73 (71.6) 5T=9T 3 (3.5) 2 (2.0) 1.39 (0.51-3.79)d 0.52 5T=7T 9 (10.5) 8 (7.8) 5T allelec 0.070 0.050 0.51 R75Q R75Q=wtb 4 (4.6) 2 (2.0) 3.59 (0.55-23.28)e 0.18 R75Q=R75Q 1 (1.2) 0 (0.0) R75Q allelec 0.035 0.010 0.15 a Adjusted for age, sex, and cumulative cigarette consumption. b wt: wild type. c p-values were calculated using Fisher`s exact test.
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ABCC7 p.Arg75Gln 18652532:94:552
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ABCC7 p.Arg75Gln 18652532:94:632
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96 e Presence of at least one R75Q allele versus wt=wt genotype was tested.
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ABCC7 p.Arg75Gln 18652532:96:27
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103 The frequency of R75Q variant carriers was not significantly increased in comparison to control group (5.8% Table 4.
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ABCC7 p.Arg75Gln 18652532:103:17
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104 Analysis of CFTR Allele Variants and Their Association with COPD Severity FEV1 Genotype <50% pred $50% pred OR (95%CI)a p-valuea COPD patients (n) 56 30 F508del wt=wtb 53 (94.6) 28 (93.3) F508del=wtb 3 (5.4) 2 (6.7) 0.70 (0.10-4.95) 0.72 M470V MM 16 (28.6) 2 (6.7) 4.28 (0.88-20.75)c 0.07c MV 25 (44.6) 12 (40.0) VV 15 (26.8) 16 (53.3) 0.29 (0.11-0.80)d 0.016d Tn locus 9T=9T, 7T=9T, and 7T=7T 49 (87.5) 25 (83.3) 5T=9T and 5T=7T 7 (12.5) 5 (16.7) 0.80 (0.22-2.92) 0.73 R75Q wt=wtb 52 (92.9) 29 (96.7) R75Q=wtb and R75Q=R75Q 4 (7.1) 1 (3.3) 2.35 (0.22-25.49) 0.48 a Adjusted for age, sex, and cumulative cigarette consumption. b wt: wild type. c MM versus MV and VV was tested. d VV versus MV and MM was tested.
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ABCC7 p.Arg75Gln 18652532:104:470
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106 Analysis of CFTR Allele Variants and Their Association with Disease Onset Disease onset Genotype <40 years $40 years OR (95%CI)a p-valuea COPD patients (n) 23 63 F508del wt=wtb 21 (91.3) 60 (95.2) F508del=wtb 2 (8.7) 3 (4.8) 3.90 (0.26-57.30) 0.32 M470V MM 6 (26.1) 12 (19.0) 4.45 (0.48-41.28)c 0.19c MV 12 (52.2) 25 (39.7) VV 5 (21.7) 26 (41.3) 0.25 (0.03-2.16)d 0.21d Tn locus 9T=9T, 7T=9T, and 7T=7T 20 (87.0) 54 (85.7) 5T=9T and 5T=7T 3 (13.0) 9 (14.3) 2.19 (0.16-30.28) 0.56 R75Q wt=wtb 22 (95.7) 59 (93.7) R75Q=wtb and R75Q=R75Q 1 (4.3) 4 (6.3) 0.11 (0.00-55.5) 0.49 a Adjusted for age, sex, and cumulative cigarette consumption. b wt: wild type. c MM versus MV and VV was tested. d VV versus MV and MM was tested.
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ABCC7 p.Arg75Gln 18652532:106:480
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108 However, it should be mentioned that the R75Q variant was not in Hardy-Weinberg equilibrium in patient group (w2 ¼ 8.2, df ¼ 1, p < 0.05).
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ABCC7 p.Arg75Gln 18652532:108:41
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109 Considering the frequency of R75Q allele (3.5%), the R75Q homozygote was not expected.
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ABCC7 p.Arg75Gln 18652532:109:29
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ABCC7 p.Arg75Gln 18652532:109:53
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110 This might be due to sampling variation or small sample size, but also might implicate importance of R75Q variant in pathology of COPD.
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ABCC7 p.Arg75Gln 18652532:110:101
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111 In our previous study, the frequency of R75Q polymorphism was significantly higher in COPD group than in healthy population (8.06% vs. 0.97%) (Divac et al., 2004).
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ABCC7 p.Arg75Gln 18652532:111:40
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112 In the present study conducted on a larger cohort of COPD patients, no statistical significance was achieved for R75Q variant in comparison to control group.
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ABCC7 p.Arg75Gln 18652532:112:113
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113 Despite that, nearly three times higher frequencies of R75Q carriers, as well as its genotype distribution disequilibrium, were observed in the patient group.
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ABCC7 p.Arg75Gln 18652532:113:55
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115 Although we were not able to obtain family members for the haplotype analysis of tested CFTR variants, we observed the complete association of R75Q variant with V470 allele.
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ABCC7 p.Arg75Gln 18652532:115:143
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135 Although the F508del, 5T, and R75Q alleles were more frequent in patients` group, the distribution of tested CFTR variants showed no statistical significance between COPD patients and controls.
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ABCC7 p.Arg75Gln 18652532:135:30
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PMID: 18716917 [PubMed] George Priya Doss C et al: "A novel computational and structural analysis of nsSNPs in CFTR gene."
No. Sentence Comment
125 The nsSNPs which were predicted to be Table 1 List of nsSNPs that were predicted to be deleterious by SIFT and PolyPhen SNPs ID Alleles AA change Tolerance index PSIC rs1800072 G/A V11C 1.00 0.150 rs1800073 C/T R31C 0.18 2.288 rs1800074 A/T D44V 0.01 2.532 rs1800076 G/A R75Q 0.03 1.754 rs1800078 T/C L138P 0.01 2.192 rs35516286 T/C I148T 0.41 1.743 rs1800079 G/A R170H 0.05 1.968 rs1800080 A/G S182G 0.03 1.699 rs1800086 C/G T351S 0.30 1.600 rs1800087 A/C Q353H 0.03 2.093 rs4727853 C/A N417K 1.00 0.015 rs11531593 C/A F433L 0.65 0.694 rs1800089 C/T L467F 0.15 1.568 rs213950 G/A V470M 0.17 1.432 rs1800092 C/A/G I506M 0.00 1.574 rs1801178 A/G I507V 0.38 0.314 rs1800093 T/G F508C 0.00 3.031 rs35032490 A/G K532E 1.00 1.525 rs1800097 G/A V562I 0.13 0.345 rs41290377 G/C G576A 0.33 1.262 rs766874 C/T S605F 0.03 2.147 rs1800099 A/G S654G 0.03 1.611 rs1800100 C/T R668C 0.01 2.654 rs1800101 T/C F693L 0.61 0.895 rs1800103 A/G I807M 0.01 1.554 rs1800106 T/C Y903H 0.52 0.183 rs1800107 G/T S909I 0.10 1.624 rs1800110 T/C L967S 0.07 1.683 rs1800111 G/C L997F 0.24 1.000 rs1800112 T/C I1027T 0.03 1.860 rs1800114 C/T A1067V 0.04 1.542 rs36210737 T/A M1101K 0.05 2.637 rs35813506 G/A R1102K 0.52 1.589 rs1800120 G/T R1162L 0.00 2.038 rs1800123 C/T T1220I 0.22 0.059 rs34911792 T/G S1235R 0.45 1.483 rs11971167 G/A D1270N 0.12 1.739 rs4148725 C/T R1453W 0.00 2.513 Highly deleterious by SIFT and damaging by PolyPhen are indicated as bold deleterious in causing an effect in the structure and function of the protein by SIFT, PolyPhen and Pupasuite correlated well with experimental studies (Tsui 1992; Ghanem et al. 1994; Bienvenu et al. 1998) (Table 3).
X
ABCC7 p.Arg75Gln 18716917:125:271
status: NEW
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PMID: 19734129 [PubMed] Gonska T et al: "Sweat gland bioelectrics differ in cystic fibrosis: a new concept for potential diagnosis and assessment of CFTR function in cystic fibrosis."
No. Sentence Comment
68 Table 1 Summary of study subjects ID Category Sex Age Genotype ID Category Sex Age Genotype 1 HC F 49 +/+ 21 CFPS M 46 deltaF508/P67L 2 HC F 39 +/+ 22 CFPS F 41 deltaF508/R117C 3 HC M 32 +/+ 23 CFPS F 57 G542X/D1152H 4 HC M 23 +/+ 24 CFPS M 34 deltaF508/M1101K 5 HC F 28 +/+ 25 CFPS F 29 deltaF508/L1335P 6 HC M 26 +/+ 26 CFPS F 48 deltaF508/+ 7 HC M 26 R75Q/+ 27 CFPS M 26 deltaF508/R117H 8 HC M 30 +/+ 28 CFPS M 44 deltaF508/3272_26A.G 9 HC M 22 +/+ 29 CFPS M 46 deltaF508/R117H 5T 10 HC M 22 +/+ 30 CFPS M 48 R347P/2753-2A.G 11 Hz F 26 deltaF508/+ 31 CFPI M 29 deltaF508/deltaF508 12 Hz F 54 deltaF508/+ 32 CFPI M 29 deltaF508/2194inA 13 Hz F 24 deltaF508/+ 33 CFPI F 40 G551D/621+1 G.T 14 Hz F 33 deltaF508/+ 34 CFPI M 33 deltaF508/deltaF508 15 Hz M 25 deltaF508/+ 35 CFPI M 27 deltaF508/deltaF508 16 Hz F 37 deltaF508/+ 36 CFPI M 25 deltaF508/deltaF508 17 Hz F 49 deltaF508/+ 37 CFPI M 27 deltaF508/deltaF508 18 Hz M 49 deltaF508/+ 38 CFPI M 29 deltaF508/deltaF508 19 Hz F 55 deltaF508/+ 20 Hz M 61 deltaF508/+ CFPI, pancreatic-insufficient CF patients; CFPS, pancreatic-sufficient CF patients; HC, healthy controls; Hz, heterozygotes.
X
ABCC7 p.Arg75Gln 19734129:68:354
status: NEW
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PMID: 19812525 [PubMed] de Cid R et al: "Independent contribution of common CFTR variants to chronic pancreatitis."
No. Sentence Comment
81 CFTR Genotypes in Chronic Pancreatitis Patients and General Population Pt/Phenotype CFTR Genotype Pt/Phenotype CFTR Genotype 1/ACP F508del† , I1027T/j 19/ACP* R668C/j 2/ACP* F508del† /j 20/ACP D836Y/j 3/ACP F508del† , I1027T/Y1014C 21/ACP* L997F† /j 4/ACP F508del† /1716G9A 22/ACP* R1162L/j 5/ACP* F508del† /1716G9A 23/ACP 5T-11TG/j 6/ACP* F508del† /S1235R 24/ACP 5T-11TG/j 7/ACP G542X† /j 25/ACP 5T-11TG/j 8/ACP* W1282X† /j 26/ACP* 5T-11TG/j 9/ACP 5T-12TG† /5T-11TG 27/ACP* 5T-11TG/j 10/ACP* 5T-12TG† /j 28/ACP 1716G9A/4374+13A9G 11/ACP R75Q/j 29/ACP 1716G9A/j 12/ACP R75Q/j 30/ACP 1716G9A/j 13/ACP Y122C/Y122C 31/ACP 1716G9A/j 14/ACP* R170C/j 32/ACP 1716G9A/j 15/ACP* R258G/j 33/ACP* 1716G9A/j 16/ACP* M281T/j 34/ACP 2377C9T/j 17/ACP* R297Q† /- 35/ACP* 2377C9T/j 18/ACP T351S/- 36/ACP 3499+37G9A/j 1/ICP F508del† /- 10/ICP* 1716G9A/j 2/ICP D443Y,G576A,R668C† /j 11/ICP* 1716G9A/j 3/ICP* D443Y,G576A,R668C† /j 12/ICP 1716G9A/j 4/ICP* P205S† /j 13/ICP* 1716G9A/j 5/ICP* L997F† /j 14/ICP* 1716G9A/j 6/ICP* R170H/1716G9A 15/ICP* 1716G9A/j 7/ICP 109A9G/j 16/ICP* 1716G9A/j 8/ICP* 5T-11TG/j 17/ICP 1716G9A/j 9/ICP* 5T-11TG/j 1/GP 5T-12TG† /j 8/GP 1716G9A/j 2/GP 5T-12TG† /j 9/GP 1716G9A/j 3/GP A534E† /j 10/GP 1716G/A/j 4/GP 5T-11TG/V562I 11/GP 1716G9A/j 5/GP 5T-11TG/j 12/GP 1716G9A/j 6/GP 5T-11TG/j 13/GP 3690A9G/j 7/GP 1716G9A/j 14/GP 3690A9G/j Corresponding mutation nomenclature (Human Genome Variation Society and Cystic Fibrosis Mutation Data Base): c.1584G9A (1716G9A), c.1210-7_1210-6delTT (5T), 1210-34_1210-13TG (11TG), g.-23A9G (109A9G), c.4242+13A9G (4374+13A9G), c.2245C9T (2377C9T), c.3367+ 37G9A (3499+37G9A), and c.3558A9G (3690A9G).
X
ABCC7 p.Arg75Gln 19812525:81:615
status: NEW
X
ABCC7 p.Arg75Gln 19812525:81:646
status: NEW
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PMID: 20059485 [PubMed] Dorfman R et al: "Do common in silico tools predict the clinical consequences of amino-acid substitutions in the CFTR gene?"
No. Sentence Comment
64 Mutations in the CFTR gene grouped by clinical category Cystic fibrosis CFTR-related disease No disease T338I D614G L320V V920L L90S M470V H199R S1251N I203M G550R P111A I148T Q1291H R560K L1388Q L183I R170H I1027T S549R D443Y P499A L1414S T908N R668C S549N A455E E1401K Q151K G27E I1234L Y563N R347P C866R S1118C P1290S R75Q A559T V520F P841R M469V E1401G P67L G85E S50Y E1409K R933G G458V G178R Y1032C R248T I980K G85V V392G L973P L137H T351S R334W I444S V938G R792G R560T R555G L1339F D1305E P574H V1240G T1053I D58G G551D L1335P I918M F994C S945L L558S F1337V R810G D1152H G1247R P574S R766M D579G W1098R H949R F200I R352Q L1077P K1351E M244K L206W M1101K D1154G L375F N1303K R1066C E528D D110Y R347H R1070Q A800G P1021S S549K A1364V V392A damaging` (is supposed to affect protein function or structure) and 'probably damaging` (high confidence of affecting protein function or structure).
X
ABCC7 p.Arg75Gln 20059485:64:321
status: NEW
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151 For example, the R at position 75 is highly conserved, but R75Q is known to be a very mild mutation.
X
ABCC7 p.Arg75Gln 20059485:151:59
status: NEW
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PMID: 20521170 [PubMed] Hale JE et al: "Cystic fibrosis newborn screening: using experience to optimize the screening algorithm."
No. Sentence Comment
47 Extensive follow-up Table 1 Children who are followed at a cystic fibrosis (CF) center who were not identified by CF newborn screening (NBS) Presentation Status at last update NBS IRT%, age at dx Genotype Sweat [Cl- ] (MEq/L)a Five CF infants with false-negative CF NBS results FTT, upper respiratory infections, chronic cough Pancreatic sufficient, sinus disease, positive cultures for Staph. aureus and H. flu 84.2%, 3 months DF508/R117H 67 Meconium ileus 93.9%, birth G542X / unknown 57.7, 67.4 FTT, recurrent pneumonia, asthma 62.3%, 4 years D828G / 3271+18 C or T 62 Asthma 78.6%, 3 years D1270N / R74W 86.5 Chronic cough and sinusitis 74.1%, 4 years R75Q / unknown (second mutation not identified by sequencing) 82, 68 Four additional infants followed at CF center who do not (yet) carry a CF diagnosis Chronic cough Pancreatic sufficient, asthma, moderate Staph. aureus and H. flu 39.7%, 5 years DF508 / unknown 39 Chronic cough; sweat-tested and genotyped after parents found to be carriers during pregnancy with younger sibling Does not carry CF diagnosis, pancreatic sufficient, exercise-induced asthma, normal PFTs, cultures Staph. aureus 94.6%, 3 years DF508/R117H 56 Two siblings who are well; genotyped for family history Positive cultures for Staph. aureus and H.flu 21.3%, 71.2% (sib) DF508 / R117H 20, not done IRT Immunoreactive trypsinogen, FTT failure to thrive, PFT pulmonary function test a Value(s) reported from independent visits of infants with positive CF NBS results has allowed the MA CF NBS program to incorporate communication of relative risk of CF following a positive NBS result that is based upon combined consideration (multi-analyte profiling) of both the IRT concentration and the screening-genotype results.
X
ABCC7 p.Arg75Gln 20521170:47:656
status: NEW
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PMID: 20932301 [PubMed] Green DM et al: "Mutations that permit residual CFTR function delay acquisition of multiple respiratory pathogens in CF patients."
No. Sentence Comment
74 For Pa, the hazard ratio Table 1 Classification of CFTR alleles Category Mutation Specific mutations Class I Defective Protein Synthesis (nonsense, frameshift, aberrant splicing) 1078delT, 1154 insTC, 1525-2A > G, 1717-1G > A, 1898+1G > A, 2184delA, 2184 insA, 3007delG, 3120+1G > A, 3659delC, 3876delA, 3905insT, 394delTT, 4010del4, 4016insT, 4326delTC, 4374+1G > T, 441delA, 556delA, 621+1G > T, 621-1G > T, 711+1G > T, 875+1G > C, E1104X, E585X, E60X, E822X, G542X, G551D/R553X, Q493X, Q552X, Q814X, R1066C, R1162X, R553X, V520F, W1282X, Y1092X Class II Abnormal Processing and Trafficking A559T, D979A, ΔF508, ΔI507, G480C, G85E, N1303K, S549I, S549N, S549R Class III Defective Channel Regulation/Gating G1244E, G1349D, G551D, G551S, G85E, H199R, I1072T, I48T, L1077P, R560T, S1255P, S549 (R75Q) Class IV Decreased Channel Conductance A800G, D1152H, D1154G, D614G, delM1140, E822K, G314E, G576A, G622D, G85E, H620Q, I1139V, I1234V, L1335P, M1137V, P67L, R117C, R117P, R117H, R334W, R347H, R347P, R347P/ R347H, R792G, S1251N, V232D Class V Reduced Synthesis and/or Trafficking 2789+5G > A, 3120G > A, 3272-26A > G, 3849+10kbC > T, 5T variant, 621+3A > G, 711+3A > G, A445E, A455E, IVS8 poly T, P574H was increased 3 fold for those with 'Minimal` function when compared to those with 'Residual` function.
X
ABCC7 p.Arg75Gln 20932301:74:806
status: NEW
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PMID: 20977904 [PubMed] Schneider A et al: "Combined bicarbonate conductance-impairing variants in CFTR and SPINK1 variants are associated with chronic pancreatitis in patients without cystic fibrosis."
No. Sentence Comment
99 Total CFTR Sequencing Results of Patients With SPINK1 Mutations Diagnosis Age at diagnosis (y) CFTR mutations SPINK1 mutations 1 SP 12 -/- N34S/P55S 2 SP 46 -/- N34S/P55S 3 SP 13 -/- N34S/N34S 4 FP Infant -/- N34S/N34S 5 FP 8 R560T/- N34S/P55S 6 FP 15 M952T/- N34S/N34S 7 SP 19 R75Q/-a N34S/N34S 8 SP 3 F508del/-a P55S/- 9 SP 3 F508del/1584GtoAa N34S/- 10 SP 19 F508del/-a N34S/- 11 FP 12 F508del/I807M, 3139ϩ42AtoTa N34S/- 12 SP 14 D443YϩG576AϩR668Cb N34S/- 13 SP 1 F508C/-a N34S/- 14 SP 20 IVS8-T5-TG12/-a N34S/- 15 SP 16 R75Q/-a P55S/- 16 SP 9 R75Q/-a N34S/- 17 SP 9 R75Q/-a N34S/- 18 SP 16 R75Q/ϩ1584GtoAa N34S/- 19 FP 7 R75Q/-a N34S/- 20 FP 35 R75Q/-a N34S/- 21 FP 2 1584GtoA/-a N34S/- 22 FP Child 1584GtoA/-a N34S/- 23 SP 14 1584GtoA/-a N34S/- 24 FP 14 3139ϩ42AtoT/- N34S/- 25 FP 28 -/- N34S/- 26 FP 36 -/- N34S/- 27 SP 8 -/- N34S/- 28 SP 9 -/- N34S/- 29 SP 3 -/- N34S/- FP, familial pancreatitis; SP, sporadic pancreatitis.
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ABCC7 p.Arg75Gln 20977904:99:278
status: NEW
X
ABCC7 p.Arg75Gln 20977904:99:542
status: NEW
X
ABCC7 p.Arg75Gln 20977904:99:565
status: NEW
X
ABCC7 p.Arg75Gln 20977904:99:588
status: NEW
X
ABCC7 p.Arg75Gln 20977904:99:612
status: NEW
X
ABCC7 p.Arg75Gln 20977904:99:649
status: NEW
X
ABCC7 p.Arg75Gln 20977904:99:673
status: NEW
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123 Total CFTR Sequencing Results of Healthy Controls CFTR mutations SPINK1 mutations 1 -/- N34S/- 2 1584GtoA/-a N34S/- 3 F508del/-a -/- 4 F508del/-a -/- 5 G576AϩR668C/- -/- 6 IVS8 T5-TG12/-a -/- 7 IVS8 T5/TG12/- -/- 8 R75Q/-a -/- 9 R75Q/-a -/- 10 R75Q/-a -/- 11 R75Q/-a -/- 12 R75Q/-a -/- 13 R75Q/-a -/- 14 R75Q/-a -/- 15 R75Q/-a -/- 16 R75Q/-a -/- 17 9CtoT/- -/- 18 C76W/-a -/- 19 T1086A/- -/- 20 R668C/- -/- 21 N1432K/- -/- 22 I148T/- -/- 23 2657ϩ22GtoA/- -/- 24-95 -/- -/- NOTE.
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ABCC7 p.Arg75Gln 20977904:123:221
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:235
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:250
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:265
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:280
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:295
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:310
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:325
status: NEW
X
ABCC7 p.Arg75Gln 20977904:123:340
status: NEW
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131 Statistical Analysis of SPINK1 and CFTR Genotyping Data CFTRa SPINK1b Patient carriers Patient noncarriers Control carriersc Control noncarriersc OR 95% confidence interval P value SPINK1 only Mut/any 29 51 6 145 16.5 6.1-44.9 ϽϽϽ.0001 Mut/Mut 7 73 9d 9991d 106.5 38.6-293.5 ϽϽ.0001 CFTR only, full sequencing results All variants 20 9 22 73 7.4 2.3-18.5 Ͻ.0001 CF severe 5 24 2 93 9.7 1.8-53.0 .002 CF mild 5 24 3 92 6.4 1.4-28.6 .007 Other 2 27 7 88 0.9 0.2-4.8 .93 CFTR analysis of individual mutations F508del/any 7 73 12 513 4.10 1.6-10.7 .007 R75Q/any 13 67 28 523 3.44 1.7-7.0 .0001 1584GtoA/any 7 73 5 145 2.8 0.9-9.1 .12 IVS8 T5-TG12/any 4 76 4 146 1.9 0.5-7.9 .45 Combined effects of SPINK1 and CFTR mutations F508del/any Mut/any 4 76 7d 9993d 75.1 21.5-176.9 .0003 R75Q/any Mut/any 7 73 2 523 25.1 5.1-123.0 Ͻ.0001 1584GtoA/any Mut/any 5 75 3 147 3.27 0.76-14.0 .09 IVS8 T5-TG12/any Mut/any 1 79 9d 9991d 14.0 1.7-112.2 .348 aCFTR genotypes categorized according to severity of CFTR phenotype.42,43 bSPINK1 N34S and/or P55S heterozygous/homozygous/compound carriers all considered (Mut/any).
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ABCC7 p.Arg75Gln 20977904:131:585
status: NEW
X
ABCC7 p.Arg75Gln 20977904:131:812
status: NEW
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148 The R75Q mutation results in a selective decrease in CFTR HCO3 conductance.
X
ABCC7 p.Arg75Gln 20977904:148:4
status: NEW
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151 (B) Whole-cell I-V relations from HEK cells stably expressing R75Q CFTR.
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ABCC7 p.Arg75Gln 20977904:151:62
status: NEW
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155 Cl media; **additional significant difference between currents in HCO3 media comparing WT and R75Q CFTR expressing cells.
X
ABCC7 p.Arg75Gln 20977904:155:94
status: NEW
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5 CFTR wild-type and p.R75Q were cloned and expressed in HEK293 cells, and relative conductances of HCO3 - and Cl- were measured.
X
ABCC7 p.Arg75Gln 20977904:5:21
status: NEW
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7 One variant of CFTR not associated with CF, p.R75Q, was found in 16% of subjects and 5.3% of controls (OR, 3.4).
X
ABCC7 p.Arg75Gln 20977904:7:46
status: NEW
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8 Coinheritance of CFTR p.R75Q and SPINK1 variants occurred in 8.75% of patients and 0.38% of controls (OR, 25.1).
X
ABCC7 p.Arg75Gln 20977904:8:24
status: NEW
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9 Patch-clamp recordings of cells that expressed CFTR p.R75Q showed normal chloride currents but significantly reduced bicarbonate currents (P ϭ .0001).
X
ABCC7 p.Arg75Gln 20977904:9:54
status: NEW
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10 CONCLUSIONS: The CFTR variant p.R75Q causes a selective defect in bicarbonate conductance and increases risk of pancreatitis.
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ABCC7 p.Arg75Gln 20977904:10:32
status: NEW
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11 Coinheritance of p.R75Q or CF causing CFTR variants with SPINK1 variants significantly increases the risk of ICP.
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ABCC7 p.Arg75Gln 20977904:11:19
status: NEW
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29 Finally, to identify a physiological reason for the repeated association of the CFTR variant p.R75Q with pancreatitis, we have tested the chloride and bicarbonate conductance of CFTR p.R75Q in a polarized epithelial cell line.
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ABCC7 p.Arg75Gln 20977904:29:95
status: NEW
X
ABCC7 p.Arg75Gln 20977904:29:185
status: NEW
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38 To confirm sequencing data and expand the control population, 375 additional unrelated NAPS2 controls were tested for the specific CFTR mutations p.F508del and p.R75Q via custom iPLEX Sequenom (San Diego, CA) assay (primer sequences available on request).
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ABCC7 p.Arg75Gln 20977904:38:162
status: NEW
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39 CFTR p.R75Q Patch-Clamp Studies The CFTR p.R75Q mutant was prepared using a QuikChange XL Site-Directed Mutagenesis Kit (Stratagene, Santa Clara, CA) from full-length human CFTR complementary DNA in pCDNA3.1.
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ABCC7 p.Arg75Gln 20977904:39:7
status: NEW
X
ABCC7 p.Arg75Gln 20977904:39:43
status: NEW
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40 The CFTR p.R75Q mutation was introduced using polymerase chain reaction mutagenesis and verified via sequencing (primer sequences available on request).
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ABCC7 p.Arg75Gln 20977904:40:11
status: NEW
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41 HEK 293 cells were transfected with CFTR wild-type (WT) or p.R75Q vectors using Lipofectamine 2000 (Invitrogen), and stable cell lines were selected in gentamicin (750 ␮g/mL).
X
ABCC7 p.Arg75Gln 20977904:41:61
status: NEW
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43 The expression of CFTR WT and p.R75Q were confirmed by immunoblot, confirming similar expression levels.
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ABCC7 p.Arg75Gln 20977904:43:32
status: NEW
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46 Whole-Cell Recording Whole-cell voltage and current recordings were obtained from HEK 293 cells stably expressing CFTR WT or p.R75Q using an Axopatch 200B amplifier (Axon Instruments, Foster City, CA) and standard methods.26 Cells were cultured on glass cover slips, and the recordings were made 24 to 48 hours after plating.
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ABCC7 p.Arg75Gln 20977904:46:127
status: NEW
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62 Genotyping success rate was 100% in all sequenced samples and 99.4% and 98.6% for TaqMan genotyping of p.F508del and p.R75Q.
X
ABCC7 p.Arg75Gln 20977904:62:119
status: NEW
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74 The remaining 375 control subjects were screened for SPINK1 exon 3 variants and CFTR variants p.R75Q and p.F508del.
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ABCC7 p.Arg75Gln 20977904:74:96
status: NEW
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92 Two peculiar mutations that occurred in both populations, c.1584GtoA (1716GtoA legacy name) and p.R75Q, have been generally regarded as benign sequence variations28 (www.genet.sickkids. on.ca) but repeatedly show association to CF-related diseases, pancreatitis,29-31 and some patients with atypical CF.32 Two individual nonsynonymous sequence changes, p.R668C and p.I148T, were identified with CFTR full sequencing in one control each but without additional mutations found in cis (p.D443Y ϩ p.G576A and c.3067del6 [ie, 3199del6], respectively).
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ABCC7 p.Arg75Gln 20977904:92:98
status: NEW
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104 In patients with SPINK1 mutations, CFTR variants were most commonly observed in exons 3 (eg, p.R75Q) and 10 (eg, p.F508C, c.1584GtoA, p.F508del) and IVS8/exon 9 (T5/TG12 or TG13) (Tables 1 and 3).
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ABCC7 p.Arg75Gln 20977904:104:95
status: NEW
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108 Risk Analysis of Individual CFTR Mutations Recognizing that many single nucleotide polymorphisms in CFTR may be physiologically harmless and not cause disease, we calculated the individual risks of our most commonly identified CFTR variants p.F508del, p.R75Q, c.1584GtoA, and IVS8 T5 for their effects on ICP (see Table 3) regardless of SPINK1 status.
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ABCC7 p.Arg75Gln 20977904:108:254
status: NEW
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111 The common CFTR variant p.R75Q, however, was significantly overrepresented in patients vs controls (OR, 3.4; P ϭ .001).
X
ABCC7 p.Arg75Gln 20977904:111:26
status: NEW
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112 Combined Effect of CFTR and SPINK1 Variants We observed a striking increase in risk of pancreatitis by comparing the expected with the observed frequency of combined SPINK1 mutations with either CFTR p.F508del or p.R75Q (OR, 84.4; 95% CI, 35.8-199; P ϽϽ .0001; Table 3).
X
ABCC7 p.Arg75Gln 20977904:112:215
status: NEW
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115 When analyzed individually, the c.1584GtoA mutation did not confer significant risk either with or without a corresponding SPINK1 mutation, while the CFTR p.R75Q mutant conferred a significant risk of pancreatitis both when considered individually and with a concurrent SPINK1 mutation (OR, 3.4 and 25.1; Table 3).
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ABCC7 p.Arg75Gln 20977904:115:157
status: NEW
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116 Given the carrier frequency of the aforementioned mutations p.F508del and p.R75Q, the expected frequency of a compound CFTR/SPINK1 genotype is approximately 2 in 1000.
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ABCC7 p.Arg75Gln 20977904:116:76
status: NEW
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117 Of all 525 controls, two subjects carried mutations in both CFTR and SPINK1 concurrently (p.N34S/ p.R75Q and p.P55S/p.R75Q).
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ABCC7 p.Arg75Gln 20977904:117:100
status: NEW
X
ABCC7 p.Arg75Gln 20977904:117:118
status: NEW
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118 The p.P55S/p.R75Q healthy carrier was a 32 year old female non-smoker and non-drinker.
X
ABCC7 p.Arg75Gln 20977904:118:13
status: NEW
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119 A further review of the medical history of the control carrying both the SPINK1 p.N34S and CFTR p.R75Q mutations revealed recurrent abdominal pain requiring hospitalization and abdominal surgery (cholecystectomy).
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ABCC7 p.Arg75Gln 20977904:119:98
status: NEW
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121 Anion Transport By p.R75Q CFTR in HEK 293 Cells To assess the physiological properties of the p.R75Q variant, we stably expressed mutant and WT CFTR in HEK293 cells and tested the relative conductances of each CFTR protein to HCO3 - and Cl-.
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ABCC7 p.Arg75Gln 20977904:121:21
status: NEW
X
ABCC7 p.Arg75Gln 20977904:121:96
status: NEW
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126 p.R75Q and studied under conditions where chloride or HCO3 are the major permeant anions.
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ABCC7 p.Arg75Gln 20977904:126:2
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127 Currents in Cl- media at -60 mV for CFTR WT and p.R75Q were not significantly different (mean, -37.6 vs -28.6; P ϭ .3) (Figure 2C).
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ABCC7 p.Arg75Gln 20977904:127:50
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128 When recorded using HCO3 - solutions in the pipette and bath, the current for CFTR WT was significantly less than in Cl- media but significantly greater than that of the p.R75Q variant (mean, -8.23 vs -1.53; P ϭ .0001).
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ABCC7 p.Arg75Gln 20977904:128:172
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130 Viewed in another way (Figure 2C), the current ratio in Cl- media for p.R75Q/WT was Table 3.
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ABCC7 p.Arg75Gln 20977904:130:72
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136 CFTR Mutation Class Types and Corresponding Disease Severity CFTR mutation Exon CF mutation class Disease association % Carriers, case (n) % Carriers, controls (n) p.R75Q 3 "CP" 16.2 (80) 5.3 (525) c.1584GtoA (p.E528E) 10 "CP" 8.7 (80) 3.3 (150) p.F508del 10 II CF severe 8.7 (80) 2.3 (525) p.R560T 11 II CF severe 3.4 (29) 0 (95) IVS8 T5/TG12or13 i8 V CF mild 5.0 (80) 2.7 (150) p.F508C 10 CF mild 1.2 (80) 0 (150) p.I807M 13 CF mild 3.4 (29) 0 (95) p.D443YϩG576AϩR668Ca 9;12;13 CF mild 3.4 (29) 0 (95) p.G576AϩR668Ca 12;13 CF mild 0 (29) 1 (95) p.M952T 15 CF mild 3.4 (29) 0 (95) p.R668C 13 Other 0 (29) 1 (95) c.3139ϩ42AtoT i17a Other 3.4 (29) 0 (95) p.N1432K 24 Other 0 (29) 1 (95) c.-9CtoT 1 Other 0 (29) 1 (95) p.C76W 3 Other 0 (80) 0.7 (150) p.I148T 4 Other 0 (29) 1 (95) c.2657ϩ22GtoA i14b Other 0 (29) 1 (95) p.T1086A 17b Other 0 (29) 1 (95) NOTE.
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ABCC7 p.Arg75Gln 20977904:136:166
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140 0.76, which was not statistically different from 1.0; however, the current ratio in bicarbonate media for p.R75Q/WT was 0.18 and the HCO3/Cl current ratio for p.R75Q was 0.053, 4 times lower than that for CFTR WT.
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ABCC7 p.Arg75Gln 20977904:140:108
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ABCC7 p.Arg75Gln 20977904:140:161
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141 Discussion In the present study of ICP in patients without clinical evidence of CF, we confirmed that the combination of trans-heterozygous CFTR and SPINK1 variants markedly increases the risk of pancreatitis, as first observed by Noone et al.33 However, we show for the first time a very high risk of pancreatitis in patients with specific CFTR mutations (p.R75Q, p.F508del) and show that CFTR bicarbonate conductance is specifically impaired in the relatively common CFTR variant p.R75Q.
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ABCC7 p.Arg75Gln 20977904:141:359
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ABCC7 p.Arg75Gln 20977904:141:484
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157 The CFTR p.R75Q variant was associated with a high risk of pancreatitis in the presence of a SPINK1 mutation in the present study, and it was also observed in the series reported by Noone et al,33 Weiss et al,36 and Tzetis et al34 in patients with CP.
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ABCC7 p.Arg75Gln 20977904:157:11
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158 Although this variant has been investigated previously for causing CF,28 a number of researchers have determined that CFTR p.R75Q is processed and matures much like CFTR WT in cells, and physiological studies show no gating or Cl-channel dysfunction.39 This type of data strengthens the argument that p.R75Q is a sequence variant not contributing to the autosomal recessive disorder CF28 (www.genet.
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ABCC7 p.Arg75Gln 20977904:158:125
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ABCC7 p.Arg75Gln 20977904:158:303
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160 However, the fact that CFTR p.R75Q is repeatedly reported as a CFTR variant in a number of patients with atypical CF32 and CF-related disorders such as sarcoidosis,29 chronic obstructive pulmonary disease,30 and CP31 suggests that normal function is disrupted in some way.
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ABCC7 p.Arg75Gln 20977904:160:30
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161 Here we show for the first time that p.R75Q alters bicarbonate but not chloride conductance.
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ABCC7 p.Arg75Gln 20977904:161:39
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162 This is consistent with our CP model that recognizes CFTR as a pancreatic duct cell bicarbonate channel and predicts that CFTR mutations disrupting bicarbonate conductance will markedly increase the risk of pancreatic disease either through total disruption of protein processing (eg, p.F508del) or alteration in channel properties (eg, p.R75Q).16 This finding also suggests that there may be additional CFTR mutations that specifically disrupt bicarbonate conductance and thus are also specific risk factors for CP but not CF.
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ABCC7 p.Arg75Gln 20977904:162:339
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164 Our data suggest that the correlation of the relatively common CFTR variant p.R75Q with a SPINK1 mutation increases the risk of CP in a multiplicative manner (SPINK1 alone OR, 18.1; p.R75Q alone OR, 3.4; combined with SPINK1: OR, 25.1; Table 3), whereas that of heterozygous CFTR p.R75Q or CFTR p.F508del variants becomes insignificant in a SPINK1 WT background.
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ABCC7 p.Arg75Gln 20977904:164:78
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ABCC7 p.Arg75Gln 20977904:164:184
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ABCC7 p.Arg75Gln 20977904:164:282
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PMID: 21499205 [PubMed] Lucidi V et al: "The etiology of acute recurrent pancreatitis in children: a challenge for pediatricians."
No. Sentence Comment
46 Genetic Findings Observed in Our Study Population and Related Clinical Features CFTR PRSS1 SPINK1 Clinical CharacteristicsMutations IVS8 F508del/UN 9T/9T S181G/- NEG No respiratory symptoms 3849+10KbC9T/UN 7T/7T NEG NEG No respiratory symptoms UN/UN 7T/7T NEG N34S/- UN/UN 5T/7T NEG NEG No respiratory symptoms 1899-136T/C/UN 5T/7T NEG NEG No respiratory symptoms F508del/UN 5T/9T NEG NEG No respiratory symptoms D1152H/D1152H NEG NEG No respiratory symptoms R75Q/UN 5T/7T NEG NEG No respiratory symptoms L997F/UN 7T/9T NEG NEG No respiratory symptoms UN/UN 7T/7T NEG N34S/- W1282X/I148T 7T/9T NEG NEG No respiratory symptoms NEG N34S/- R75Q/F1052V NEG NEG No respiratory symptoms F508del/D1152H NEG NEG Bronchiectasis-CF 406-6T/C/E528E 7T/7T NEG NEG No respiratory symptoms F508del/UN 7T/9T Mild respiratory symptomsYCF L967S/L997F NEG NEG No respiratory symptoms E528E/UN 5T/7T Crohn disease, food allergy 1716 G/A/UN 7T/7T NEG NEG No respiratory symptoms 1898+1G9A/UN 7T/7T No respiratory symptoms R31C/UN No respiratory symptoms R75Q/UN 7T/7T NEG NEG No respiratory symptoms N29T;V212I; D217Y NEG F508del/UN 7T/9T NEG NEG Pancreas divisum S1235R/UN 7T/9T NEG NEG Duodenal stenosis Entries in bold font undelines the detection of mutations or polymorphisms in the studied genes.
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ABCC7 p.Arg75Gln 21499205:46:459
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ABCC7 p.Arg75Gln 21499205:46:637
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ABCC7 p.Arg75Gln 21499205:46:1033
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PMID: 9620832 [PubMed] Kanavakis E et al: "Cystic fibrosis mutation screening in CBAVD patients and men with obstructive azoospermia or severe oligozoospermia."
No. Sentence Comment
64 Cystic fibrosis transmembrane conductance regulator (CFTR), PolyT genotypes and clinical data of men with congenital bilateral absence of the vas deferens (CBAVD, n ϭ 14), obstructive azoospermia (ObsA, n ϭ 10) and oligozoospermia (n ϭ 3) Patients Sweat chloride CFTR IVS8-polyT Other clinical (mEq/l) mutations alleles features Two mutations detected MS1 (CBAVD) 107.7 ∆F508/M1I 5T/9T Recurrent bronchitis MS6 (CBAVD) 74.5 ∆F508/711ϩ3AϾG 9T/7T Chronic cough MS19 (CBAVD) 51 W496X/F1052V 9T/9T MS24 (CBAVD) Ͻ40 D565G/R668C 7T/7T One mutation detected MS5 (CBAVD) Ͻ40 3272-26AϾG/- 7T/7T MS12 (CBAVD) Ͻ40 ∆F508/- 9T/7T MS14 (CBAVD) Ͻ40 ∆F508/- 9T/5T MS15 (CBAVD) 57.7 L732X/- 7T/5T Dehydration/recurrent bronchitis MS16 (CBAVD) Ͻ40 711ϩ3AϾG/- 7T/5T MS20 (CBAVD) Ͻ40 4010delTAT/- 7T/7T MS18 (ObsA) 48 ∆F508/- 5T/9T MS11 (ObsA) Ͻ40 R75Q/- 7T/7T MS23 (ObsA) Ͻ40 2790-8CϾG/- 7T/7T No mutation detected MS7 (CBAVD) Ͻ40 -/- 7T/7T MS10 (CBAVD) Ͻ40 -/- 7T/7T MS21 (CBAVD) Ͻ40 -/- 7T/9T MS28 (CBAVD) Ͻ40 -/- 7T/7T MS2 (ObsA) 54.2 -/- 7T/7T MS8 (ObsA) Ͻ40 -/- 7T/7T MS17 (ObsA) 50 -/- 7T/7T MS22 (ObsA) Ͻ40 -/- 7T/9T MS25 (ObsA) Ͻ40 -/- 7T/7T MS26 (ObsA) Ͻ40 - / - 7T/7T MS27 (ObsA) Ͻ40 -/- 7T/7T MS3 (oligozoospermia) 50 -/- 7T/7T MS4 (oligozoospermia) Ͻ40 -/- 7T/7T MS13 (oligozoospermia) Ͻ40 -/- 7T/7T Table II.
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ABCC7 p.Arg75Gln 9620832:64:953
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PMID: 9788722 [PubMed] Petreska L et al: "Molecular basis of cystic fibrosis in the Republic of Macedonia."
No. Sentence Comment
75 In a total of 23 CF and five undetermined chromosomes we characterized nine CFTR gene polymorphisms: a) by SSCP: R75Q (30), 405 +46GJT (34), 875+40A/G (35), L467P and 4002A/G (4), M470V (22), and the new one P324P (18); b) by CDGE: T966T (36) and 3041-92G/A (37).
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ABCC7 p.Arg75Gln 9788722:75:113
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PMID: 9921909 [PubMed] Bombieri C et al: "Complete mutational screening of the CFTR gene in 120 patients with pulmonary disease."
No. Sentence Comment
61 Of these 22 mutations, 14 (R75Q, P111L, R117H, I148T, Y301C, ∆F508, E585X, V754M, L997F, R1066C, M1137V, 3667ins4, D1270N, 4382delA) are listed by the Cystic Fibrosis Genetic Analysis Consortium (CFGAC) as CF mutations (CFGAC website), even if their role in CF disease remains to be proven, as is the case for R75Q, P111L, V754M, L997F, and D1270N.
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ABCC7 p.Arg75Gln 9921909:61:27
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ABCC7 p.Arg75Gln 9921909:61:317
status: NEW
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88 of cases CFTR gene PolyTb status tested mutationa DBE 23 1 G576A-R668C/L997F 7/9 1 ∆F508/L997F 9/9 1 ∆F508/- 7/9 1 R1066C/- 5/7 1 3667ins4/- 5/7 1 R75Q/- 7/7 1 M1137V/- 7/7 1 -/- 5/5 3 -/- 5/7 10 -/- 7/7 2 -/- 7/9 CB 27 1 P111L/- 7/7 1 R117H/- 7/7 1 E585X/- 7/7 1 P1072L/- 7/7 1 -/- 5/7 15 -/- 7/7 6 -/- 7/9 1 -/- 9/9 E 25 1 R668C/- 7/7 6 -/- 5/7 16 -/- 7/7 6 -/- 7/9 S 8 1 E826K/- 7/7 1 ∆F508/- 7/9 1 4382delA/- 7/7 1 L997F/- 7/9 1 V754M/- 7/9 3 -/- 7/7 LC 26 1 I148T/- 5/7 1 D1270N-R74W 5/7 1 D651N/- 7/7 1 Y301C/- 7/7 1 -/- 5/7 16 -/- 7/7 5 -/- 7/9 TB 4 1 -/- 5/7 1 -/- 7/7 2 -/- 7/9 Pneumonia 5 4 -/- 7/7 1 -/- 5/7 Pnx 2 2 -/- 7/7 Controls 68 1 L997F/- 7/9 1 R31C/- 7/7 1 I506V/- 5/7 1 -/- 5/7 1 -/- 5/9 23 -/- 7/7 4 -/- 7/9 1 -/- 9/9 2 ?
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ABCC7 p.Arg75Gln 9921909:88:161
status: NEW
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PMID: 15241793 [PubMed] Steiner B et al: "The role of common single-nucleotide polymorphisms on exon 9 and exon 12 skipping in nonmutated CFTR alleles."
No. Sentence Comment
96 Characterization of the CFTR Gene Polymorphisms Here, we included the T5 allele (c.1342-34(TG)10-13(T)5), and the c.1716A4G and the c.356C4A (p.R75Q) variant, which have been reported to be disease-causing alleles in CFTR-associated disorders [Chillon et al., 1995; Ockenga et al., 2000].
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ABCC7 p.Arg75Gln 15241793:96:144
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PMID: 16128988 [PubMed] Larriba S et al: "Molecular evaluation of CFTR sequence variants in male infertility of testicular origin."
No. Sentence Comment
51 CFTR analysis We identified 14 different, potential disease-causing CFTR sequence variants, 11 of them are translated into missense amino acid changes (p.R75Q, p.P111L, p.R117H, p.I148T, p.R334W, p.M348K, p.G576A, p.R668C, p.D1270N, p.S1235R and p.S1426F), one deletion (p.F508del) and two alleles affecting exon splicing [IVS8-6(5T), c.1716G>A] in 30 of 83 infertile patients (Table 1) giving a frequency of 36.1%.
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ABCC7 p.Arg75Gln 16128988:51:154
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53 Thirteen CFTR gene sequence variants [p.R75Q, p.I148T, p.T351S, p.F508del, p.G576A, p.R668C, p.E725K, p.V754M, p.D836Y, p.L997F, p.S1235R, IVS8-6(5T) and c.1716G>A] were determined in 11 F1 and 15 F2 individuals (Table 1) giving a frequency of 29.9%.
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ABCC7 p.Arg75Gln 16128988:53:40
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54 One individual presented both p.R75Q and p.I148T.
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ABCC7 p.Arg75Gln 16128988:54:32
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72 Description of genetic abnormalities and other risk factors of infertile and fertile CFTR carrier individuals No. Phenotype CFTR genotype Associated factors Testicular histologya b c Infertile individuals 1 NOb (SO) p.R75Q No Severe hypospermatogenesis 2 NOb (SO) p.R75Q No nd 3 NOb (A) p.P111L AZFb,c del Sertoli cell only 4 NOb (A) p.R117H AZFc del Severe hypospermatogenesis 5 NOb (SO) p.I148T No Severe hypospermatogenesis 6 NOb (A) p.R334W No Primary spermatocyte arrest 7 NOb (SO) p.M348K UV grade III Primary spermatocyte arrest 8 NOb (A) p.F508del No Sertoli cell only 9 NOb (A) p.F508del No Primary spermatocyte arrest 10 NOb (A) p.G576A, p.R668C No Severe hypospermatogenesis, Leydig cell hyperplasia 11 NOb (SO) p.G576A, p.R668C No Primary spermatocyte arrest (unilateral) 12 NOb (SO) p.G576A, p.R668C No Severe hypospermatogenesis 13 NOb (A) p.R668C UC Sertoli cell-only (incomplete) 14 NOb (SO) p.D1270N No nd 15 NOb (SO) p.S1235R No Severe hypospermatogenesis 16 NOb (SO) p.S1426F* UC Sertoli cell only 17 NOb (A) (T)5-(TG)12 No Severe hypospermatogenesis, Sertoli cell only (80%) 18 NOb (A) (T)5-(TG)12 No Sertoli cell only 19 NOb (SO) (T)5-(TG)11 UV grade III Bilateral moderate hypospermatogenesis 20 NOb (SO) (T)5-(TG)11 UV grade II Severe hypospermatogenesis 21 NOb (A) (T)5-(TG)11 No nd 22 NOb (SO) c.1716 G>A Dysplasia SV Severe hypospermatogenesis, Sertoli cell only (95%) 23 NOb (A) c.1716 G>A No nd 24 NOb (A) c.1716 G>A No Primary spermatocyte arrest (bilateral) 25 NOb (SO) c.1716 G>A No Sertoli cell only (95%) 26 NOb (SO) c.1716 G>A No Severe hypospermatogenesis 27 NOb (SO) c.1716 G>A UV grade III Severe hypospermatogenesis 28 NOb (SO) c.1716 G>A No nd 29 NOb (SO) c.1716 G>A No nd 30 NOb (SO) c.1716 G>A AZFc del Severe hypospermatogenesis Fertile individuals 1 F1 p.R75Q No nd 2 F1 p.F508del No nd 3 F1 p.F508del No nd 4 F1 p.G576A, p.R668C/ c.1716 G>A No nd 5 F1 p.D836Y No nd 6 F1 p.S1235R/c.1716 G>A No nd 7 F1 c.1716 G>A No nd 8 F1 c.1716 G>A No nd 9 F1 c.1716 G>A No nd 10 F1 c.1716 G>A No nd 11 F1 c.1716 G>A No nd 12 F2 p.R75Q No nd the expected CF carrier frequency in the local population (Van der Ven et al., 1996; Larriba et al., 2001; Dohle et al., 2002) or with the general population (Jakubiczka et al., 1999; Pallares-Ruiz et al., 1999; Ravnik-Glavac et al., 2001) and not normospermic fertile individuals, the latter considered as adequate controls.
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ABCC7 p.Arg75Gln 16128988:72:218
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ABCC7 p.Arg75Gln 16128988:72:266
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ABCC7 p.Arg75Gln 16128988:72:1798
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ABCC7 p.Arg75Gln 16128988:72:2061
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85 Continued No. Phenotype CFTR genotype Associated factors Testicular histologya b c 13 F2 p.I148T p.R75Q No nd 14 F2 p.T351S No nd 15 F2 p.F508del No nd 16 F2 p.E725K No nd 17 F2 p.V754M No nd 18 F2 p.L997F No nd 19 F2 (T)5-(TG)12 No nd 20 F2 (T)5-(TG)12 No nd 21 F2 (T)5-(TG)11 No nd 22 F2 (T)5-(TG)11 No nd 23 F2 c.1716 G>A No nd 24 F2 c.1716 G>A No nd 25 F2 c.1716 G>A No nd 26 F2 c.1716 G>A No nd Phenotype: NOb (SO), non-obstructive severe oligozoospermia; NOb (A), non-obstructive azoospermia; F1, optimal fertility; F2, suboptimal fertility.
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ABCC7 p.Arg75Gln 16128988:85:99
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PMID: 16134171 [PubMed] Cohn JA et al: "Increased risk of idiopathic chronic pancreatitis in cystic fibrosis carriers."
No. Sentence Comment
9 A variant allele of uncertain significance (p.R75Q) was detected in eight of the 52 ICP subjects and at a similar frequency (13/96) in random donors.
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ABCC7 p.Arg75Gln 16134171:9:46
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39 To determine the frequency of the p.R75Q CFTR variant in healthy controls, 96 random donors from the United Kingdom were tested.
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ABCC7 p.Arg75Gln 16134171:39:36
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63 p.R75Q was detected nine times in eight subjects (allele frequency: 9/104).
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ABCC7 p.Arg75Gln 16134171:63:2
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96 b The following polymorphisms were also detected: nine copies of p.R75Q and one copy each of p.R1162L and c.1584G4A (1716G4A).
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ABCC7 p.Arg75Gln 16134171:96:67
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105 Nonetheless, p.R75 is highly conserved and p.R75Q may be mildly deleterious.
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ABCC7 p.Arg75Gln 16134171:105:45
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106 If p.R75Q is reclassified as an uncommon mutation causing a variable phenotype, this would change the genotype category for four subjects: one CF carrier would become a compound heterozygote (p.F508del/p.R75Q), two heterozygotes would become compound heterozygotes (p.S1235R/ p.R75Q and p.A209S/p.R75Q), and one normal genotype would become a compound heterozygote or homozygote (p.R75Q/ p.R75Q).
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ABCC7 p.Arg75Gln 16134171:106:5
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ABCC7 p.Arg75Gln 16134171:106:204
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ABCC7 p.Arg75Gln 16134171:106:278
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ABCC7 p.Arg75Gln 16134171:106:297
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ABCC7 p.Arg75Gln 16134171:106:382
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ABCC7 p.Arg75Gln 16134171:106:390
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PMID: 21131649 [PubMed] Puechal X et al: "Mutations of the cystic fibrosis gene in patients with bronchiectasis associated with rheumatoid arthritis."
No. Sentence Comment
61 Table 1 CFTR genotypes of the family population Family (N=24) CFTR genotypes RA-DB (N=30) DB only (N=8) RA only (N=24) Unaffected individuals (N=76) 1 c.1584G>A (p.Glu528Glu ):- 1 -:- 1 2 p.Gly424Ser+p.Gly576Ala 1 p.Gly424Ser:- 1 p.Arg75Gln:- 1 1 3 p.Phe508del (c.1521_1523delCTT)+5T (c.1210-12[5]) 1 p.Phe508del:- 1 2 2 5T (c.1210-12[5]):- 1 -:- 1 4 5T (c.1210-12[5]):- 1 1 2 -:- 1 2 1 p.Phe1052Val:- 1 5 5T (c.1210-12[5]):- 1 6 p.Phe508del+p.Ser977Phe-5T (c.1210-12[5]) 1 1 1 p.Phe508del:- 1 p.Ser977Phe-5T (c.1210-12[5]):- 3 7 p.Arg75Gln:- 2 8 p.Asp1152His+c.262_263delTT 1 1 p.Asp1152His+c.-7G>C 1 c.262_263delTT:- 1 9 c.1584G>A (p.Glu528Glu ):- 1 p.Arg75Gln:- 1 -:- 1 5 10 10 c.-7G>C:- 1 -:- 1 8 11 p.Ser1235Arg:- 1 1 -:- 1 12 p.Ala923Ala:- 1 1 13 c.1584G>A (p.Glu528Glu ):- 1 1 1 p.Ala923Ala:- 1 14 c.1584G>A (p.Glu528Glu ):- 2 1 -:- 1 3 15 -:- 1 1 5 16 -:- 1 1 7 17 -:- 2 1 3 18 -:- 1 1 19 -:- 1 1 2 20 -:- 1 1 21 -:- 1 1 3 22 -:- 1 1 6 23 -:- 1 1 3 24 -:- 1 1 7 Total no.
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ABCC7 p.Arg75Gln 21131649:61:232
status: NEW
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ABCC7 p.Arg75Gln 21131649:61:532
status: NEW
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ABCC7 p.Arg75Gln 21131649:61:654
status: NEW
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PMID: 22658665 [PubMed] Ooi CY et al: "Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations in pancreatitis."
No. Sentence Comment
896 This finding was also supported by another recent study reporting R75Q, a mild mutation, being significantly associated with chronic pancreatitis [30].
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ABCC7 p.Arg75Gln 22658665:896:66
status: NEW
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897 Although R75Q has been suggested to be a specific pancreatitis-associated mutation due to selective bicarbonate conductance defect, there have been patients not affected by pancreatitis identified with this mutation who presented with other single organ manifestations of CF in adulthood such as chronic sinopulmonary disease [31].
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ABCC7 p.Arg75Gln 22658665:897:9
status: NEW
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PMID: 22749696 [PubMed] Chen JM et al: "Genetics and pathogenesis of chronic pancreatitis: the 2012 update."
No. Sentence Comment
92 The Whitcomb group recently reported that the coinheritance of CFTR R75Q and SPINK1 variants is significantly higher in patients with idiopathic chronic pancreatitis than in controls (8.75% vs. 0.38%).
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ABCC7 p.Arg75Gln 22749696:92:68
status: NEW
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94 However, the over-representation of the trans-heterozygosity for CFTR R75Q and SPINK1 variants in patients was challenged by Witt and colleagues [55], who argued that the contribution of CFTR to chronic pancreatitis had been overestimated in the previous studies.
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ABCC7 p.Arg75Gln 22749696:94:70
status: NEW
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PMID: 22781910 [PubMed] Patel H et al: "Combination of CFTR gene mutation and autoimmune pancreatitis presenting as necrotizing pancreatitis."
No. Sentence Comment
12 Genetic testing revealed a heterozygous presence of R75Q variant CFTR gene.
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ABCC7 p.Arg75Gln 22781910:12:52
status: NEW
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23 Elevated levels of IgG4 are felt to be the best markers of AIP, with a sensitivity of 73.3% and a specificity of 95.1%.8 Despite lack of histology and the decision to hold on systemic steroid therapy, given the clinical, radiographic, and laboratory findings, our patient met the criteria for AIP based on the criteria stated by the Japanese Pancreas Society.9Y11 In children, CF associated with CFTR gene mutations is the most common cause of chronic and recurrent pancreatitis.4,12 A recent study of pancreatic-sufficient CF patients determined that patients with genotypes associated with mild phenotypic effects (at least one CFTR mutation) had a greater risk of developing pancreatitis than patients with more severe phenotypes.12 The CFTR gene, R75Q, found in our patient was tested as a part of a multicenter study.
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ABCC7 p.Arg75Gln 22781910:23:751
status: NEW
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24 Patients with a combined mutation in both SPINK-1 and CFTR R75Q were found to have a higher risk of pancreatitis.13 The conclusions drawn from this study were that the combination of a CFTR gene R75Q and SPINK-1 mutation increases the risk of chronic pancreatitis in a multiplicative manner.13 One could speculate from this study that the presence of the CFTR R75Q gene may carry a more significant and severe risk of pancreatitis in the setting of other risk factors or underlying etiologies, such as hereditary pancreatitis, pancreatic duct divisum, or AIP.
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ABCC7 p.Arg75Gln 22781910:24:59
status: NEW
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ABCC7 p.Arg75Gln 22781910:24:195
status: NEW
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ABCC7 p.Arg75Gln 22781910:24:360
status: NEW
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PMID: 22094894 [PubMed] Sultan M et al: "Genetic prevalence and characteristics in children with recurrent pancreatitis."
No. Sentence Comment
163 Schneider et al (27) showed that CFTR variant p.R75Q with a SPINK1 mutation increases the risk of CP with an odds ratio of 25.1.
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ABCC7 p.Arg75Gln 22094894:163:48
status: NEW
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PMID: 22427236 [PubMed] Rosendahl J et al: "CFTR, SPINK1, CTRC and PRSS1 variants in chronic pancreatitis: is the role of mutated CFTR overestimated?"
No. Sentence Comment
4 Results Frequencies of CFTR variants p.R75Q, p.I148T, 5T-allele and p.E528E were comparable in patients and controls.
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ABCC7 p.Arg75Gln 22427236:4:39
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72 The following CFTR variants were analysed with specific FRET probes: p.E60X, p.R75Q, p.G85E, p.R117H, p.I148T, c.621 +1G>T (IVS4+1G>T), c.711+1G>T (IVS5+1G>T), c.1078delT, p.R334W, p.R347P, 9-13TG, 5-9T, p.A455E, p.M470V, p.F508del, c.1716G>A (p.E528E), c.1717-1G>A (IVS10-1G>A), p.G542X, p.S549N, p.R553X, p.R560T, c.1898+1G>A (IVS12 +1G>A), c.2143delT, c.2183AA>G, c.2562T>G, c.2657+5G>A (IVS14B+5G>A), p.L997F, p.I1005R, p.Y1092X, p.D1152H, p.R1162X, c.3659delC, p.S1235R, p.S1251N, p.W1282X, p.N1303K, and c.4389G>A.
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ABCC7 p.Arg75Gln 22427236:72:79
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80 We excluded CFTR variants p.R75Q, p.I148T, the poly-T tract and p.E528E, PRSS1 variant p.S124F, SPINK1 variants c.1-52G>T and p.P55S, and CTRC variants p.R37Q, p.K151N and p.K172E from all calculations, because of missing functional data or a missing genetic association.
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ABCC7 p.Arg75Gln 22427236:80:28
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111 Except one (p.R117H (7T/7T)/p. S1235), these compound heterozygotes were excluded in the overall computations, because CFTR variant p.R75Q, p.I148T, 5T or p.E528E was present in at least one allele.
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ABCC7 p.Arg75Gln 22427236:111:134
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116 In addition, 24/660 (3.6%) patients and 2/1700 (0.1%) controls were trans-heterozygotes in that CFTR variants p.R75Q, p.I148T, 5T and p.E528E were essential for trans-heterozygous status (p<0.0001, OR 30.8, 95% CI 7.3 to 131).
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ABCC7 p.Arg75Gln 22427236:116:112
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122 In these cases, the over-representation is also most probably due to the strengthening of p.R122H (PRSS1) and p.N34S (SPINK1) as shown for CFTR p.R75Q (see below).
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ABCC7 p.Arg75Gln 22427236:122:146
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124 SPINK1 variant p.N34S (heterozygous and homozygous) was found in combination with CFTR variants p.R75Q (heterozygous and homozygous) in 6/660 patients (0.9%), with 5T in Table 1 Distribution of SPINK1, CTRC and PRSS1 variants in patients and controls Gene Variant Patients Controls p Value OR (95% CI) PRSS1 p.A16V 14/660 (2.1%) 0/1758 <0.0001 78.9 (4.7 to 1325) p.N29I 8/660 (1.2%) 0/1758 <0.0001 45.8 (2.6 to 795.4) p.N29T 1/660 (0.2%) 0/1758 NS e p.R116C 2/660 (0.3%) 0/1758 NS e p.R122C 5/660 (0.8%) 0/1758 0.002 29.5 (1.6 to 534.8) p.R122H 25/660 (3.8%) 0/1758 <0.0001 141.1 (8.6 to 2323) p.S124F* 1/660 (0.2%) 0/1758 NS e Total 55/660 (8.3%) 0/1758 <0.0001 322.4 (19.8 to 5230) SPINK1 c.
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ABCC7 p.Arg75Gln 22427236:124:98
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130 doi:10.1136/gutjnl-2011-300645 Pancreas 8/660 patients (1.2%), and with p.E528E (heterozygous and homozygous) in 6/660 patients (0.9%) compared with 1/1758 (0.06%) controls for combination with p.R75Q and 5T, and 2/ 1758 controls (0.1%) for combination with p.E528E (p.R75Q: p¼0.002, OR 16.1, 95% CI 1.92 to 134; 5T: p¼0.0002, OR 21.6, 95% CI 2.7 to 172.8; p.E528E: p¼0.008, OR 8, 95% CI 1.6 to 40).
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ABCC7 p.Arg75Gln 22427236:130:197
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ABCC7 p.Arg75Gln 22427236:130:270
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132 Thereafter, no significant association was obtained (p.R75Q: 6/109 patients, 5.5%, 1/26 controls, 3.9%, p¼1.0; 5T: 8/109 patients, 7.3%, 1/26 controls, 3.9%, p¼1.0; p.E528E: 6/109 patients, 5.5%, 2/26 controls, 7.7%, p¼0.7).
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ABCC7 p.Arg75Gln 22427236:132:55
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133 In contrast, 6/31 (19.4%) patients with p.R75Q also carried p.N34S, whereas only 1/60 (1.7%) of controls with p.R75Q showed the p.N34S variant, representing the data expected in patients and controls.
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ABCC7 p.Arg75Gln 22427236:133:42
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ABCC7 p.Arg75Gln 22427236:133:112
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134 On analysis of about 200 parents for CFTR, p.R75Q was found to pass from one parent to the child in 6/13 cases (46%) only, which further underlines that this variant most likely does not contribute to disease pathogenesis.
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ABCC7 p.Arg75Gln 22427236:134:45
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140 Variant distribution in patients aged >20 and <20 years In younger patients, overall PRSS1 variants were 2.9-fold more common (>20 years: 9/239, 3.8%; <20 years: 46/421, 10.9%; p¼0.001, OR 3.1, 95% CI 1.5 to 6.5), whereas overall SPINK1 variants were similarly distributed (56/239, 23.4%; 73/421, Table 2 CFTR variants detected by melting curve analysis Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing, severe) p.F508del 44/660 (6.7%) 48/1758 (2.7%) <0.0001 2.5 (1.7 to 3.9) p.R117H (5T/7T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.G542X 1/660 (0.2%) 1/1758 (0.06%) NS e c.1717-1G>A 3/660 (0.5%) 1/1758 (0.06%) NS e p.E585X 0/660 1/1758 (0.06%) NS e c.2183AA>G 0/660 1/1758 (0.06%) NS e p.R1158X 1/660 (0.2%) 0/1758 NS e p.R1162X 1/660 (0.3%) 0/1758 NS e p.N1303K 3/660 (0.5%) 0/1758 NS e Total 55/660 (8.3%) 53/1758 (3%) <0.0001 2.9 (2 to 4.3) CFTR (CF-causing mild) p.R117H (7T/7T) 13/660 (2%) 8/1758 (0.5%) 0.0009 4.4 (1.8 to 10.7) p.R117H (7T/9T) 3/660 (0.5%) 1/1758 (0.06%) NS e p.R347H 1/660 (0.2%) 0/1758 NS e p.R347P 1/660 (0.2%) 0/1758 NS e p.A455E 1/660 (0.2%) 0/1758 NS e c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.D1152H 3/660 (0.5%) 5/1758 (0.3%) NS e Total 23/660 (3.5%) 14/1758 (0.8%) <0.0001 4.5 (2.3 to 8.8) CFTR (non CF-causing) p.R74Q 2/660 (0.3%) 0/1758 NS e p.R75Q (het)* 29/660 (4.4%) 59/1758 (3.4%) NS e p.R75Q (hom)* 2/660 (0.3%) 1/1758 (0.06%) NS e p.Y84H 0/660 1/1758 (0.06%) NS e p.A120T 0/660 1/1758 (0.06%) NS e p.I148T* 4/660 (0.6%) 11/1758 (0.6%) NS e p.I507V 1/660 (0.2%) 2/1758 (0.1%) NS e p.F508C 1/660 (0.2%) 0/1758 NS e c.1716+12T>C 0/660 1/1758 (0.06%) NS e p.E528E (het)* 36/660 (5.5%) 82/1758 (4.7%) NS e p.E528E (hom)* 0/660 2/1758 (0.1%) NS e c.1898+8C>G 0/660 1/1758 (0.06%) NS e p.H667Y 1/660 (0.2%) 0/1758 NS e p.R668C 5/660 (0.8%) 3/1758 (0.2%) NS e p.G691R 0/660 1/1758 (0.06%) NS e p.L997F 5/660 (0.8%) 6/1758 (0.3%) NS e p.S1235R 10/660 (1.5%) 18/1758 (1.0%) NS e Total (excluded)* 25/660 (3.8%) 45/1758 (2.6%) NS e CFTR (CF-causing) Total (all) 78/660 (11.8%) 67/1758 (3.8%) <0.0001 3.4 (2.4 to 4.8) CFTR (all) Total (excluded)* 103/660 (15.6%) 112/1758 (6.4%) <0.0001 2.7 (2 to 3.6) The table is divided into three parts.
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ABCC7 p.Arg75Gln 22427236:140:1296
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ABCC7 p.Arg75Gln 22427236:140:1344
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142 *Variants p.R75Q, p.I148T and p.E528E were excluded from calculations because of their similar frequencies in patients and controls.
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ABCC7 p.Arg75Gln 22427236:142:12
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153 *Compound heterozygotes in that variants p.R75Q, p.I148T, 5T-allele, and p.E528E were essential for compound heterozygous status were excluded from calculations.
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ABCC7 p.Arg75Gln 22427236:153:43
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162 p.R254W 1/546 (0.2%) 0/1700 NS e p.L14P p.R254W 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.R254W 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.R254W p.R117H (7T/7T)/ p.R75Q 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.K247_R254del p.E528E* 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.R254W p.E528E* 1/546 (0.2%) 0/1700 NS e c.
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ABCC7 p.Arg75Gln 22427236:162:159
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163 (1-215G>A; 194+2T>C) p.F508del 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.I507Vy 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.S1235Ry 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.R117H (5T/7T) 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.F508del/ p.R117H (7T/9T) 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.F508del/p.E528E 1/660 (0.2%) 1/1758 (0.06%) NS e p.N34S (het) p.F508del/ p.E528E/5T/7T 0/660 1/1758 (0.06%) NS e p.N34S (het) p.R117H (7T/7T) 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.F508del 8/660 (1.2%) 0/1758 <0.0001 45.8 (2.6 to 795.4) p.N34S (het) p.R668Cy 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.S1235Ry 3/660 (0.5%) 0/1758 0.03 18.7 (1 to 363.2) p.N34S (het) p.N1303K 1/660 (0.2%) 0/1758 NS e p.R254W p.R117H (7T/7T)/ c.1717-1G>A 1/546 (0.2%) 0/1700 NS e p.R254W p.R668Cy 0/546 1/1700 (0.06%) NS e p.R254W p.L997Fy 1/546 (0.2%) 0/1700 NS e Total (all) 43/660 (6.5%) 3/1667 (0.2%) <0.0001 38.7 (12 to 125.1) Total (CF-causing) 33/660 (5%) 2/1667 (0.1%) <0.0001 43.8 (10.5 to 183.2) p.N29I p.R75Q 1/660 (0.2%) 0/1758 NS e p.R122C 5T/9T 1/660 (0.2%) 0/1758 NS e p.R122H p.R75Q 2/660 (0.3%) 0/1758 NS e p.R122H 5T/7T 2/660 (0.3%) 0/1758 NS e p.R122H p.E528E 3/660 (0.5%) 0/1758 0.03* 18.7 (1 to 363.2) p.N34S (het)/ c.
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ABCC7 p.Arg75Gln 22427236:163:980
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ABCC7 p.Arg75Gln 22427236:163:1059
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166 (1-215G>A; 194+2T>C) p.E528E 1/660 (0.2%) 0/1758 NS e c.1-53C>T p.R75Q 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.R75Q (hom) 1/660 (0.2%) 0/1758 NS e p.N34S (hom) 5T/7T 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.E528E 2/660 (0.3%) 0/1758 NS e Continued Rosendahl J, Landt O, Bernadova J, et al. Gut (2012).
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ABCC7 p.Arg75Gln 22427236:166:66
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ABCC7 p.Arg75Gln 22427236:166:74
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ABCC7 p.Arg75Gln 22427236:166:111
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ABCC7 p.Arg75Gln 22427236:166:374
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167 doi:10.1136/gutjnl-2011-300645 of 11 Pancreas Table 5 Continued PRSS1 SPINK1 CTRC CFTR Patients Controls p Value OR (95% CI) p.N34S (het) p.R75Q 4/660 (0.6%) 1/1758 (0.06%) 0.03* 10.7 (1.2 to 96.1) p.N34S (het) p.I148T 1/660 (0.2%) 0/1758 NS e p.N34S (het) 5T/7T 5/660 (0.8%) 0/1758 0.002 29.5 (1.6 to 534.8) p.R65Q p.R75Q 1/660 (0.2%) 0/1758 NS e p.R67C p.E528E 1/660 (0.2%) 0/1758 NS e p.G217S p.E528E 0/546 1/1700 (0.06%) NS e To obtain stringent results, the total number of patients (n¼660) was used for calculations of p values, although some of the patients were not completely analysed.
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ABCC7 p.Arg75Gln 22427236:167:142
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ABCC7 p.Arg75Gln 22427236:167:320
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174 In the lower section, trans-heterozygotes with non-CF-causing variants, p.R75Q, p.I148T, 5T-allele and p.E528E, are displayed, which were excluded from calculations because their over-representation is due to accumulation of the concomitant variant (eg, p.N34S) in patients (see Results section) or the CFTR variant displayed similar frequencies in patients and controls (p.R75Q, p.I148T, 5T-allel, and p.E528E).
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ABCC7 p.Arg75Gln 22427236:174:74
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ABCC7 p.Arg75Gln 22427236:174:374
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179 CFTR variants, p.R75Q, p.I148T and p.E528E, were excluded from computations as explained before.
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ABCC7 p.Arg75Gln 22427236:179:17
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183 yCompound and trans-heterozygous carriers with p.R75Q, p.I148T, 5T-allele and p.E528E were excluded as explained before.
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ABCC7 p.Arg75Gln 22427236:183:49
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ABCC7 p.Arg75Gln 22427236:183:61
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192 In contrast with other authors, we excluded CFTR variants p. R75Q, p.I148T, 5T and p.E528E from our calculations, because they were distributed similarly in patients and controls.30 31 Thereby, overall, CFTR variants displayed a 2.7-fold risk increase for CP development.
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ABCC7 p.Arg75Gln 22427236:192:61
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216 In a recent study, trans-heterozygosity for SPINK1 p.N34S with CFTR p.R75Q was reported to increase CP risk.31 We also demonstrate a significant accumulation of p. N34S/p.R75Q trans-heterozygotes in patients (6/660, 0.9% vs controls 1/1758, 0.06%), and the data seem to portend an association for the combination of p.N34S with CFTR 5T-allele and p.E528E also.
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ABCC7 p.Arg75Gln 22427236:216:70
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ABCC7 p.Arg75Gln 22427236:216:171
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220 Frequencies of p.R75Q in patients and controls carrying p.N34S were 6/109 (5.5%) and 1/26 (3.9%), respectively (p¼1.0).
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ABCC7 p.Arg75Gln 22427236:220:17
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69 The following CFTR variants were analysed with specific FRET probes: p.E60X, p.R75Q, p.G85E, p.R117H, p.I148T, c.621 +1G>T (IVS4+1G>T), c.711+1G>T (IVS5+1G>T), c.1078delT, p.R334W, p.R347P, 9-13TG, 5-9T, p.A455E, p.M470V, p.F508del, c.1716G>A (p.E528E), c.1717-1G>A (IVS10-1G>A), p.G542X, p.S549N, p.R553X, p.R560T, c.1898+1G>A (IVS12 +1G>A), c.2143delT, c.2183AA>G, c.2562T>G, c.2657+5G>A (IVS14B+5G>A), p.L997F, p.I1005R, p.Y1092X, p.D1152H, p.R1162X, c.3659delC, p.S1235R, p.S1251N, p.W1282X, p.N1303K, and c.4389G>A.
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ABCC7 p.Arg75Gln 22427236:69:79
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77 We excluded CFTR variants p.R75Q, p.I148T, the poly-T tract and p.E528E, PRSS1 variant p.S124F, SPINK1 variants c.1-52G>T and p.P55S, and CTRC variants p.R37Q, p.K151N and p.K172E from all calculations, because of missing functional data or a missing genetic association.
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ABCC7 p.Arg75Gln 22427236:77:28
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107 Except one (p.R117H (7T/7T)/p. S1235), these compound heterozygotes were excluded in the overall computations, because CFTR variant p.R75Q, p.I148T, 5T or p.E528E was present in at least one allele.
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ABCC7 p.Arg75Gln 22427236:107:134
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112 In addition, 24/660 (3.6%) patients and 2/1700 (0.1%) controls were trans-heterozygotes in that CFTR variants p.R75Q, p.I148T, 5T and p.E528E were essential for trans-heterozygous status (p<0.0001, OR 30.8, 95% CI 7.3 to 131).
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ABCC7 p.Arg75Gln 22427236:112:112
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118 In these cases, the over-representation is also most probably due to the strengthening of p.R122H (PRSS1) and p.N34S (SPINK1) as shown for CFTR p.R75Q (see below).
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ABCC7 p.Arg75Gln 22427236:118:146
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120 SPINK1 variant p.N34S (heterozygous and homozygous) was found in combination with CFTR variants p.R75Q (heterozygous and homozygous) in 6/660 patients (0.9%), with 5T in Table 1 Distribution of SPINK1, CTRC and PRSS1 variants in patients and controls Gene Variant Patients Controls p Value OR (95% CI) PRSS1 p.A16V 14/660 (2.1%) 0/1758 <0.0001 78.9 (4.7 to 1325) p.N29I 8/660 (1.2%) 0/1758 <0.0001 45.8 (2.6 to 795.4) p.N29T 1/660 (0.2%) 0/1758 NS e p.R116C 2/660 (0.3%) 0/1758 NS e p.R122C 5/660 (0.8%) 0/1758 0.002 29.5 (1.6 to 534.8) p.R122H 25/660 (3.8%) 0/1758 <0.0001 141.1 (8.6 to 2323) p.S124F* 1/660 (0.2%) 0/1758 NS e Total 55/660 (8.3%) 0/1758 <0.0001 322.4 (19.8 to 5230) SPINK1 c.
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ABCC7 p.Arg75Gln 22427236:120:98
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125 Pancreas Gut 2013;62:582-592. doi:10.1136/gutjnl-2011-300645 8/660 patients (1.2%), and with p.E528E (heterozygous and homozygous) in 6/660 patients (0.9%) compared with 1/1758 (0.06%) controls for combination with p.R75Q and 5T, and 2/ 1758 controls (0.1%) for combination with p.E528E (p.R75Q: p&#bc;0.002, OR 16.1, 95% CI 1.92 to 134; 5T: p&#bc;0.0002, OR 21.6, 95% CI 2.7 to 172.8; p.E528E: p&#bc;0.008, OR 8, 95% CI 1.6 to 40).
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ABCC7 p.Arg75Gln 22427236:125:219
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ABCC7 p.Arg75Gln 22427236:125:292
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127 Thereafter, no significant association was obtained (p.R75Q: 6/109 patients, 5.5%, 1/26 controls, 3.9%, p&#bc;1.0; 5T: 8/109 patients, 7.3%, 1/26 controls, 3.9%, p&#bc;1.0; p.E528E: 6/109 patients, 5.5%, 2/26 controls, 7.7%, p&#bc;0.7).
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ABCC7 p.Arg75Gln 22427236:127:55
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128 In contrast, 6/31 (19.4%) patients with p.R75Q also carried p.N34S, whereas only 1/60 (1.7%) of controls with p.R75Q showed the p.N34S variant, representing the data expected in patients and controls.
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ABCC7 p.Arg75Gln 22427236:128:42
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ABCC7 p.Arg75Gln 22427236:128:112
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129 On analysis of about 200 parents for CFTR, p.R75Q was found to pass from one parent to the child in 6/13 cases (46%) only, which further underlines that this variant most likely does not contribute to disease pathogenesis.
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ABCC7 p.Arg75Gln 22427236:129:45
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135 Variant distribution in patients aged >20 and <20 years In younger patients, overall PRSS1 variants were 2.9-fold more common (>20 years: 9/239, 3.8%; <20 years: 46/421, 10.9%; p&#bc;0.001, OR 3.1, 95% CI 1.5 to 6.5), whereas overall SPINK1 variants were similarly distributed (56/239, 23.4%; 73/421, Table 2 CFTR variants detected by melting curve analysis Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing, severe) p.F508del 44/660 (6.7%) 48/1758 (2.7%) <0.0001 2.5 (1.7 to 3.9) p.R117H (5T/7T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.G542X 1/660 (0.2%) 1/1758 (0.06%) NS e c.1717-1G>A 3/660 (0.5%) 1/1758 (0.06%) NS e p.E585X 0/660 1/1758 (0.06%) NS e c.2183AA>G 0/660 1/1758 (0.06%) NS e p.R1158X 1/660 (0.2%) 0/1758 NS e p.R1162X 1/660 (0.3%) 0/1758 NS e p.N1303K 3/660 (0.5%) 0/1758 NS e Total 55/660 (8.3%) 53/1758 (3%) <0.0001 2.9 (2 to 4.3) CFTR (CF-causing mild) p.R117H (7T/7T) 13/660 (2%) 8/1758 (0.5%) 0.0009 4.4 (1.8 to 10.7) p.R117H (7T/9T) 3/660 (0.5%) 1/1758 (0.06%) NS e p.R347H 1/660 (0.2%) 0/1758 NS e p.R347P 1/660 (0.2%) 0/1758 NS e p.A455E 1/660 (0.2%) 0/1758 NS e c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.D1152H 3/660 (0.5%) 5/1758 (0.3%) NS e Total 23/660 (3.5%) 14/1758 (0.8%) <0.0001 4.5 (2.3 to 8.8) CFTR (non CF-causing) p.R74Q 2/660 (0.3%) 0/1758 NS e p.R75Q (het)* 29/660 (4.4%) 59/1758 (3.4%) NS e p.R75Q (hom)* 2/660 (0.3%) 1/1758 (0.06%) NS e p.Y84H 0/660 1/1758 (0.06%) NS e p.A120T 0/660 1/1758 (0.06%) NS e p.I148T* 4/660 (0.6%) 11/1758 (0.6%) NS e p.I507V 1/660 (0.2%) 2/1758 (0.1%) NS e p.F508C 1/660 (0.2%) 0/1758 NS e c.1716+12T>C 0/660 1/1758 (0.06%) NS e p.E528E (het)* 36/660 (5.5%) 82/1758 (4.7%) NS e p.E528E (hom)* 0/660 2/1758 (0.1%) NS e c.1898+8C>G 0/660 1/1758 (0.06%) NS e p.H667Y 1/660 (0.2%) 0/1758 NS e p.R668C 5/660 (0.8%) 3/1758 (0.2%) NS e p.G691R 0/660 1/1758 (0.06%) NS e p.L997F 5/660 (0.8%) 6/1758 (0.3%) NS e p.S1235R 10/660 (1.5%) 18/1758 (1.0%) NS e Total (excluded)* 25/660 (3.8%) 45/1758 (2.6%) NS e CFTR (CF-causing) Total (all) 78/660 (11.8%) 67/1758 (3.8%) <0.0001 3.4 (2.4 to 4.8) CFTR (all) Total (excluded)* 103/660 (15.6%) 112/1758 (6.4%) <0.0001 2.7 (2 to 3.6) The table is divided into three parts.
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ABCC7 p.Arg75Gln 22427236:135:1295
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ABCC7 p.Arg75Gln 22427236:135:1343
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137 *Variants p.R75Q, p.I148T and p.E528E were excluded from calculations because of their similar frequencies in patients and controls.
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ABCC7 p.Arg75Gln 22427236:137:12
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147 *Compound heterozygotes in that variants p.R75Q, p.I148T, 5T-allele, and p.E528E were essential for compound heterozygous status were excluded from calculations.
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ABCC7 p.Arg75Gln 22427236:147:43
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155 p.R254W 1/546 (0.2%) 0/1700 NS e p.L14P p.R254W 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.R254W 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.R254W p.R117H (7T/7T)/ p.R75Q 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.K247_R254del p.E528E* 1/546 (0.2%) 0/1700 NS e p.N34S (het) p.R254W p.E528E* 1/546 (0.2%) 0/1700 NS e c.
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ABCC7 p.Arg75Gln 22427236:155:159
status: NEW
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156 (1-215G>A; 194+2T>C) p.F508del 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.I507Vy 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.S1235Ry 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.R117H (5T/7T) 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.F508del/ p.R117H (7T/9T) 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.F508del/p.E528E 1/660 (0.2%) 1/1758 (0.06%) NS e p.N34S (het) p.F508del/ p.E528E/5T/7T 0/660 1/1758 (0.06%) NS e p.N34S (het) p.R117H (7T/7T) 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.F508del 8/660 (1.2%) 0/1758 <0.0001 45.8 (2.6 to 795.4) p.N34S (het) p.R668Cy 1/660 (0.2%) 0/1758 NS e p.N34S (het) p.S1235Ry 3/660 (0.5%) 0/1758 0.03 18.7 (1 to 363.2) p.N34S (het) p.N1303K 1/660 (0.2%) 0/1758 NS e p.R254W p.R117H (7T/7T)/ c.1717-1G>A 1/546 (0.2%) 0/1700 NS e p.R254W p.R668Cy 0/546 1/1700 (0.06%) NS e p.R254W p.L997Fy 1/546 (0.2%) 0/1700 NS e Total (all) 43/660 (6.5%) 3/1667 (0.2%) <0.0001 38.7 (12 to 125.1) Total (CF-causing) 33/660 (5%) 2/1667 (0.1%) <0.0001 43.8 (10.5 to 183.2) p.N29I p.R75Q 1/660 (0.2%) 0/1758 NS e p.R122C 5T/9T 1/660 (0.2%) 0/1758 NS e p.R122H p.R75Q 2/660 (0.3%) 0/1758 NS e p.R122H 5T/7T 2/660 (0.3%) 0/1758 NS e p.R122H p.E528E 3/660 (0.5%) 0/1758 0.03* 18.7 (1 to 363.2) p.N34S (het)/ c.
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ABCC7 p.Arg75Gln 22427236:156:980
status: NEW
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ABCC7 p.Arg75Gln 22427236:156:1059
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159 (1-215G>A; 194+2T>C) p.E528E 1/660 (0.2%) 0/1758 NS e c.1-53C>T p.R75Q 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.R75Q (hom) 1/660 (0.2%) 0/1758 NS e p.N34S (hom) 5T/7T 1/660 (0.2%) 0/1758 NS e p.N34S (hom) p.E528E 2/660 (0.3%) 0/1758 NS e Continued Table 5 Continued PRSS1 SPINK1 CTRC CFTR Patients Controls p Value OR (95% CI) p.N34S (het) p.R75Q 4/660 (0.6%) 1/1758 (0.06%) 0.03* 10.7 (1.2 to 96.1) p.N34S (het) p.I148T 1/660 (0.2%) 0/1758 NS e p.N34S (het) 5T/7T 5/660 (0.8%) 0/1758 0.002 29.5 (1.6 to 534.8) p.R65Q p.R75Q 1/660 (0.2%) 0/1758 NS e p.R67C p.E528E 1/660 (0.2%) 0/1758 NS e p.G217S p.E528E 0/546 1/1700 (0.06%) NS e To obtain stringent results, the total number of patients (n&#bc;660) was used for calculations of p values, although some of the patients were not completely analysed.
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ABCC7 p.Arg75Gln 22427236:159:66
status: NEW
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ABCC7 p.Arg75Gln 22427236:159:111
status: NEW
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ABCC7 p.Arg75Gln 22427236:159:342
status: NEW
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ABCC7 p.Arg75Gln 22427236:159:520
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171 CFTR variants, p.R75Q, p.I148T and p.E528E, were excluded from computations as explained before.
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ABCC7 p.Arg75Gln 22427236:171:17
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175 yCompound and trans-heterozygous carriers with p.R75Q, p.I148T, 5T-allele and p.E528E were excluded as explained before.
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ABCC7 p.Arg75Gln 22427236:175:49
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206 In a recent study, trans-heterozygosity for SPINK1 p.N34S with CFTR p.R75Q was reported to increase CP risk.31 We also demonstrate a significant accumulation of p. N34S/p.R75Q trans-heterozygotes in patients (6/660, 0.9% vs controls 1/1758, 0.06%), and the data seem to portend an association for the combination of p.N34S with CFTR 5T-allele and p.E528E also.
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ABCC7 p.Arg75Gln 22427236:206:70
status: NEW
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ABCC7 p.Arg75Gln 22427236:206:171
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210 Frequencies of p.R75Q in patients and controls carrying p.N34S were 6/109 (5.5%) and 1/26 (3.9%), respectively (p&#bc;1.0).
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ABCC7 p.Arg75Gln 22427236:210:17
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PMID: 22423042 [PubMed] Gonska T et al: "Role of Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) in patients with chronic sinopulmonary disease."
No. Sentence Comment
66 All P values are two-sided with a Table 2-CFTR Genotypes Identified in Subjects With Idiopathic Sinopulmonary Disease CF Causing/CF Causing CF Causing/CFTR Mutation CFTR Mutation/CFTR Mutation CF Causing/Unknown CFTR Mutation/Unknown F508del/A455E 3x F508del /D1152H 2x D579G/D579G 2x F508del /26x R764X/2 F508del/S1251N R75X/V456A 758delC/2 F508del/L967S 1716G.A/5T 1716G.A/2 F508del/5T R75Q/5T R117H (7T)/23x F508del/3212T.C 5T/23x G542X/D1152H 1717-1G.A/Q1291H Patients are grouped according to the identified CFTR alterations on allele 1/allele 2.
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ABCC7 p.Arg75Gln 22423042:66:388
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PMID: 21837768 [PubMed] Lukowski SW et al: "Disrupted post-transcriptional regulation of the cystic fibrosis transmembrane conductance regulator (CFTR) by a 5'UTR mutation is associated with a CFTR-related disease."
No. Sentence Comment
265 Also, heterozygosity for other CFTR mutations, such as ∆F508, R117H and R75Q, has been linked to the development of CBAVD and bronchiectasis [Wilschanski, et al., 2006; Ziedalski, et al., 2006].
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ABCC7 p.Arg75Gln 21837768:265:79
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PMID: 21844754 [PubMed] LaRusch J et al: "Genetics of pancreatitis."
No. Sentence Comment
60 A recent study from the NAPS2 consortium and the Pittsburgh Hereditary Pancreatitis Study, published in Gastroenterology in January 2011, demonstrated that the CFTR R75Q variant increased risk for chronic pancreatitis but does not increase risk for lung disease [18 ].
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ABCC7 p.Arg75Gln 21844754:60:165
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61 Analysis of both familial and sporadic nonalcoholic pancreatitis cases identified both F508del and R75Q as the most frequent CFTR variants over-represented in patients.
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ABCC7 p.Arg75Gln 21844754:61:99
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62 Functional studies also demonstrated that the R75Q variant specifically disrupted bicarbonate but not chloride secretion.
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ABCC7 p.Arg75Gln 21844754:62:46
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PMID: 22439061 [PubMed] Mesoraca A et al: "The use of DHPLC (Denaturing High Performance Liquid Chromatography) in II level screening of the CFTR gene in Prenatal Diagnosis."
No. Sentence Comment
80 Through the use of DHPLC, all the exonic regions of the CFTR gene were analysed and through the technique 44 of the 53 couples were found to be negative, while for 9 couples, 9 rare mutations were identified which were not revealed in I level screening: R1066C, L1065P, L1077P (exon 17b), A1006E (exon 19), R75Q (exon 3), D537E (exon 11), W1134X (exon 18), R1145X (exon 18), C524X (exon 11).
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ABCC7 p.Arg75Gln 22439061:80:307
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100 48 Journal of Prenatal Medicine 2010; 4 (3): 45-50 Table III Mutations found with II level screening through DHPLC Mutations of mutated alleles DF508 29 W1282X 3 N1303K 8 1717-1G®A 2 3659delC 1 G85E 1 2789 +5G®A 2 R553X 2 R1162X 1 R117H 1 G542X 3 Total 53Table I Mutations found through I level screeningMutations analysed with I level screening through OLA CFTR Mutations Position on the CFTR gene DF508 Exon 10 3849+10KbC®T Intron 19 R334W Exon 7 W1282X Exon 10 V520F Exon 10 3905insT Exon 20 N1303K Exon 21 3876delA Exon 20 1717-1G®A Exon 11 3659delC Exon 19 DI507 Exon 10 A455E Exon 9 G85E Exon 3 2789 +5G®A Exon 14 / Intron 14 2183AA®G Exon 13 1898+1G®A Exon 12 / Intron 12 R347P Exon 7 R347H Exon 7 R560T Exon 11 1078delT Exon 7 R553X Exon 11 711+1G®T Exon 5 / Intron 5 G551D Exon 11 R1162X Exon 19 S549R Exon 11 R117H Exon 4 S549N Exon 11 621+1G®T Exon 4 G542X Exon 11 394delTT Exon 3 3120+1G®ðA Exon 16/ Intron 16 2184delA Exon 13 Table II Mutations found through I level screening Mutations Positions on CFTR gene R1066C Exon 17 b L1065P Exon 17 b A1006E Exon 19 R75Q Exon 3 D537E Exon 11 W1134X Exon 18 W1145X Exon 18 L1077P Exon 17b C524X Exon 11 Total 9 The use of DHPLC (Denaturing High Performance Liquid Chromatography) in II level screening of the CFTR gene in Prenatal Diagnosis Journal of Prenatal Medicine 2010; 4 (3): 45-50 49 tion was to provide the couple with adequate counselling in order to better understand the genotype-phenotype correlation in the various associations of mutations.
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ABCC7 p.Arg75Gln 22439061:100:1117
status: NEW
X
ABCC7 p.Arg75Gln 22439061:100:1127
status: NEW
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PMID: 18467194 [PubMed] Frentescu L et al: "The study of cystic fibrosis transmembrane conductance regulator gene mutations in a group of patients from Romania."
No. Sentence Comment
64 Four common polymorphisms were detected (5T allele with 4% frequency, 2694T/G, 3030G/A, and R75Q), and a specific polymorphism in three Romanian patients in exon 13 was noted, namely 2377C/T.
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ABCC7 p.Arg75Gln 18467194:64:92
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PMID: 18687795 [PubMed] Audrezet MP et al: "Validation of high-resolution DNA melting analysis for mutation scanning of the cystic fibrosis transmembrane conductance regulator (CFTR) gene."
No. Sentence Comment
51 Sequences of the Primers Used for CFTR Analysis by HRM, GC Size, Amplicon Length, Number of Positive Controls Validated for Each Exon, and Positive Controls for Routine Analysis Exon Primer Sequences GC length Amplicon length (bp) Introns Number of heterozygous- positive controls Number of homozygous- positive controls Recommended control 1 LSCFE1Fmod 5Ј-CCGCCGCCGTTGAGCGGCAGGCACC-3Ј 8 200 bp 74 4 125GϾC LSCFE1Rmod 5Ј-CCGCCGCCGGCACGTGTCTTT CCGAAGCT-3Ј 8 19 M1I 2 2i5b 5Ј-CAAATCTGTATGGAGACC-3Ј 0 194 bp 39 5 R31C 2i3Љ 5Ј-CAACTAAACAATGTACATGAAC-3Ј 0 4 296ϩ1GϾT 3 LSCFe3Fmod LSCFe3Rmod 5Ј-CGCCGTTAAGGGAAATAGGACAA CTAAAATA-3Ј 5 276 bp 44 10 2 R75Q 5Ј-CCGCCGATTCACCAGATTTCGTAGTC-3Ј 6 66 G85V 4 LSCFe4FmodC 5Ј-CCGCCGCCGCCCGTGTTGAAATT CTCAGGGT-3Ј 12 361 bp 52 14 1 R117H LSCFe4RmodC 5Ј-CCGCCGCCCACATGTACGATAC AGAATATATGTGCC-3Ј 9 26 574delA 5 LSCFE5Fmod 5Ј-CCGCCGGTTGAAATTATCTAACTTTCC-3Ј 6 201 bp 13 8 624delT LSCFE5Rmod 5Ј-CCGAACTCCGCCTTTCCAGTTGT-3Ј 3 48 711ϩ1GϾT 6a LSCF6aFmod2 5Ј-CCGCCGGGGTGGAAGAT ACAATGACACCTG-3Ј 5 317 bp 25 8 C225X LSCF6aRmod2 5Ј-CCGCCGCCGCGATGCATAGAG CAGTCCTGGTT-3Ј 11 66 L206W 6b LSCFE6bFmod 5Ј-CGCGCCGCCGGATTTAC AGAGATCAGAGAG-3Ј 10 239 bp 0 2 1 R258G LSCFE6Brmod 5Ј-CCGCCGCCGAGGTGGA GTCTACCATGA-3Ј 8 66 1001ϩ11CϾT 7 LSCFE7Fmod2 5Ј-CCGCCGCCCTCTCCCTGAATTT TATTGTTATTGTTT-3Ј 13 326 bp 7 11 1078delT LSCFE7Rmod2 5Ј-CCCGCCGCCCTATAATGCAG CATTATGGT-3Ј 10 7 1248ϩ1GϾT 8 LSCFE8Fmod 5Ј-CCGGAATGCATTAATGCTAT TCTGATTC-3Ј 4 199 bp 32 7 W401X LSCFE8Rmod 5Ј-CCCGCAGTTAGGTGTTTAG AGCAAACAA-3Ј 4 18 1249-5AϾG 9 LSCFe9Fmod2 5Ј-CCGCCGCCGGGAATTATTTGAGAA AGCAAAACA-3Ј 8 279 bp 0 3 D443Y LSCFe9Rmod2 5Ј-CCGCCGCGAAAATACCTTCCAG CACTACAAACTAGAAA-3Ј 8 57 A455E 10 LSCF10FmodD 5Ј-CGCCGTTATGGGAGAACTGG AGCCTTCAGAG-3Ј 5 275 bp 0 15 1 F508del LSCF10RmodD 5Ј-CCGCAGACTAACCGATTGAAT ATGGAGCC-3Ј 4 68 E528E 11 h11i5 5Ј-TGCCTTTCAAATTCAGATTGAGC-3Ј 0 197 bp 42 13 2 G542X 11i3ter 5Ј-ACAGCAAATGCTTGCTAGACC-3Ј 0 17 G551D 12 LSCFE12Fmod 5Ј-CGCGTCATCTACACTAGATGACCAG-3Ј 4 244 bp 43 15 G576A 1898 ϩ 1GϾALSCFE12Rmod 5Ј-CCGGAGGTAAAATGCAATCTATGATG-3Ј 3 63 13 LSCF13AFmod 5Ј-CCGCCGCCGGAGACATATTG CAATAAAGTAT-3Ј 9 38 20 I601F LSCF13ARmod 5Ј-GCCTGTCCAGGAGACAGGA GCATCTC-3Ј 2 R668C LSCF13BFmod 5Ј-CCGCCGCAATCCTAACTGAG ACCTTACACCG-3Ј 2 R668C LSCF13BRmod 5Ј-CCGCCGATCAGGTTCAGGA CAGACTGC-3Ј 3 346 bp 2184insA LSCF13CFmod 5Ј-CCGCGGTGATCAGCACTGGCCC-3Ј 6 301 bp 77 L749L LSCF13CRmod 5Ј-CCGCGCGCGCGGCCAGTTTCTTG AGATAACCTTCT-3Ј 13 259 bp V754M LSCF13DFmod 5Ј-CGTGTCACTGGCCCCTCAGGC-3Ј 1 221 bp I807M LSCF13DRmof 5Ј-CCGCCGCCGCTAATCCTATGA TTTTAGTAAAT-3Ј 9 220 bp 2622ϩ1GϾA LSCf13FFmod 5Ј-CGCGGTGCAGAAAGAAGAAAT TCAATCCTAACTG-3Ј 4 R668C LSCF13FRmod 5Ј-CCGCCGTGCCATTCATTTGT AAGGGAGTCT-3Ј 6 2184insA 14a LSCF14aFmodB 5Ј-CCGACCACAATGGTGGCAT GAAACTG-3Ј 3 239 bp 35 7 1 T854T LSCF14aRmodB 5Ј-CCGCCGACTTTAAATCCAGTAAT ACTTTACAATAGAACA-3Ј 6 7 W846X 14b LSCF14bFmod 5Ј-CCGGAGGAATAGGTGAAGAT-3Ј 2 179 bp 38 4 2752-5GϾT LSCF14bRmodb 5Ј-CCGTACATACAAACATAGTGGATT-3Ј 3 59 2789ϩ5GϾT 15 LSCFE15Fmod 5Ј-CGCGCCGTGTATTGGAAA TTCAGTAAGTAACTTTGG-3Ј 7 412 bp 33 16 T908S LSCFE15Rmod 5Ј-CCGCAGCCAGCACTGCCAT TAGAAA-3Ј 4 68 S945L (table continues) phisms that we have chosen to exclude.
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ABCC7 p.Arg75Gln 18687795:51:726
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75 In addition to heterozygous variants, 10 homozygote samples carrying F508del, 394delT, R117H, G542X, S549R, 4016inT homozygous mutations, and R75Q, T854T, 1001ϩ11 CϾT, and Q1463Q homozygous variants, were also tested.
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ABCC7 p.Arg75Gln 18687795:75:142
status: NEW
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76 Only mutations 394delT, R117H, G542X, 4016insT, and variants R75Q and 1001ϩ11 CϾ T provided positive results (Figure 5).
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ABCC7 p.Arg75Gln 18687795:76:61
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171 Results of CFTR Analysis by HRM on 136 Samples of Patients with Idiopathic Chronic Pancreatitis (ICP) Exon Number of positive samples Mutations identified Variants identified New positive controls 1 14 14 125GϾC 2 1 1 R31C 3 9 1 G85E 7 R75Q 1 R74W 4 4 1 R117G 1 I148T R117G 1 R117H 1 A120T 5 1 1 L188P L188P 6a 5 1 V201M 1 A221A A221A 3 875ϩ40 AϾG 6b 27 1 M284T 26 1001ϩ11CϾT M284T 7 1 1 L320V L320V 8 0 0 9 1 1 D443Y 10 16 8 F508del 8 E528E 11 1 1 G542X 12 6 4 G576A 1 Y577Y L568F 1 L568F 13 7 1 S737F 4 R668C S737F 1 V754M L644L 1 L644L 14a 53 52 T854T T854TϩI853I 1 T854TϩI853I 14b 0 0 15 3 1 L967S T908S 1 T908S 1 S945L 16 0 0 17a 10 7 L997F 1 3271ϩ18CϾT 3271 ϩ 3AϾG 1 3271 ϩ 3 AϾG 1 Y1014C 17b 3 1 L1096L L1096L 1 H1054DϩG1069R 1 3272-33AϾG H1054DϩG1069R 3272-33AϾG 18 2 1 D1152H E1124del 1 E1124del 19 5 5 S1235R poly 20 7 1 W1282X 5 P1290P 1 D1270N 21 2 1 N1303K 1 T1299T 22 0 0 23 1 0 4374ϩ13 AϾG 24 43 40 Q1463Q 2 Y1424Y 1 Q1463QϩY1024Y ing domain of a gene brings an excellent sensitivity for heterozygote detection that is very close to 100%.
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ABCC7 p.Arg75Gln 18687795:171:242
status: NEW
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PMID: 17716958 [PubMed] Shastri SS et al: "Characterisation of mutations and genotype-phenotype correlation in cystic fibrosis: experience from India."
No. Sentence Comment
6 In addition, c.3849+10 kb CNT, c.1161delC, and p.S549N were identified in two patients each and p. R352Q, p.R1158X and p.R75Q were identified in one patient each.
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ABCC7 p.Arg75Gln 17716958:6:121
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82 SSCP/HA SSCP/HA identified at least one mutation in exons 3, 4, 7, 11 and 19 viz. p.R75Q in exon 3, p.G149X in exon 4, c.1161delC, p.R352Q and c.1002-7_1002-5delTTT in exon 7, p.S549N in exon 11 and p.R1158X in exon 19.
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ABCC7 p.Arg75Gln 17716958:82:84
status: NEW
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PMID: 15463907 [PubMed] Divac A et al: "High frequency of the R75Q CFTR variation in patients with chronic obstructive pulmonary disease."
No. Sentence Comment
0 High frequency of the R75Q CFTR variation in patients with chronic obstructive pulmonary disease Aleksandra Divaca , Aleksandra Nikolica , Marija Mitic-Milikicb , Ljudmila Nagorni-Obradovicb , Natasa Petrovic-Stanojevicc , Vesna Dopudja-Panticc , Ruzica Nadaskicd , Ana Savica , Dragica Radojkovica,* a Institute of Molecular Genetics and Genetic Engineering, Vojvode Stepe 444A, 11000 Belgrade, Serbia and Montenegro b Institute for Tuberculosis and Lung Disease, University Clinical Center of Serbia, Belgrade, Serbia and Montenegro c Department of Pulmonology, University Clinical Center Zvezdara, Belgrade, Serbia and Montenegro d Department of Pulmonology, University Clinical Center Zemun, Belgrade, Serbia and Montenegro Received 24 March 2004; accepted 17 May 2004 Available online 25 July 2004 Abstract We performed the complete screening of the CFTR gene in a group of 31 patients with COPD in order to investigate the impact of mutations and polymorphisms in the CFTR gene.
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ABCC7 p.Arg75Gln 15463907:0:22
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2 The R75Q was significantly overrepresented in COPD patients (8.06%; P= 0.002).
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ABCC7 p.Arg75Gln 15463907:2:4
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3 In all patients carrying the R75Q chronic bronchitis was a dominant symptom of COPD, and all were homozygous for the V470 allele.
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ABCC7 p.Arg75Gln 15463907:3:29
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4 These findings suggest that R75Q mutation could be characteristic CFTR variant for COPD patients.
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ABCC7 p.Arg75Gln 15463907:4:28
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6 Keywords: Chronic obstructive pulmonary disease (COPD); CFTR; R75Q 1.
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ABCC7 p.Arg75Gln 15463907:6:62
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39 Six different mutations (R75Q, F508del, G126D, L997F, F1052V, R74W) were identified on 11 (17.74%) of the 62 chromosomes, giving a significantly higher frequency than in our general population ( P < 0.0001, 95%CI: 2.60-36.21).
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ABCC7 p.Arg75Gln 15463907:39:25
status: NEW
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44 Only the gene variant R75Q stood out as the most frequent one (5/62 chromosomes, 8.06%).
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ABCC7 p.Arg75Gln 15463907:44:22
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45 R75Q is a consequence of a nucleotide change from guanine to adenine at the position 356 in CFTR gene, which leads to an amino acid change from arginine to glutamine.
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ABCC7 p.Arg75Gln 15463907:45:0
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47 Although Zielinski initially reported R75Q as a DNA variant [17], it is possible that it represents a mild CFTR mutation.
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ABCC7 p.Arg75Gln 15463907:47:38
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49 The frequency of R75Q in COPD patients was significantly higher than in Serbian general population ( P= 0.002, 95%CI: 2.15-55.63).
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ABCC7 p.Arg75Gln 15463907:49:17
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50 In all patients carrying the R75Q, CB was a dominant symptom of COPD, they were all non-smokers, and their FEV1 values were below 50% of predicted.
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ABCC7 p.Arg75Gln 15463907:50:29
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52 Several groups have reported R75Q in patients with DB (1/23 patients in Italian patients with DB [6], 4/32 French DB patients [8]), CBAVD (4/37 Slovenian CBAVD patients [9]), CP (2/20 German CP patients [10]), and asthma (1/20 Greek asthma patients [7]).
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ABCC7 p.Arg75Gln 15463907:52:29
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54 R75Q was the most frequent, but not with significantly higher frequency, in the group of patients with DB (2/38 chromosomes).
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ABCC7 p.Arg75Gln 15463907:54:0
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56 As far as we know these are the first findings observing the increased frequency of R75Q mutation in patients with COPD having CB as a dominant symptom.
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ABCC7 p.Arg75Gln 15463907:56:84
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58 Also, it would be interesting to investigate functional consequences of R75Q alone, as well as a possible synergistic effect of R75Q and V470 allele.
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ABCC7 p.Arg75Gln 15463907:58:72
status: NEW
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ABCC7 p.Arg75Gln 15463907:58:128
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59 Table 1 CFTR genotypes in COPD patients No. of cases CFTR gene mutation IVS8 Tn M470V genotype 1 R75Q/R75Q 7/7 V470/V470 1 L997F/R75Q 7/9 V470/V470 2 R75Q/- 7/7 V470/V470 1 F508del/- 7/9 M470/V470 1 F508del/- 5/9 M470/M470 1 G126D/- 7/9 M470/M470 1 F1052V/- 7/7 M470/V470 1 R74W/- 7/7 M470/M470 2 -/- 5/7 V470/V470 3 -/- 5/7 M470/V470 1 -/- 5/7 M470/M470 1 -/- 5/9 M470/V470 3 -/- 7/9 M470/V470 6 -/- 7/7 V470/V470 4 -/- 7/7 M470/V470 -/- 7/7 M470/M470 A. Divac et al. / Journal of Cystic Fibrosis 3 (2004) 189-191190 Acknowledgements This work was supported by grant 1417 from Ministry for Science, Technologies and Development of Serbia.
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ABCC7 p.Arg75Gln 15463907:59:97
status: NEW
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ABCC7 p.Arg75Gln 15463907:59:102
status: NEW
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ABCC7 p.Arg75Gln 15463907:59:129
status: NEW
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ABCC7 p.Arg75Gln 15463907:59:150
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PMID: 12127423 [PubMed] Girodon E et al: "Cystic fibrosis transmembrane conductance regulator (CFTR) gene defects in patients with primary sclerosing cholangitis."
No. Sentence Comment
74 N782K, a new missense mutation (C-to-A transversion at nucleotide 2478), is located in exon 13, generates an ApoI restriction site, and putatively E. Girodon et al. / Journal of Hepatology 37 (2002) 192-197 193 E.Girodonetal./JournalofHepatology37(2002)192-197194 Table 1 Clinical status and CFTR genotype in PSC patientsa Patient Gender Age (years) at onset IBD Episode(s) of acute cholangitis Cirrhosis and/or portal hypertension Cholangiocarcinoma Liver transplantation CFTR mutations TGmTn genotype Other sequence variations 1 F 37 UC Yes Yes Yes (67) No N782K/- 12-7/11-7 M470V 2 M 8 No No Yes No Yes (18) D1270N/- 11-9/11-7 M470V 3 M 27 No Yes No No No L997F/- 11-7/11-7 V470V 4 M 58 Crohn Yes No No Yes (65) S1235R/- 11-7/12-7 M470V 5 F 17 Unclassified No No No No 10-7/11-5 M470M 6 F 43 Crohn Yes Yes No Yes (46) 10-7/11-5 M470M 7 F 58 UC Yes Yes Yes (58) No 10-7/11-7 M470V,R75Q,406-13T/C 8 M 32 Crohn Yes Yes No Yes (38) 11-7/11-7 V470V, R75Q 9 F 41 UC No No No Yes (48) 10-7/11-7 M470V, 1716G/A 10 M 23 No No No No No 12-7/10-7 M470M, 1715-12T/C 11 F 55 Crohn No No No No 11-9/12-7 M470M 12 M 39 Unclassified Yes No No No 10-7/11-7 M470M 13 M 45 No No No No No 9-9/11-7 M470V 14 M 23 UC No No No Yes (23) 10-9/11-7 M470M 15 M 20 No Yes Yes No Yes (29) 10-9/10-7 M470M 16 M 17 Crohn No Yes No Yes (47) 11-9/11-7 M470V 17 M 43 Unclassified Yes No No No 11-9/11-7 M470V 18 M 47 No No No No No 11-9/10-7 M470M 19 M 42 Crohn Yes No No No 11-7/11-7 V470V 20 M 31 Crohn Yes No No Yes (34) 10-7/11-7 M470V 21 M 16 Crohn No No No No 10-7/12-7 M470V 22 M 56 No Yes Yes No No 11-7/11-7 V470V 23 F 47 No Yes No Yes (54) No 11-7/12-7 M470V 24 F 19 Crohn No No Yes (29) No 10-7/12-7 M470M 25 M 35 UC Yes No No No 11-7/12-7 M470V 26 M 31 UC No Yes Yes (45) Yes (45) 11-7/12-7 V470V 27 F 52 Crohn Yes Yes No Yes (56) 10-7/11-7 M470V 28 F 55 Crohn No No No No 10-9/11-7 M470V 29 F 43 NA No No Yes (43) No 11-7/11-7 V470V a IBD, inflammatory bowel disease; UC, ulcerative colitis; NA, non-available; and age (years) at diagnosis of cholangicarcinoma or at liver transplantation is indicated within brackets.
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ABCC7 p.Arg75Gln 12127423:74:884
status: NEW
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ABCC7 p.Arg75Gln 12127423:74:949
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80 Some are indicated in Table 1 (M470V, R75Q, 1716G/A), as they possibly alter in a minor fashion the CFTR protein function [45-47].
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ABCC7 p.Arg75Gln 12127423:80:38
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107 However, the latter mutations included the R75Q variation and other conservative missense mutations which cannot be defined as polymorphisms on the basis of their frequency while their deleterious effect on CFTR function is disputable.
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ABCC7 p.Arg75Gln 12127423:107:43
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PMID: 10923036 [PubMed] Claustres M et al: "Spectrum of CFTR mutations in cystic fibrosis and in congenital absence of the vas deferens in France."
No. Sentence Comment
66 Five sequence changes (R31C, R75Q, F508C, G576A, R1162L) were reported as ''mutations`` in the forms; however, they are listed as ''polymorphisms`` in the CFGAC (designed respectively as 223C/T, 356G/A, 1655T/G, 1859G/ C, and 3617G>T).
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ABCC7 p.Arg75Gln 10923036:66:29
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109 h M1K, K14X, W19X, 211delG, G27E, R31C, 237insA, 241delAT, Q39X, 244delTA, 296+2T>C, 297-3C>T, W57X+F87L, 306delTAGA, P67L, A72D, 347delC, R75Q, 359insT, 394delT, 405+4A>G, Q98R, 457TAT>G, R117H+5T, R117H+I1027T, R117L, R117P, H139R, A141D, M152V, N186K, D192N, D192del, E193X, 711+1G>A, 711+3A>G, 712-1G>T, L206F, W216X, C225R, Q237E, G241R, 852del22, 876-14del12, 905delG, 993del5, E292K, Y304X, F311del, 1161delC, R347L, R352Q, W361R, 1215delG, S364P, S434X, D443Y, S466X, C491R, T501A, I506T, F508C, I507del+F508C, F508del+L467F, 1774delCT, R553G, 1802delC, 1806delA, A559E, Y563N, 1833delT, Y569C, Y569H, Y569X, G576X, G576A, T582I, 1898+3A>G+186-13C>G, 1918delGC, R600G, L610S, G628R, 2043delG, 2118del4, E664X, 2174insA, Q689X, K698R, K716X, L732X, 2347delG, 2372del8, R764X, 2423delG, S776X, 2634insT, 2640delT, C866Y, 2752-1G>T, W882X, Y913C, V920M, 2896insAG, H939D, H939R, D979V, D985H, D993Y, 3120G>A, I1005R, 3195del6, 3293delA, 3320ins5, W1063X, A1067T, 3359delCT, T1086I, W1089X, Y1092X+S1235R, W1098X, E1104X, R1128X, 3532AC>GTA, 3548TCAT>G, M1140del, 3600G>A, R1162L, 3667ins4, 3732delA+K1200E, S1206X, 3791delC, S1235R+5T, Q1238R, Q1238X, 3849+4A>G, T1246I, 3869insG, S1255P, R1283K, F1286S, 4005+1G>T, 4006-8T>A, 4015delA, N1303H, N1303I, 4172delGC, 4218insT, 4326delTC, Q1382X, 4375-1C>T, 4382delA, D1445N, CF40kbdel4-10, Cfdel17b.
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ABCC7 p.Arg75Gln 10923036:109:139
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PMID: 10862085 [PubMed] Ellis LA et al: "A comparison of fluorescent SSCP and denaturing HPLC for high throughput mutation scanning."
No. Sentence Comment
97 Comparison of F-SSCP and DHPLC Using a Panel of ABCC7 Mutations Gel condition Location Location 49:1 49:1 49:1 49:1 MDE MDE MDE Capillary DHPLC °C from 5' (bp) from 3' (bp) 15 20 25 35 20 25 35 35 N/A Exon 3 (320bp) E60X 128 192 + + + + + + + + - P67L 150 170 + + + - + + + - + R75X 173 147 + + + + + + + + + R75Q 174 146 + + + - + + + + + G85E 204 116 + + + - + + + + + L88S 213 107 + + + + + + + + + Exon 4 (400bp) 441delA 135 265 + + + + + + + + + D110H 154 246 + + + + + + - + + R117H/H 176 224 + + + + + + + + N/A R117R/H 176 224 + + + + + + + + + L137H 236 164 + + + + + + + + + I148T 261 139 + + + + + + + + + 621+1 (G>T) 309 91 + + + + + + + + + Exon 7 (360bp) R334W 180 180 + + + + + + + - + 1058delC 105 255 + + + + + + + + + 1078delT 125 235 + + + - + + + + + 1138insG 226 134 - + + - + + + + + 1154insTC 202 158 + + + + + + + + + 1161delC 209 151 + + + + + + + + + R347H 220 140 + + + + + + - + + R347P 220 140 + + + - + + + - + A349V 226 134 + + + + + + + + + W356X 248 112 + + + + + + + + + Exon 10 (365bp) M470V 143 222 + + + + + + + + + Q493X 212 153 + + + + + + - + - DelF508 255 110 + + + + + + + + - Del I507 253 112 + + + + + + + + + V520F 293 72 + + - + + - + - + Exon 11 (190bp) 1717-1 (G>A) 54 136 + + + - + + - + + G542X 94 96 + + + - + + - + + S549N 116 74 + + + + + + + + - S549R 117 73 + + + + - - - + + G551D 122 68 + - - - + + + - + R553X 127 63 + + + + + + + + + G551D/R553X + + + + + + + + + R560T 149 41 + + + - - - - - + R560K 149 41 + + + - + + + - + 1811+1 (G>C) 150 40 + + + + + + + + + Exon 12 (250bp) 1898+1(G>A) 167 83 + + + + + + - + + Exon 13a (290bp) C590W 87 203 + + - - + - - + + Exon 13b (405bp) 2184insA 148 257 + + + + + + + - + R709X 220 185 - + - - - - - - + V754M 453 52 + + + + + + + - - Exon 13c (345bp) V754M 65 280 + + + + + + - - + R785X 158 187 + + - - + + - - + Exon 19 (370bp) 3601-17 (T>C) 29 341 - + + - + + + - + R1162X 61 309 + + - - + - - + + 3659delC 105 265 - - - + + + + + + Y1182X 123 247 - + + - + + + - + Exon 20 (370bp) W1282X 186 184 + + + + + + + + + % detected 90 96 86 66 94 88 74 72 90 remainder were detected using DGGE.
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ABCC7 p.Arg75Gln 10862085:97:314
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PMID: 10649490 [PubMed] Girodon-Boulandet E et al: "Screening practices for mutations in the CFTR gene ABCC7."
No. Sentence Comment
178 Likewise, other missense mutations which have been considered as non CF alleles on the basis on linkage studies could be moderately deleterious and/or worsen the effect of a CF mutation in a CF patient, or be responsible for a mild phenotype when combined intrans with a CF mutation, as suggested for R75Q (356G/ A) [Oates and Amos, 1993], E528E (1716G/A) [Cuppens and Cassiman, 1995], and L997F (3123G/C) [Pignatti et al., 1995; Girodon et al., 1997].
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ABCC7 p.Arg75Gln 10649490:178:301
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PMID: 10571949 [PubMed] Lazaro C et al: "Missense mutations in the cystic fibrosis gene in adult patients with asthma."
No. Sentence Comment
61 Missense mutations R75Q, G576A, and L997F were analyzed in the extended sample of individuals from the general population by conventional restriction analysis; mutation R668C was analyzed by SSCA.
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ABCC7 p.Arg75Gln 10571949:61:19
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77 Overall, four of the 15 missense mutations (R75Q, G576A, R668C, and L997F) were detected in 57% of the 21 asthma patients.
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ABCC7 p.Arg75Gln 10571949:77:44
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79 With the exception of mutation L997F (2.1% in asthma patients), which was not found in control group 2, the other three mutations were found in these samples with the following frequencies: R75Q (1.6% general population individuals vs. 2.8% asthma patients); G576A (2.7% general population individuals vs. 2.1% asthma patients) and R668C (4.3% general population individuals vs. 3.5% asthma patients).
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ABCC7 p.Arg75Gln 10571949:79:190
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84 Characteristics of Asthmatic Patients With CFTR Mutations CFTR Age IgE Skin Patients genotype1 M470V2 PolyT3 Sex Years BHR4 IU/ml5 test6 SB221 R74W,V8551 M/V 7/7 M 67 - 329 + SB36 R75Q / - M/V 7/7 F 61 + 59 + SB47 R75Q / - M/V 7/9 M 67 NA 42 NA SB131 R75Q / - M/V 7/7 F 69 + 41 - SB296 R75Q / - M/V 7/9 F 45 + 96 - SB251 I148T / - M/V 7/9 F 70 - 25 - SB212 A534Q / - M/M 7/7 F 46 + 69 + SB125 R668C,G576A N/V 7/7 M 62 + 21 - SB154 R668C,G576A M/V 7/7 M 65 + 93 + SB231 R668C,G576A M/V 7/7 F 45 + 158 + SB112 R668C / - M/V 7/7 M 64 + 1350 + SB304 R668C,T582R M/V 7/7 F 78 - 7 - SB56 T896I / - M/V 7/7 M 72 + 77 - SB117 L997F / - V/V 7/9 F 81 NA 6 NA SB143 L997F/L997F V/V 7/7 F 39 NA 129 NA SB173 L997F / - M/V 7/9 F 67 + 127 - SB148 M1028R / - M/V 7/7 F 48 + 23 - SB32 R1066C / - M/V 7/7 F 69 - 9 - SB69 T1142I / - M/M 7/9 M 65 - 158 + SB92 R116L / - M/V 7/7 M 78 NA 64 NA SB53 T1220I / - M/M 7/9 F 60 + 62 + SB40 ∆F508 / - M/M 79 F 62 + 34 + SB9 - / - M/M 5/9 F 61 - 169 - SB20 - / - M/V 5/5 F 57 - 245 + SB116 - / - V/V 5/7 F 33 NA 41 NA SB118 - / - M/V 5/9 M 83 + 63 - SB140 - / - V/V 5/7 F 72 NA 35 NA SB142 - / - M/V 5/7 F 59 + 108 + SB201 - / - M/V 5/7 M 27 - 297 + SB205 - / - M/V 5/7 F 56 - 20 - SB284 - / - M/V 5/7 F 71 - 40 NA SB316 - / - M/V 5/7 F 78 NA 20 - 1 The CFTR genotype was studied by DGGE/SSCP analysis of all CFTR exons and intronic flanking sequences.
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ABCC7 p.Arg75Gln 10571949:84:180
status: NEW
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ABCC7 p.Arg75Gln 10571949:84:214
status: NEW
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ABCC7 p.Arg75Gln 10571949:84:251
status: NEW
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ABCC7 p.Arg75Gln 10571949:84:286
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93 Characteristics of 15 Amino Acid Variants/Mutants in the CFTR Gene Detected in 21 Patients With Asthma Other Evolutive Conservative Other mutations Mutation1 Reference2 Exon Domain3 Patients4 phenotypes5 conservation6 change7 at same position R74W Claustres et al., 1993 3 IC1 1 CF-PS/CBAVD b, m, r, s NC - R75Q Zielenski et al., 1991 3 IC2 4 CF-PS/DB/CBAVD/ b, d, m, r, s, x NC R75X (CF) CF Parents R75L (CBAVD) I148T Bozon et al., 1994 4 IC2 1 CF-PS b, d, m, r, s, x NC I148N (CF) A534Q This report 11 NBF1 1 - b, m NC A534E (CF) G576A Fanen et al., 1992 12 NBF1 3 CF-PS/CBAVD b, m, r, s NC G576X (CF) T582R Casals et al., 1997 12 NBF1 1 CF-PS b, d, m, r, s, x NC T582I (CF) R668C Fanen et al., 1992 13 R 5 DB/CF-PS/CBAVD/ b, d, m, r, s, x NC - CF Parents V855I This report 14a IC6 1 - b, r, s C - T896I This report 15 EC4 1 - b, d, m, r, s NC - L997F Fanen et al., 1992 17a TM9 3 DB/CF-PS/CBAVD/ b, d, m, r, s, x C - non-CF M1028R This report 17a TM10 1 - d NC M1028I (CF) T2066C Fanen et al., 1992 17b IC8 1 DB/CF-PI b, d, m, r, s, x NC R1066S (CF) R1066L (CF) R1066H (CF/CBAVD) T1142I This report 18 TM12 1 - b, d, m, r, s, x NC - R1162L Fanen et al., 1992 19 IC9 1 non-CF b, d, m, r, s, x NC R1162X (CF) T1220I Ghanem et al., 1994 19 NBF2 1 DB/non-CF b, d NC - 1 Mutation name according to the Cystic Fibrosis Genetic Analysis Consortium.
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ABCC7 p.Arg75Gln 10571949:93:307
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PMID: 9797105 [PubMed] Jarvi K et al: "Heterogeneity of reproductive tract abnormalities in men with absence of the vas deferens: role of cystic fibrosis transmembrane conductance regulator gene mutations."
No. Sentence Comment
60 of men Single mutation 5T /Unknown 13 ⌬F508 /Unknown 8 R117H /Unknown 2 W1282X /Unknown 1 4016insT /Unknown 1 N1303K /Unknown 1 Total 26 Two mutations ⌬F508 /5T 4 ⌬F508 /R117H 2 ⌬F508 /R75Q 1 5T /2183AA3G 1 5T /N1303K 1 5T /G542X 1 R117H /G551A 1 R117H /2184insA 1 A455E /3849ϩ10KbC 1 3T Total 13 No mutations 7 Total no.
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ABCC7 p.Arg75Gln 9797105:60:213
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PMID: 9580755 [PubMed] Wilson DC et al: "Uncertainty in the diagnosis of cystic fibrosis: possible role of in vivo nasal potential difference measurements."
No. Sentence Comment
42 Sex (yr) history culture* Mean (n) Range analysis 1 F 16 No PA, PA, SA 52 (5) 35-73 G551D/- 2 M 7 No - 54 (5) 43-59 ∆F508/- 3 F 25 No SA 44 (5) 38-57 -/- 4 F 32 No - 59 (6) 10-105 -/- 5 M 35 No SA 87 (5) 59-116 ∆F508/- 6 M 20 No SA 73 (4) 57-88 -/- 7 F 16 No PA, PA, SA 50 (8) 28-84 -/- 8 M 34 No PA 68 (4) 47-81 -/- 9 F 33 Yes† - 58 (4) 17-74 ∆F508/- 10 M 36 No - 51 (2) 33-69 ∆F508/- 11 M 31 Yes† - 58 (2) 47-69 R75Q/- PA, Pseudomonas aeruginosa; SA, Staphylococcus aureus.
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ABCC7 p.Arg75Gln 9580755:42:456
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41 Sex (yr) history culture* Mean (n) Range analysis 1 F 16 No PA, PA, SA 52 (5) 35-73 G551D/- 2 M 7 No - 54 (5) 43-59 ࢞F508/- 3 F 25 No SA 44 (5) 38-57 -/- 4 F 32 No - 59 (6) 10-105 -/- 5 M 35 No SA 87 (5) 59-116 ࢞F508/- 6 M 20 No SA 73 (4) 57-88 -/- 7 F 16 No PA, PA, SA 50 (8) 28-84 -/- 8 M 34 No PA 68 (4) 47-81 -/- 9 F 33 Yesߤ - 58 (4) 17-74 ࢞F508/- 10 M 36 No - 51 (2) 33-69 ࢞F508/- 11 M 31 Yesߤ - 58 (2) 47-69 R75Q/- PA, Pseudomonas aeruginosa; SA, Staphylococcus aureus.
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ABCC7 p.Arg75Gln 9580755:41:450
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PMID: 9521595 [PubMed] Onay T et al: "Analysis of the CFTR gene in Turkish cystic fibrosis patients: identification of three novel mutations (3172delAC, P1013L and M1028I)."
No. Sentence Comment
87 R75Q 3 Arg→Gln at 75 G→A at 356 1 (0.82) Zielenskia 17.
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ABCC7 p.Arg75Gln 9521595:87:0
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PMID: 9272157 [PubMed] Dork T et al: "Distinct spectrum of CFTR gene mutations in congenital absence of vas deferens."
No. Sentence Comment
85 The R933S substitution was found together with the R75Q allele in a heterozygous CBAVD patient who also carried the ∆F508 deletion.
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ABCC7 p.Arg75Gln 9272157:85:51
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91 R. Knowles, Q1352H by T. Nukiwa and K. Seyama are indicated g Missense substitutions R933S and R75Q occurred together in a ∆F508 heterozygous patient h Q1352H is associated with 5T and R297W, respectively i Missense substiutions G576A and R668C are linked on the same allele in both CBAVD patients sence of the vas deferens (CUAVD) and one heterozygote with CBAVD.
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ABCC7 p.Arg75Gln 9272157:91:95
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113 The membrane topology of the CFTR protein was adapted from the original report and has been confirmed in vitro by glycosylation site mutagenesis (Riordan et al. 1989; Chang et al. 1994) double mutant allele G576A and R668C, have previously been reported to be benign but no other mutation could be detected on these alleles in our patients after scanning the whole coding region, except for one case where the R75Q and R933S mutations were found together in a ∆F508 heterozygote.
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ABCC7 p.Arg75Gln 9272157:113:411
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118 The next two most frequent variants were the splice site substitution 1716 G→A and missense substitution R75Q.
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ABCC7 p.Arg75Gln 9272157:118:112
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126 R75Q is a candidate mutation but there is no evidence of a specific association with CAVD.
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ABCC7 p.Arg75Gln 9272157:126:0
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127 We have identified, in a set of 65 CF families, two proven fathers with the compound heterozygous genotype ∆F508/R75Q and additional mutations have been detected here and elsewhere in patients with R75Q alleles (Zielenski and Tsui 1995; D. Hughes, personal communication).
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ABCC7 p.Arg75Gln 9272157:127:120
status: NEW
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ABCC7 p.Arg75Gln 9272157:127:205
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128 However, these complex alleles do not explain all cases and a final classification of R75Q requires further examination.
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ABCC7 p.Arg75Gln 9272157:128:86
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134 The Q1352H mutation may be insufficient to cause CBAVD but the additional occurrence of one "5T" 370 Variant Allele frequency n (% of chromosomes) Random donors Non-CF CBAVD CF 125G→C 15/178 (8.5%) n.d. 2/212 (0.9%) 1/1000 (0.1%)a R75Q 4/188 (2.2%) 3/130 (2.1%) 2/212 (0.9%)b 1/1000 (0.1%) 5T 9/186 (4.8%) 2/65 (2.9%) 26/212 (12.3%)c 3/1000 (0.3%) F508C 0/188 n.d. 3/212 (1.4%) 2/1000 (0.2%)d 1716G→A 5/188 (2.6%) 3/212 (1.5%) 3/212 (1.4%) 2/1000 (0.2%)e G576A-R668C 0/188 n.d. 2/212 (0.9%)f 3/1000 (0.3%)f Table 2 Frequency distribution of CFTR variants in different subgroups of individuals.
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ABCC7 p.Arg75Gln 9272157:134:238
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137 Complex alleles are indicated a One CF allele with R75X and 125G→C b One CBAVD allele with R75Q and R933S c One CBAVD allele with 5T and Q1352H d Two CF alleles with F508C and S1251N e One CF allele with 1716G→A and L619S f G576A and R668C were linked on two CBAVD and three CF alleles, whereas two additional CF alleles carried R668C together with the 3849+10kB C→T mutation (Dörk and Stuhrmann 1995) 371 Table 3 CFTR mutation genotypes in 106 males with CAVD Genotype PolyT Frequency Ethnic descent Diagnosis ∆F508/R117H 9/7 21 German, Austrian 20 CBAVD, 1 CUAVD ∆F508/5T 9/5 9 German, Austrian 8 CBAVD, 1 CUAVD ∆F508/F508C 9/7 3 German CBAVD ∆F508/R347H 9/9 2 German CBAVD ∆F508/1716 G→A 9/7 2 German CBAVD ∆F508/3272-26 A→G 9/7 2 German CBAVD ∆F508/E56K 9/7 1 German CBAVD ∆F508/M265R 9/7 1 German-Portuguese CBAVD ∆F508/R334W 9/9 1 German CBAVD ∆F508/T351S 9/9 1 German CBAVD ∆F508/L375F 9/7 1 Volga German CBAVD ∆F508/G576A & R668C 9/7 1 German CBAVD ∆F508/R933S 9/7 1 German CBAVD ∆F508/L997F 9/9 1 German CBAVD ∆F508/Y1032C 9/7 1 German CBAVD ∆F508/D1152H 9/7 1 German CBAVD ∆F508/K1351E 9/7 1 German CBAVD ∆F508/D1377H 9/7 1 Portuguese CBAVD ∆F508/L1388Q 9/7 1 German CBAVD ∆F508/unknown 9/7 4 German 3 CBAVD, 1 CUAVD 5T/5T 5/5 2 German CBAVD 5T/G542X 5/9 2 German, Turkish CBAVD 5T/D58N 5/7 1 Lebanese CBAVD 5T/̃L138 5/7 1 German-Polish CBAVD 5T/1078delT 5/7 1 German CBAVD 5T/R553X 5/7 1 German CBAVD 5T/2184insA 5/7 1 Turkish CBAVD 5T/D979A 5/7 1 Vietnamese CBAVD 5T/D1152H 5/7 1 Turkish CBAVD 5T/3659delC 5/7 1 German CBAVD 5T/S1235R 5/7 1 Greek CBAVD 5T/W1282X 5/7 1 German CBAVD 5T & Q1352H/ R297W & Q1352H 5/7 1 Vietnamese CBAVD 5T/unknown 5/7 1 German CBAVD R117H/L206W 7/9 1 German CBAVD R117H/2789+5 G→A 7/7 1 German CBAVD R117H/unknown 7/7 1 German CBAVD 2789+5 G→A/2789+5 G→A 7/7 1 Lebanese CBAVD 2789+5 G→A/L973F 7/7 1 German CBAVD V938G/V938G 7/7 1 Greek CBAVD V938G/174delA 7/7 1 German CBAVD D110H/D110H 7/7 1 Turkish CBAVD R334L/I336K 7/7 1 German CBAVD R347H/N1303K 9/9 1 German CBAVD L568F/D1152H 7/7 1 Turkish CBAVD 3272-26 A→G/V1153E 7/7 1 German CBAVD R75Q/unknown 7/7 1 German CBAVD A120T/unknown 9/7 1 German CBAVD 1716G→A/unknown 7/7 1 German CBAVD G576A & R668C/unknown 7/7 1 German CBAVD 2752-15 C→G/unknown 7/7 1 Iranian CBAVD Unknown/unknown 17 German, Turkish 7 CBAVD and 1 CUAVD without observed renal agenesis, 9 CBAVD with renal agenesis allele and the R297W mutation on a homozygous Q1352H background may then reduce CFTR function to a disease-causing level.
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ABCC7 p.Arg75Gln 9272157:137:98
status: NEW
X
ABCC7 p.Arg75Gln 9272157:137:2305
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PMID: 9259194 [PubMed] Friedman KJ et al: "Rapid characterization of the variable length polythymidine tract in the cystic fibrosis (CFTR) gene: association of the 5T allele with selected CFTR mutations and its incidence in atypical sinopulmonary disease."
No. Sentence Comment
3 Polythymidine alleles were identified for mutations either associated with a wide range of clinical phenotypes (R117H, R347P, G85E, D1152H, R334W, 2789+5 G>A, 3849+10kb C>T), and/or located at hypermutable CpG loci (R117H, 3849+10kb C>T, R553X, R334W, S945L and R75Q).
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ABCC7 p.Arg75Gln 9259194:3:262
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37 We report the development of a rapid, nonisotopic assay that facilitates typing of this locus and utilize it to explore the role of the polythymidine tract alleles in thepathogenesisofCF.Mutationsassociatedwithclini- calheterogeneity(R347P,G85E,D1152H,R334W,and 3849 + 10kb C>T) and/or occurring at hypermutable loci (3849 + 10kb C>T, R334W, S945L, R553X, and R75Q) were analyzed for their association with different intron 8 alleles in CF and atypical patients.
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ABCC7 p.Arg75Gln 9259194:37:360
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41 ), and R75Q (Zielenski et al., 1991a).
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ABCC7 p.Arg75Gln 9259194:41:7
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44 R117H, R347P, D1152H, and R75Q required electrophoresis at 230 V for 5 hr in a 10% polyacrylamide gel.
X
ABCC7 p.Arg75Gln 9259194:44:26
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PMID: 9222762 [PubMed] Jordanova A et al: "SSCP analysis: a blind sensitivity trial."
No. Sentence Comment
63 The sequencing revealed the presence of several polymorphisms: R75Q in exon 3 (G/A at position 356) (Zielenski et al., 1991a) in samples 930274, 930140, and 583; 405 + 56 T/G in intron 3 (Claustres et al., 1993) in samples 140735, 288, and 293; M470V in exon 10 (A/G at position 1540) (Kerem et al., 1990) insample7and1898+152(A/T)inintron12(Chillon et al., 1991) in sample 1016.
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ABCC7 p.Arg75Gln 9222762:63:63
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PMID: 8659542 [PubMed] Miller PW et al: "Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations in allergic bronchopulmonary aspergillosis."
No. Sentence Comment
103 Her baseline NPD was -45 mV, which de- 59:45-S1, 1996 Table 2 Demographics and Genotype of ABPA Patients CFTR I.D. Race CF Mutations Polymorphismsa 1 Caucasianb AFS08/R347H 2 Caucasianb -/- M470V, 129G/C 3 Caucasianb AFS08/- ... 4 African-American -/- 5 Caucasian -5-ST, M470V 6 Caucasian &FS08/- R75Q, M470V 7 Caucasian -/- M470V 8 Caucasian R117H-7T/- R75Q 9 Caucasian AFS08/- M470V 10 Caucasian AFS08/- M470V 11 Caucasian -/- ST a The 5 thymidine variant (ST) does not cause CF (Chu et al. 1992) but has been associated with the CBAVD phenotype (Chill6n et al. 1995).
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ABCC7 p.Arg75Gln 8659542:103:300
status: NEW
X
ABCC7 p.Arg75Gln 8659542:103:301
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113 Amino acid changes R75Q (exon 3) (Zielenski et al. 1991) and M470V (exon 10) (Kerem et al. 1990) were identified in two patients (6 and 8) and six patients (2, 5-7, 9, and 10), respectively.
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ABCC7 p.Arg75Gln 8659542:113:19
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PMID: 8956039 [PubMed] Hughes DJ et al: "Mutation characterization of CFTR gene in 206 Northern Irish CF families: thirty mutations, including two novel, account for approximately 94% of CF chromosomes."
No. Sentence Comment
70 CFTR PolymorphismsIdentified in Northern Irish CF Population Variation 125G>C 129 G>C R75Q 1898+152T>A 2694 T or G 4374+13 A or G 4521 G or A also identified 3601-99 additional T (sequencecorrection) Location 5'UT 5'UT Exon 3 Intron 12 Exon 14a lntron 23 Exon 24 Intron 18 Frequency (%) 0.24 3.4 1.2 25 27 19 100 0.5 Identification by DGGE DGGE DGGE SEQ SEQ SEQ DGGE SEQ Reference Cuttinget al., 1992 Zielenski et al., 1991b Zielenski et al.. 1991a Chilldn et al.. CFGAC Zielenski et al., 1991a Costeset al., CFGAC Gasparini et al., 1991a this study ~ ~ TABLE3.
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ABCC7 p.Arg75Gln 8956039:70:86
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72 241delAT 40-70 40 16 E60X 394delTT, R75X R75Q (p),P67L.
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ABCC7 p.Arg75Gln 8956039:72:41
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PMID: 7551394 [PubMed] Friedman KJ et al: "Screening Young syndrome patients for CFTR mutations."
No. Sentence Comment
83 Patient 2 was determined to be heterozygous for R75Q, a sequence variation in exon 3 that has been reported as a CFTR mutation (1S).
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ABCC7 p.Arg75Gln 7551394:83:48
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85 Briefly, we found three of 74 known AF50S-carrier fathers carrying the R75Q allele on the opposite chromosome.
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ABCC7 p.Arg75Gln 7551394:85:71
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86 If R75Q were a disease-causing mutation, the AF50S/R75Q genotype would have elicited symptoms of CF, precluded fertility, or both, in these men.
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ABCC7 p.Arg75Gln 7551394:86:3
status: NEW
X
ABCC7 p.Arg75Gln 7551394:86:51
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PMID: 7540706 [PubMed] Jarvi K et al: "Cystic fibrosis transmembrane conductance regulator and obstructive azoospermia."
No. Sentence Comment
18 We screened for 6 CF mutations (AF508, G551D, G542X, W1283X, N1303K, R117H), representing the most common mutations detected previously in men with CBAVD, and determined the CFTR gene variants of R75Q and T tract length of intron 8.
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ABCC7 p.Arg75Gln 7540706:18:196
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PMID: 7477013 [PubMed] Rossetti S et al: "Comparison of heteroduplex and single-strand conformation analyses, followed by ethidium fluorescence visualization, for the detection of mutations in four human genes."
No. Sentence Comment
22 18 The second upper primer developed for mutation R75Q detection (UP-40) was the following: GAA- TGGGATAGAGAGCTGGC'I-rC, corresponding to nucleotides 298 to 320 of the CFTR gene.~9Flanking primers for each target sequence were synthesized with an Applied Biosystem 391 DNA synthesizer PCR-MATE EP,and PCRwas performed with a Perkin Elmer thermal cycler, following published data.i° Genomic DNA was used for exon amplification of CFTR and COL4A5 genes.
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ABCC7 p.Arg75Gln 7477013:22:50
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45 Heteroduplex bands are visible in all samples, except the G177R and the R75Q mutations in lanes 3 and 5, respectively, where only a large homoduplex band is present.
X
ABCC7 p.Arg75Gln 7477013:45:72
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52 The only mutation not detected with either method was R75Q located in the CFTR gene.
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ABCC7 p.Arg75Gln 7477013:52:54
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57 1: 1271delC (COL4A5), male, 2: R344W (CFTR), carrier, 3:G177R (COL4A5), male, 4: 2940/ 2943delA (COL4A5), male, 5: R75Q (CFTR),carrier, 6: R347P (CFTR),carrier.
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ABCC7 p.Arg75Gln 7477013:57:115
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61 Mutations analysed by SSCAEand HAE: reproducibility scores Gene Mutation Exon PCR Sequence SSCAE SSCAE HAE (reference) size modification +4°C +20°C (A) Amplified fragment size range: 68-230 bp CFTR R334W 7 230 C~T + + + + + + (1) CFTR R347P 7 230 G--*C + + + + + + (2) CFTR R75Q 3 176 G~A - - - (UP-1) (3) CFTR R75Q 3 213 G~A + + + (UP-40) CFTR 2183AAJG 13 145 AA~C + + + - + + (4) COL4A5 2940/2943 34 146 Delta A + + + + + delA (5) COL4A5 1272delC 42 181 Delta C + + + + + (6) COL4A5 G325E 17 68 G~A + + + (7) COL4A5 G17R* 9 121 G~C + + + + - COL4A5 G177R* 9 121 G-,C + + + + - COL4A5 G54D* 3 230 G~A + + + - + + (B) Amplified fragment size range: 257-426 bp HEX B P405L 11 426 C~T - - (8) HEX B 929delT* 8 426 Delta T - - HEX B C317Y* 8 270 G~A - - COL1 A2 G586V 33-37 257 G~T - + (9) COL1A2 G640C 33-37 257 G--.T - - (10) + + ++ + + + + =very good (515repeats); + =good (4•5 repeats); +- =sufficient (315repeats); - =not sufficient(0, or 2/5 repeats).
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ABCC7 p.Arg75Gln 7477013:61:282
status: NEW
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ABCC7 p.Arg75Gln 7477013:61:284
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111 FluorogramofSSCAEand HAE analysis of mutation R75Q (CFTR)with the use of different PCR primers.
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ABCC7 p.Arg75Gln 7477013:111:46
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108 FluorogramofSSCAEand HAE analysis of mutation R75Q (CFTR)with the use of different PCR primers.
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ABCC7 p.Arg75Gln 7477013:108:46
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PMID: 7543317 [PubMed] Pignatti PF et al: "Increased incidence of cystic fibrosis gene mutations in adults with disseminated bronchiectasis."
No. Sentence Comment
4 In this search, different CFTR gene mutations (R75Q, AF508, R1066C, M1137V and 3667ins4) were found in five out of 16 adult Italian patients with disseminated bronchiectasis, a significant increase over the expected frequency of carriers.
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ABCC7 p.Arg75Gln 7543317:4:47
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31 List of CFTR gene mutations and DNA polymorphisms screened Mutations R75Q/X/L, G85E, 394deITT 457TAT->G, R117H 621 + 1G->T 711 + 5G->A L206W 875 + 40 A->G 936 del TA 1001 + 11C->T R334W, R347 P/H/L, 1154insTC A455E, V456F DF5O8 1717-IG->A, 1717-8G->A G542X, G551D, Q552X, R553X P574H 1898 + 3A->G 2183 AA->G, 2184delA, R709X D836Y, 2694 T/G 2752-22 A/G 2789 + 5 G->A, 2790-2 A-»G Q890X 3041-71 G/C 3132delTG 3271 + 18 C-»T, 3272-26 A->G H1054D, G1061R, R1066C/H, A1067T, H1085R, Y1092X, 3320 ins5 D1152H R1162X, 3667ins4, 3737delA, 11234V 3849 + 10 kb C-»T, 3850-1 G-»A SI25IN, S1255P, 3905insT, 3898insC, D127ON, W1282X, R1283M, 4002 A/G 4005 + 1 G-»A N1303 K/H, 4029 A/G D1377H Q1411 X 4404 C/T, 4521 G/A Location e 3 e 4 i 4 i 5 e 6a i 6a e 6b i 6b e 7 e 9 e 10 i 10 e 11 e 12 i 12 e 13 e 14a i 14a i 14b e 15 i 15 e 17a i 17a e 17b e 18 e 19 i 19 e 20 i 20 e2l e 22 e 23 e24 Listing is in order of location along the CFTR gene, e = exon; i = intron.
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ABCC7 p.Arg75Gln 7543317:31:69
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46 Mutation R75Q was found in patient #4.
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ABCC7 p.Arg75Gln 7543317:46:9
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53 Clinical data and CFTR genotypes of patients with bronchiectasis CFTR genotype sex (yr) age age of onset smoke FEV1 FVC sweat mM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 A F508/U U/U R1066C/2736A->G R75Q/U MI137V/U U/U U/U U/U U/U 3667 ins 4/U U/U U/U G576A-R668C/L997F U/U U/U U/U F F F M F F M M M F M F F M M F 52 70 23 79 55 52 57 42 43 52 21 66 38 59 49 70 3 56 20 50 18 16 16 8 2 6 5 8 20 8 10 42 no no no yes no no no no no no no no ex ex no no 40 80 85 n.d. 54 49 n.d. 59 83 40 91 62 105 36 49 55 45 88 83 n.d. 54 59 n.d. 59 93 47 105 77 99 46 64 64 40 19 6 70 45 28 n.d. 54 n.d. neg 30 neg 58 neg 20 28 # = patient number; FEV1 = forced expiratory volume in I second (% of predicted value); FVC = forced vital capacity (% of predicted value); sweat = sweat test (sodium concentration); U = unknown mutation or no mutation; ex = ex smoker; neg = negative test, no value recorded (cut off value = 80 mM Na); n.d. = not done.
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ABCC7 p.Arg75Gln 7543317:53:197
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121 Mutations R75Q/ X/L,621 + 1G->T, 1717-1G->A, P574H,2183AA->G, RI066C, andN13O3K, were examined by restriction site generating PCR as described (30).
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ABCC7 p.Arg75Gln 7543317:121:10
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PMID: 8825494 [PubMed] Zielenski J et al: "Cystic fibrosis: genotypic and phenotypic variations."
No. Sentence Comment
593 Not surprisingly, Rl17H is associated with CF only when the allele also contains Table 2 Examples of complex alleles in the CfTR gene Principal Second site mutationa Location alteration Location Reference R75X exon 3 125G --.. C promoter 57 405 + IG --.. A intron 3 3030G --.. A exon 15 57 R1l7H exon 4 129G --.. C promoter 203 RI17H exon 4 IVS8 : 5T or 7T intron 8 101 R297Q exon 7 IVS8 : 5T or 7T intron 8 60 aF508 exon 10 R553Q exon II 59 aF508 exon 10 1I027T exon I7a 57 8F508 exon 10 deletion of D7S8 500 kb 3' of 186 CfTR S549N exon II R75Q exon 3 205a L619S exon 13 1716G � A exon 10 57 G628R (G � C) exon 13 SI235R exon 19 47 2184insA exon 13 IVS:5T exon 9 J Zielenski, J Bal, 0 Markiewicz, L-C Tsui, unpublished data A800G exon 13 IVS8 : 5T or 7T intran 8 31 S912L exon 15 GI244V exon 20 149 GlO69R exon 17b L88X exon 3 149 3732deiA exon 19 Kl200E exon 19 70 3849 + IOkbC � intron 19 R668C exon 13 57 T SI251N exon 20 F508C exon 10 94 The status of principal mutation may not be clear in every case; e.g. G628R(G --> C) vs S1235R.
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ABCC7 p.Arg75Gln 8825494:593:544
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602 One example is R75Q, which was previously thought to be a benign polymorphism because it was found on both "normal" and CF alleles.
X
ABCC7 p.Arg75Gln 8825494:602:15
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603 In one study R75Q was detected in six CF patients (205a).
X
ABCC7 p.Arg75Gln 8825494:603:13
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605 The one patient who showed severe CF disease was found to harbor a known CF mutation (S549N) in the allele carrying R75Q.
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ABCC7 p.Arg75Gln 8825494:605:116
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606 Other mutations may therefore be present in those R75Q alleles that are associated with CF, but it is of interest that all R75Q alleles are associated with the same DNA marker haplotype and the 7T variant in intron 8.
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ABCC7 p.Arg75Gln 8825494:606:50
status: NEW
X
ABCC7 p.Arg75Gln 8825494:606:123
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607 Moreover, R75Q may be a borderline mutation whose disease association is dependent on extragenic factor(s).
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ABCC7 p.Arg75Gln 8825494:607:10
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679 Table 3 Atypical (non-CF) diseases associated with the CFTR gene Common manifestations Disease shared with CF CBAVD absence of vas deferens (bilateral CUAVD absence of vas deferens (unilateral) Obstructive azoospermia azoosperma Diffuse bronchiectasis abnormal dilatation of bronchi Bronchiectasis with elevated abnormal dilatation of bronchi and sweat CI- high levels of sweat chloride Allergic bronchopulmonary allergic asthma, tenacious sputum, aspergillosis mucus plugs Chronic pseudomonas bron- chronic sinusitis, nasal polyposis chitis Chronic bronchial abnormal mucous secretion hypersecretion Nasal polyposis nasal polyps Neonatal transitory hyper- high levels of immunoreactive tryp- trypsinemia sin (IRT) Fraction of patients with at least one CFTR mutation (%) Reference 80/\02 (78)" 31 51168 (75)' 207a 6/14 (43)b 1 1 8 8/17 (47)' 93 6/10 (6W 13 6/48 (l2.5)e 161 9/28 (32)" 136 5/16 (3 1)1 78 6/1 1 (54)e 1 19 2/10 (20)e 1 1 9 6/65 (9.2)f 65 7/1 12 (6.2)g 22 9/149 (6)f 106 • The numbers are based on comprehensive screening of CFfR mutations (including IVS8 : 5T) by a variety of methods; btesting of three mutations (�F508, RI I7H and R75Q; '-�F508, G55 1O, G542X, W1282X, N1303K, RI 17H and IVS8 : 5T;d direct sequencing of exons encoding NBFI; ' the most common CFTR mutations (unspecified); f �F508 only: "eight mutations (�F508, �I507, DlIOH, RII7H, 621 + IG .... T, N1303K, G5SID, and R553X).
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ABCC7 p.Arg75Gln 8825494:679:1163
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1433 Haplotype analysis of chromosomes carrying the R75Q CFTR variant.
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ABCC7 p.Arg75Gln 8825494:1433:47
status: NEW
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PMID: 7526685 [PubMed] Morral N et al: "Independent origins of cystic fibrosis mutations R334W, R347P, R1162X, and 3849 + 10kbC-->T provide evidence of mutation recurrence in the CFTR gene."
No. Sentence Comment
106 Slippage usually results in the addition or subtraction of one repeat unit either side Table 5 CpG Dinucleotides in CFTR Gene That Have More than One Mutational Event Position Change Mutation Reference 223 ......... CT R31C Ghanem et al. 1994 224 ......... GT R31L Zielenski et al., in press 355 ........ C- >T R75X Dork et al., in press 356 ......... G--*T R75L B. Costes, personal communication 356 ......... G-aA R75Q' Zielenski et al. 1991b 481 ......... CT R117C D6rk et al., in press 482 ......... G-oA R117H Dean etal.
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ABCC7 p.Arg75Gln 7526685:106:416
status: NEW
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PMID: 7525450 [PubMed] Dork T et al: "Detection of more than 50 different CFTR mutations in a large group of German cystic fibrosis patients."
No. Sentence Comment
67 It was identified in a 9-year-old patient. This mutation occurs at a CpG dinucleotide within exon 3 where a benign missense variant (R75Q) has previously been described (Zielenski et al. 1991 b).
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ABCC7 p.Arg75Gln 7525450:67:133
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PMID: 7519167 [PubMed] Grade K et al: "Identification of three novel mutations in the CFTR gene using temperature-optimized non-radioactive conditions for SSCP analysis."
No. Sentence Comment
22 bands (bp) zygous 11 492 20 11 20 9 309 9 15 438 15 155 Hetero- Homo- zygous 3 3 I (+ smear) 3 6 4 3 R75Q Rll7H Polym.
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ABCC7 p.Arg75Gln 7519167:22:101
status: NEW
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PMID: 7519885 [PubMed] Boucher RC et al: "Gene therapy for cystic fibrosis using E1-deleted adenovirus: a phase I trial in the nasal cavity. The University of North Carolina at Chapel Hill."
No. Sentence Comment
452 Patients with known mild variants (RII7H; R75Q), especially those with pancreatic exocrine sufficiency.
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ABCC7 p.Arg75Gln 7519885:452:42
status: NEW
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PMID: 7521710 [PubMed] Ravnik-Glavac M et al: "Sensitivity of single-strand conformation polymorphism and heteroduplex method for mutation detection in the cystic fibrosis gene."
No. Sentence Comment
120 Exon 1: S4X (24), 186-13C-G (F£rec et al., pers. comm.); Exon 2: G27X (Shacldeton and Harris, pers. comm.), Q30X (Chilldn aal., pers. comm.), R31L (Zielenski et al., pers. comm.), Q39X (25); Exon 3: 300delA (Malone et al., pers. comm.), W57G (Ferrari et al., pers. comm.), W57X (26), E60X (Malone et al., pers. comm.), R74W (Claustres et al., pers. comm.), R75Q (27), G85E (28), 394delTT (Claustres et al., pers. comm.), L88X (Maceketal., pers. comm.), L88S (Malone et al., pers. comm.), 405 + 1G-A (Dork and Tummler, pers. comm.); Exon 4: E92K (Chillon et al., pers. comm.), E92X (D6rk a al., pers. comm.), P99L (Schwartz and Holmberg, pers. comm.), 441delA (Zielenski et al., pers. comm.), 444delA (29), 457TAT-C- (F£rec et al., pers. comm., (21), Dl 10H (14), Rl 17C (D6rk et al., pers. comm.), Rl 17H (14), A120T (Chillon et al., pers. comm.), 541delC (30), 556delA (28), I148T (Rininsland et al., pers. comm.), Q151X (Shacldeton et al., pers. comm.), 621 + 1C-T (28), 622-2A-C (31); Exon5:G178R (28), 681delC (Zielenski a al., pers. comm.), 711 + 1G-T (28); Exon 6a: H199Y (Dork and Tummler, pers. comm.), H199Q (Dean etal., pers. comm.), L206W (Claustres et al., pers. comm.), Q220X (Shacldeton and Harris, pers. comm., Schwartz and Holmberg, pers. comm.), 852del22 (32); Exon 6b: 977insA (33); Exon7:F311L(34).
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ABCC7 p.Arg75Gln 7521710:120:362
status: NEW
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PMID: 1281032 [PubMed] Super M et al: "Milestones in cystic fibrosis."
No. Sentence Comment
160 Thus a protein conformational change in CFTR resulting in a signif- FIBROSIS Table 4 CF Mutations encountered in United Kingdom Mutation Delta F508 G551D R553 G542X R56OT N1303K DI507 R117H 621+1G-T G85E W1282X E60X R75Q V520F 1717-1 G-A CF chromosomes screened 1 Mutations encountered 1062 199 (non Delta F508) 199 199 199 199 199 199 199 199 199 30 15 199 199 CF chromosomes with mutation in North-West England 863 37 8 11 6 6 4 5 10 4 2 2 1 3 3 Percentage 81.2 3.48 0 75 1.03 0.58 0 58 038 0.47 0.98 0.38 0 19 ?
X
ABCC7 p.Arg75Gln 1281032:160:218
status: NEW
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PMID: 23207607 [PubMed] Larusch J et al: "Genetics of pancreatitis with a focus on the pancreatic ducts."
No. Sentence Comment
116 The complexity of considering CFTR mutations in pancreatitis is revealed in that specific statement in light of recent findings of a moderately frequent CFTR variant Arg75Gln, with selective loss of bicarbonate but not chloride conduction resulting in elevated risk for pancreatitis but not CF (59).
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ABCC7 p.Arg75Gln 23207607:116:166
status: NEW
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PMID: 23503723 [PubMed] Zhou L et al: "Symmetric snapback primers for scanning and genotyping of the cystic fibrosis transmembrane conductance regulator gene."
No. Sentence Comment
57 c.869af9;11Cb0e;T, c.-8Gb0e;C, and p.R75Q) or synonymous variants.
X
ABCC7 p.Arg75Gln 23503723:57:46
status: NEW
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PMID: 23523379 [PubMed] Rechitsky S et al: "PGD for cystic fibrosis patients and couples at risk of an additional genetic disorder combined with 24-chromosome aneuploidy testing."
No. Sentence Comment
41 Mutation Region Legacy name cDNA name Protein name # of Patient Number of cycles Number of transfers Number of embryos transferred Pregnancy Birth 125G/C c.-8G>C NA Promoter 1 2 2 2 1 (1) 0 E60X c.178G>T p.Glu60X Exon 3 1 1 1 1 0 0 G85E c.254G>A p.Gly85Glu Exon 3 1 1 1 2 1 1 R75Q c.224G>A p.Arg75Gln Exon 3 1 1 1 1 1 1 R75X c.223C>T p.Arg75X Exon 3 1 1 1 2 1 2 A120T c.358G>A p.Ala120Thr Exon 4 1 1 1 1 0 0 R117C c.349C>T p.Arg117Cys Exon 4 2 6 3 5 1 1 R117H c.350G>A p.Arg117His Exon 4 14 22 19 38 8 6 621+1G-T c.489 &#b1; 1G>T - Intron 4 4 7 4 6 2 1 852del22 c.720_741 p.Gly241GlufsX13 Exon 6 1 1 0 0 0 0 L206W c.617T>G p.Leu206Trp Exon 6 1 2 1 2 0 0 A349V c.1046C>T p.Ala349Val Exon 8 1 2 2 4 2 4 1078delT c.948delT p.Phe316LeufsX12 Exon 8 1 1 1 1 1 0 1154ins-TC c.1022_1023insTC p.Phe342HisfsX28 Exon 8 1 2 1 2 0 0 Q359K/T360K c.
X
ABCC7 p.Arg75Gln 23523379:41:276
status: NEW
X
ABCC7 p.Arg75Gln 23523379:41:292
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PMID: 23622139 [PubMed] Whitcomb DC et al: "Genetic risk factors for pancreatic disorders."
No. Sentence Comment
149 Genotype-Phenotype Correlations in Multi-Organ Syndromes Genotype (variants) Phenotype (syndrome) Comment PRSS1 HP Genetic counseling recommended PRSS1/any HP, worse clinical course Genetic counseling recommended CFTRsev/CFTRsev CF Manage with a CF center CFTRsev/CFTRm-v Atypical CF Manage with a CF center SPINK1/SPINK1 Familial pancreatitis Usually progresses to severe CP CFTRbicarb/CFTRany Pancreas/sinus/male infertility Newly defined syndrome CFTRany/SPINK1 RAP/CP Pancreas only CTRC/SPINK1 RAP/CP Pancreas only; not well studied CASRaf9;/alcohol RAP/CP Pancreas only; not well studied CASRafa;/SPINK1 RAP/CP, familial CP CP in FHH and sporadic CP CASRafa;/CFTR RAP/CP Pancreas only; not well studied Any, severe, mild-variable, or bicarbonate disrupting variants; bicarb, bicarbonate conductance disrupting variant (eg, R75Q); CASRaf9;, gain-of-function mutations; CASR-, loss-of-function mutations; CF, cystic fibrosis; FHH, familial hypocalciuric hypercalcemia; HP, hereditary pancreatitis; m-v, mild-variable mutations (typically CFTR functional class IV); sev, severe mutations (typically functional class I-III).
X
ABCC7 p.Arg75Gln 23622139:149:837
status: NEW
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PMID: 23637307 [PubMed] Wilschanski M et al: "The cystic fibrosis of exocrine pancreas."
No. Sentence Comment
67 However, a novel finding was that the variant R75Q of CFTR increases the risk of pancreatitis markedly.
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ABCC7 p.Arg75Gln 23637307:67:46
status: NEW
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PMID: 23781395 [PubMed] Milosevic K et al: "Analysis of CFTR Gene Variants in Idiopathic Bronchiectasis in Serbian Children."
No. Sentence Comment
3 Mutation c.1521_1523delCTT (F508del) was detected with an allelic frequency of 1.0%, and c.224G > A (R75Q) variant.
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ABCC7 p.Arg75Gln 23781395:3:101
status: NEW
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89 CFTR Alleles Detected in Children with Idiopathic Bronchiectasis Variant Alleles Number % F508del Mutant 1 1.0 Wild type 95 99.0 R75Q Mutant 1 1.0 Wild type 95 99.0 Tn polymorphism IVS8-5T 5 5.2 IVS8-7T 81 84.4 IVS8-9T 10 10.4 M470V M470 47 49.0 470V 49 51.0 CFTR, cystic fibrosis transmembrane conductance regulator.
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ABCC7 p.Arg75Gln 23781395:89:129
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91 CFTR Genotypes Detected in Children with Idiopathic Bronchiectasis Genotype Number of patients % F508del 7T/9T M/V 1 2.1 R75Q 5T/7T M/V 1 2.1 - 5T/7T M/V 2 4.2 - 5T/9T V/V 1 2.1 - 5T/9T M/M 1 2.1 - 7T/9T M/M 4 8.3 - 7T/9T M/V 2 4.2 - 7T/9T V/V 1 2.1 - 7T/7T M/M 11 22.9 - 7T/7T M/V 11 22.9 - 7T/7T V/V 13 27.0 patients with bronchiectasis, future studies should encompass the screening of the entire CFTR gene.
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ABCC7 p.Arg75Gln 23781395:91:121
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PMID: 23951356 [PubMed] Masson E et al: "A conservative assessment of the major genetic causes of idiopathic chronic pancreatitis: data from a comprehensive analysis of PRSS1, SPINK1, CTRC and CFTR genes in 253 young French patients."
No. Sentence Comment
114 Of particular note, p. R75Q was placed in category C on the basis that it was not overrepresented in our patient cohort [4.7% (12/253)] as compared with a sample of 514 French controls [4.9% (25/514)].
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ABCC7 p.Arg75Gln 23951356:114:23
status: NEW
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116 In the latter study, p. R75Q was reported to be overrepresented in patients as compared to controls (16% vs. 5.3%).
X
ABCC7 p.Arg75Gln 23951356:116:24
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117 Contrary to the findings of the Schneider study [46], we did not find any preferential co-occurrence of CFTR p. R75Q with SPINK1 p. N34S; only two of our seven heterozygous CFTR p. R75Q patients also carried a heterozygous SPINK1 p. N34S (patients 19 and 130, Table S1).
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ABCC7 p.Arg75Gln 23951356:117:112
status: NEW
X
ABCC7 p.Arg75Gln 23951356:117:181
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PMID: 23974870 [PubMed] Sosnay PR et al: "Defining the disease liability of variants in the cystic fibrosis transmembrane conductance regulator gene."
No. Sentence Comment
137 In addition to these ten variants, c.1210-12(7) (legacy name 7T) had already been reported to be non-penetrant48 and was identified as a second variant in numerous fathers, and a twelfth variant, p.Ile1027Thr, was deemed 159 variants ࣙ0.01% frequency in CFTR2 127 variants meet clinical and functional criteria Clinical and functional analysis 13 variants meet neither criteria 14 variants 5 variants 7 variants 6 variants Evidence of non-penetrance No evidence of non-penetrance 19 variants meet clinical or functional criteria 127 variants are CF causing 12 variants are non CF causing 20 variants are indeterminate p.Arg117HisߤC p.Arg75Gln p.Gly576Alaߤ p.Arg668Cys ߤ p.Met470Val C p.IIe1027Thr ߤC p.Val754Met ߤC p.IIe148Thr ߤC p.Arg31Cys C p.Ser1235Arg ߤ p.Leu997Phe ߤ p.Arg1162Leu p.Leu227Arg F p.Gln525* F p.Leu558SerC p.Asp614Gly C c.2657+2_2657+3insA C c.1418delG F c.1210-12(7) ߤ p.Arg1070Gln C p.Asp1270Asn ߤC p.[Gln359Lys; Thr360Lys] p.Gly1069Argߤ p.Asp1152His p.Phe1052Val c.1210-12(5) p.Arg74Trpߤ p.IIe1234Val ߤC p.Arg1070Trp ߤF p.Ser977Phe F p.Asp579Gly C p.Tyr569Asp F Penetrance analysis Figure 4ߒ Assignment of disease liability to the 159 most frequent CFTR variants using three criteria.
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ABCC7 p.Arg75Gln 23974870:137:646
status: NEW
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173 The 127 variants that met both clinical and functional criteria were designated cystic fibrosis causing; however, 32 remaining -variants Table 1ߒ Variants associated with incomplete penetrance Variant Number of alleles in CFTR2 Frequency in CFTR2 (out of 70,777 known alleles) Number that occur in trans with a CF-causing variant in fathers Number reported in 2,062 fathers Frequency in fathers (out of 4,124 alleles) Allele frequency in 1000 Genomes Project Variants that met clinical criteria but did not meet functional criteria p.Arg31Cys 13 0.00018 4 4 0.00097 0.001-0.004 p.Ile148Thra 99 0.00140 4 9 0.00218 Not available p.Met470Val 41 0.00058 Not analyzed 1,412 0.34239 0.087-0.647 p.Val754Met 9 0.00013 4 7 0.00170 0-0.003 Variants that did not meet clinical or functional criteria p.Arg75Gln 28 0.00040 48 74 0.01794 0.009-0.033 p.Gly576Alab 42 0.00059 12 20 0.00485 0.004-0.009 p.Arg668Cysc 49 0.00069 16 29 0.00703 0.004-0.009 p.Leu997Phe 28 0.00040 5 9 0.00218 0.001-0.003 p.Arg1162Leu 9 0.00013 2 6 0.00145 0.001 p.Ser1235Arg 54 0.00076 15 21 0.00509 0.005-0.016 aDoes not cause cystic fibrosis unless in cis with the known deleterious variant p.Ile1023_Val1024del66.
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ABCC7 p.Arg75Gln 23974870:173:799
status: NEW
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PMID: 24002981 [PubMed] Wang W et al: "Comprehensive screening for PRSS1, SPINK1, CFTR, CTRC and CLDN2 gene mutations in Chinese paediatric patients with idiopathic chronic pancreatitis: a cohort study."
No. Sentence Comment
122 Recently, Whitcomb et al reported that the coinheritance of CFTR R75Q and SPINK1 variants is significantly higher in patients with ICP than in controls (8.75% vs 0.38%).
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ABCC7 p.Arg75Gln 24002981:122:65
status: NEW
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PMID: 24210900 [PubMed] Berkhout MC et al: "Sinonasal manifestations of cystic fibrosis: a correlation between genotype and phenotype?"
No. Sentence Comment
163 Genotype Frequency; N (%) Class of mutation F508del/F508del 61 (58.7) I-III F508del/3849 + 10kbC 2 (1.9) IV-V F508del/N1303K 2 (1.9) I-III F508del/R1162X 2 (1.9) I-III F508del/A455E 12 (11.5) IV-V F508del/3272-26A N G 5 (4.8) IV-V F508del/E528X 1 (1.0) I-III F508del/S1251N 3 (2.9) IV-V F508del/R75Q 1 (1.0) IV-V F508del/G542X 2 (1.9) I-III F508del/1717-1G N A 1 (1.0) I-III F508del/Ser489X 1 (1.0) I-III F508del/4382delA 1 (1.0) -a F508del/L1077 1 (1.0) I-III F508del/1813insC 1 (1.0) -b A455E/S1251N 1 (1.0) IV-V A455E/E60X 1 (1.0) IV-V 3272-26A N G/G970R 1 (1.0) IV-V 3272-26A N G/R1162X 1 (1.0) IV-V F508del/UNK 2 (1.9) -c R117H-7T/UNK 1 (1.0) -d UNK/UNK 1 (1.0) -e Total 104 (100.4) One patient with pancreatic sufficiency and diagnosed at 46 years of age (class IV-V).
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ABCC7 p.Arg75Gln 24210900:163:295
status: NEW
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PMID: 24517344 [PubMed] Raju SV et al: "Impact of heterozygote CFTR mutations in COPD patients with chronic bronchitis."
No. Sentence Comment
135 Similarly, we did not observe any increase in the incidence of M470V or R75Q as reported earlier in COPD patients from Serbia [22,23].
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ABCC7 p.Arg75Gln 24517344:135:72
status: NEW
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210 Divac A, Nikolic A, Mitic-Milikic M, Nagorni-Obradovic L, Petrovic-Stanojevic N, Dopudja-Pantic V, Nadaskic R, Savic A, Radojkovic D: High frequency of the R75Q CFTR variation in patients with chronic obstructive pulmonary disease.
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ABCC7 p.Arg75Gln 24517344:210:156
status: NEW
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PMID: 24631642 [PubMed] Fanen P et al: "Genetics of cystic fibrosis: CFTR mutation classifications toward genotype-based CF therapies."
No. Sentence Comment
125 As of today, only a few of such mutants have been identified, namely p.Arg75Gln and p.Ile148Thr (Choi et al., 2001; Schneider et al., 2011).
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ABCC7 p.Arg75Gln 24631642:125:71
status: NEW
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126 While p.Ile148Thr appears not to be deleterious (Claustres et al., 2004), p.Arg75Gln was found in some studies Fig. 3. Classification of CF mutations according to CFTR structure and function assessment.
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ABCC7 p.Arg75Gln 24631642:126:76
status: NEW
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PMID: 24954874 [PubMed] Shelton CA et al: "Genetics and treatment options for recurrent acute and chronic pancreatitis."
No. Sentence Comment
44 Members of the CFTR bicarbonate-defective genetic variants (CFTRBD ) include R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R, and D1270N [23ߦߦ, 25].
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ABCC7 p.Arg75Gln 24954874:44:83
status: NEW
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PMID: 25033378 [PubMed] LaRusch J et al: "Mechanisms of CFTR functional variants that impair regulated bicarbonate permeation and increase risk for pancreatitis but not for cystic fibrosis."
No. Sentence Comment
5 Nine variants (CFTR R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R, and D1270N) not associated with typical CF were associated with pancreatitis (OR 1.5, p = 0.002).
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ABCC7 p.Arg75Gln 25033378:5:26
status: NEW
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39 Recently, we reported that the variant CFTR R75Q, which was previously classified as benign, is associated with familial and sporadic chronic pancreatitis, either with another CFTR variant (recessive) or with the serine protease inhibitor, Kazal Type 1 (SPINK1) N34S high-risk haplotype (complex genotype)[18].
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ABCC7 p.Arg75Gln 25033378:39:44
status: NEW
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40 Patch-clamp studies of CFTR R75Q clones under standard conditions demonstrated normal chloride conductance but a selective disruption in bicarbonate conductance[18].
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ABCC7 p.Arg75Gln 25033378:40:28
status: NEW
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41 Thus, CFTR R75Q causes selective bicarbonate defective (CFTRBD ) conductance and is associated with chronic pancreatitis but not CF[18].
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ABCC7 p.Arg75Gln 25033378:41:11
status: NEW
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62 Of 43 CFTR variants identified in the NAPS2 cohort (Table 1), nine not associated with typical CF but reported in patients with pancreatitis[25-29] were of particular interest: R74Q, R75Q, R117H (CFTRm-v only when in cis with IVS8-T5[30]; R117H*T5), R170H, L967S, L997F, D1152H, S1235R, and D1270N.
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ABCC7 p.Arg75Gln 25033378:62:183
status: NEW
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95 CFTR variant %Cases %Uctrls OR p-value %Cases w/N34S OR w/N34S p-value w/N34S CF/BD or BD/BD 2.5 0.1 31.9 ,0.0001 5.5 7.46 0.12 All CF 8.7 3.3 2.76 ,0.0001 16.4 5.65 ,0.0001 F508del CF 6.9 3.1 2.32 ,0.0001 14.5 5.13 ,0.0001 IVS8T5** CF 9.9 8.2 1.24 0.079 10.9 1.37 0.47 2789+5G.A CF 0.3 0.0 0.028 0.0 3849+10kbC.T CF 0.3 0.0 0.028 0.0 N1303K CF 0.3 0.0 0.027 0.0 621+1G.T CF 0.1 0.0 0.13 1.8 ,0.0001 2184delA CF 0.1 0.0 0.13 0.0 3120+1G.A CF 0.1 0.0 0.13 0.0 G551D CF 0.2 0.1 2.50 0.20 0.0 0.00 0.83 W1282X CF 0.2 0.1 2.50 0.20 0.0 0.00 0.83 G542X CF 0.2 0.0 0.059 0.0 R1162X CF 0.1 0.0 0.13 0.0 2183AA.G CF 0.0 0.1 0.17 0.0 0.00 0.83 All BD 14.2 9.8 1.50 0.002 25.5 4.63 ,0.0001 R75Q BD 6.3 6.2 1.02 0.30 16.4 2.97 0.003 S1235R BD 2.4 1.4 1.69 0.052 1.8 1.30 0.80 R117H CF/BD 2.3 0.7 3.49 0.0007 5.5 8.74 0.0002 L967S BD 1.1 0.2 6.87 0.002 1.8 11.17 0.014 L997F BD 0.8 1.0 0.82 0.26 1.8 1.84 0.55 D1152H BD 0.4 0.0 0.014 0.0 D1270N BD 0.3 0.2 1.25 0.29 0.0 0.00 0.71 R170H BD 0.3 0.0 0.028 0.0 R74Q BD 0.3 0.1 3.02 0.17 1.8 21.15 0.002 Other M470V 76.1 74.2 1.11 0.14 70.9 0.85 0.59 T854T 57.3 57.8 0.98 0.29 45.5 0.61 0.071 Q1463Q 39.6 39.5 1.01 0.30 40.0 1.02 0.94 1001+11C.T* 13.4 10.9 1.27 0.016 14.5 1.40 0.42 125G.C 10.3 9.7 1.07 0.26 12.7 1.36 0.45 P1290P 7.6 7.9 0.95 0.28 7.3 0.91 0.86 1716G.A 4.5 4.1 1.10 0.26 1.8 0.43 0.39 R668C 1.0 1.4 0.72 0.19 0.0 0.00 0.38 G576A 0.7 1.2 0.58 0.11 0.0 0.00 0.41 computationally modeled the molecular structure, and studied the dynamics, of wild type (WT) and mutated CFTR channels.
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ABCC7 p.Arg75Gln 25033378:95:680
status: NEW
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124 We identified the R75Q, R117H, L967S, L997F, D1152H, and S1235R CFTRBD variants as well as CFTRCF -associated variants (e.g., F508del, G542X) in cases with rhinosinusitis.
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ABCC7 p.Arg75Gln 25033378:124:18
status: NEW
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129 We identified R75Q, R117H, and S1235R as well as the CFTRCF variants F508del, G542X and 2789+5G,A in male cases with infertility.
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ABCC7 p.Arg75Gln 25033378:129:14
status: NEW
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170 Five variants (R74Q, R75Q, R170H, L967S, and R1162L) were located in the hinge region that modulates the collective movements of the NBDs with respect to the MSDs (Figure 3).
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ABCC7 p.Arg75Gln 25033378:170:21
status: NEW
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172 R75Q is considered to be a non-CF causing mutation according to the CFTR2 mutation database [54].
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ABCC7 p.Arg75Gln 25033378:172:0
status: NEW
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173 CFTR R75Q was identified in 61/906 cases and 75/1214 controls (6.3 vs. 6.2%, p = ns) but was also detected in nine SPINK1 N34S/- mutation carriers (9/55, 16.4%), with strong combined effect (SPINK1 OR 3.7, SPINK1+ R75Q compound OR 12.2, p 0.002).
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ABCC7 p.Arg75Gln 25033378:173:5
status: NEW
X
ABCC7 p.Arg75Gln 25033378:173:214
status: NEW
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175 R75Q was also identified in four cases with a concurrent severe CF-causing mutation and in no compound controls.
X
ABCC7 p.Arg75Gln 25033378:175:0
status: NEW
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269 67 SNPs (125GtoC, 1716G.A, 1717-1G.A, 1898+1G.A, 2183AA.G, 2184delA, 2789+5G.A, 3120+1G.A, 3659delC, 3849+10kbC.T, 621+ 1G.T, 711+5G.A, A455E, D110H, D1152H, D1270N, D443Y, D579G, F1052V, F1074L, F508C, F508del, G1069R, G1244E, G1349D, G178R, G542X, G551D, G551S, I1131L/V, I148T, I336K/T, I507del, I807M, IVS8T5, K1180T, L1065P, L967S, L997F, M1V, M470V, M952I, M952T, N1303K, P67L, Q1463Q, R1070Q, R1162X, R117C, R117H, R170H, R258G, R297Q, R31C, R352Q, R553X, R668C, R74W, R75Q, S1235R, S1255P, S485R, S977F, T338I, T854T, V201M, W1282X) were multiplexed into 6 wells; 14 SNPs (S492F, S945L, R74Q, R560T, R1162L, G85E, I1027T, R334W, R347P, G576A, 711+1G.T, 1001+11C.T, P1290P, 3199del6) were ascertained separately via TaqMan Gene Expression Assays, with repeat confirmation of all positive results.
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ABCC7 p.Arg75Gln 25033378:269:476
status: NEW
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PMID: 25492507 [PubMed] Nakano E et al: "Targeted next-generation sequencing effectively analyzed the cystic fibrosis transmembrane conductance regulator gene in pancreatitis."
No. Sentence Comment
145 Trans-heterozygosity of the SPINK1 p.N34S with the Table 7 Distribution of the c.1210-34TG(9_13) and c.1210-12T(5_9) variants in patients with CP CP chronic pancreatitis c.1210-34TG(9_13), c.1210-12T(5_9) All CP (%) Alcoholic CP (%) Idiopathic CP (%) Hereditary/ familial CP (%) TG10/TG11, 7T/9T 1/193 (0.5) 0/46 (0) 1/121 (0.8) 0/26 (0) TG11/TG11, 7T/7T 46/193 (23.8) 15/46 (32.6) 23/121 (19.0) 8/26 (30.8) TG11/TG11, 7T/9T 4/193 (2.1) 1/46 (2.2) 3/121 (2.5) 0/26 (0) TG11/TG12, 5T/7T 5/193 (2.6) 0/46 (0) 4/121 (3.3) 1/26 (3.8) TG11/TG12, 6T/7T 1/193 (0.5) 0/46 (0) 1/121 (0.8) 0/26 (0) TG11/TG12, 7T/7T 124/193 (64.2) 27/46 (58.7) 81/121 (66.9) 16/26 (61.5) TG11/TG13, 6T/7T 1/193 (0.5) 1/46 (2.2) 0/121 (0) 0/26 (0) TG11/TG13, 7T/7T 1/193 (0.5) 0/46 (0) 1/121 (0.8) 0/26 (0) TG12/TG12, 7T/7T 6/193 (3.1) 0/46 (0) 6/121 (5.0) 0/26 (0) TG12/TG13, 5T/7T 4/193 (2.1) 2/46 (4.3) 1/121 (0.8) 1/26 (3.8) CFTR p.R75Q wasreportedtoincreaseCPrisk[31].6.5 % of the patients with idiopathic or hereditary CP carried variants in at least two pancreatitis susceptibility genes [32].
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ABCC7 p.Arg75Gln 25492507:145:910
status: NEW
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PMID: 25569187 [PubMed] LaRusch J et al: "The Common Chymotrypsinogen C (CTRC) Variant G60G (C.180T) Increases Risk of Chronic Pancreatitis But Not Recurrent Acute Pancreatitis in a North American Population."
No. Sentence Comment
117 Table 3 Demographics, alcohol consumption, smoking, etiology, and status of other genetic mutations (CFTR, SPINK1) in carriers of CTRC mutations in NAPS2 cohort Diagnosis Enrollment age Sex CTRC SPINK1 CFTR Etiology AP.dx age CP.dx age Smoker Drinker Drinker type CP 53 F K247_R254DEL wt wt Alcohol 45 53 Current Ex Heavy CP 61 M R254W wt R75Q Alcohol - 51 Current Current Very heavy RAP 42 F R254W wt wt Alcohol 39 - Ex Current Heavy CP 56 M R254W wt wt Alcohol 39 40 Ex Ex Very heavy CP 31 M R254W N34S F508del Alcohol - 20 Ex Ex Mod RAP 32 F K247_R254DEL wt wt Gallstones 20 - Current Ex Heavy RAP NA M R254W wt wt NA NA - NA NA NA CP 46 M R254W wt wt Idiopathic 28 44 Current Current Light CP 33 M R254W wt wt Idiopathic 27 28 Current No - CP 66 M R254W wt wt Idiopathic 60 62 Ex Ex NA CP 64 F R254W wt wt Idiopathic - 61 Ex No - RAP 43 F R254W wt F508del Idiopathic 42 - No Current Light CP 40 F A73T wt wt Idiopathic - 40 No Ex Mod CP 44 M R254W wt wt Genetic 42 44 No No - CP 6 F R254W N34S/N34S wt Genetic 4 5 No No - Family 37 F R254W N34S wt - - - Ex Current Heavy Control 47 M R254W wt wt - - - Ex Ex Very heavy Control 29 F R254W wt wt - - - No Current Light CP 51 M c.640-12G4A wt NA Alcohol 49 49 Current Current Very heavy CP 56 F c.640-42G4C wt NA Obstructive 56 56 Ex Current Light CP NA M c.640-42G4C wt R75Q Alcohol 51 51 Current Ex Very heavy Family 60 M c.640-42G4C wt NA - - - Ex Current Light AP, acute pancreatitis; CP, chronic pancreatitis; CTRC, chymotrypsinogen C; F, female; M, male; NA, data not available; RAP, recurrent acute pancreatitis; wt, genotyping revealed no mutation.
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ABCC7 p.Arg75Gln 25569187:117:339
status: NEW
X
ABCC7 p.Arg75Gln 25569187:117:1322
status: NEW
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PMID: 25674778 [PubMed] Baker MW et al: "Improving newborn screening for cystic fibrosis using next-generation sequencing technology: a technical feasibility study."
No. Sentence Comment
32 [1075C>A;1079C>A] (Q359K/T360K) - - - Mutations that do not cause CF when combined with another CF-causing mutation c.1727G>C (G576A) c.3485G>T (R1162L) c.224G>A (R75Q) - - c.3080T>C (I1027T) c.91C>T (R31C) c.3705T>G (S1235R) - - c.2991G>C (L997F) c.2002C>T (R668C) c.2260G>A (V754M) - - Mutations/variants that were validated in this study are in bold. CF, cystic fibrosis. Table 1ߒContinued (http://www.hgvs.org/mutnomen/) and legacy mutation nomenclature (http://www.cftr2.org/browse.php).
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ABCC7 p.Arg75Gln 25674778:32:163
status: NEW
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PMID: 25797027 [PubMed] Bergougnoux A et al: "Should diffuse bronchiectasis still be considered a CFTR-related disorder?"
No. Sentence Comment
73 Sequence variation Allelic frequency Distribution cDNA name Protein name Legacy name rs number DB group (n = 94) Control group (n = 94) General populationa CF groupb Databasesc Our study c.-1043dupT - -912dupT no rs 0.01 0 NA 0 (n1) UV NNV c.-966 T N G - -834 T N G rs4148682 0.051 0.0319 0.043-0.562 (19 studies) 0.02 (n1) P P c.-812 T N G - -680 T N G rs181008242 0.01 0 NA 0.015 (n1) UV NNV c.137C N A p.Ala46Asp A46D rs151020603 0.01 0 NA 0.00015 (n2) CF CF c.224G N A p.Arg75Gln R75Q rs1800076 0.021 0.018 0-0.11 (7 studies) 0 (n1) P NNV c.350G N A p.Arg117His R117H rs78655421 0.01 0 0-0.002-0.004 (3 studies) 0.003 (n2) 0.005 (n3) M M c.489 + 23C N G p.
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ABCC7 p.Arg75Gln 25797027:73:475
status: NEW
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ABCC7 p.Arg75Gln 25797027:73:484
status: NEW
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110 The results of this analysis and comparison, when possible, with the MAF range for the general population (dbSNP database) or the CF population (our laboratory cohort or previously published control cohorts [10,11]) indicated that the variants p.Arg75Gln, p.Gly576Ala and p.Arg668Cys were twice more present in the DB cohort than in the general population.
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ABCC7 p.Arg75Gln 25797027:110:246
status: NEW
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148 Transfection of full length CFTR containing the mutation p.Arg75Gln, p.Gly576Ala/p.Arg668Cys (alone and together), p.Val754Met or p.Thr966Thr induced a 30-50% decrease in CFTR mRNA level, compared to WT CFTR (Fig. 2C).
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ABCC7 p.Arg75Gln 25797027:148:59
status: NEW
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153 Quantification of the blots indicated that the level of mature CFTR protein was decreased by 17%-26% in cells expressing the p.Arg75Gln, p.Arg117His, p.Gly576Ala, p.Arg668Cys (alone and together), p.Leu997Phe or p.Thr966Thr variant, and by 48% and 39% in cells expressing p.Glu528Glu and p.Val754Met, respectively (Fig. 2D, lower panel).
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ABCC7 p.Arg75Gln 25797027:153:127
status: NEW
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160 On the other hand, the functional data suggest that the exonic variants p.Arg75Gln, p.Glu528Glu, p.Val754Met and p.Thr966Thr and the promoter variants c.-1043dupT and c.- 812 T N G, which are usually categorized as neutral variants based on epidemiological data, could be considered as in vitro non-neutral variants (NNV).
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ABCC7 p.Arg75Gln 25797027:160:74
status: NEW
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215 The functional data suggest that the exonic variants p.Arg75Gln, p.Glu528Glu, p.Val754Met and p.Thr966Thr and the promoter variants c.-1043dupT and c.-812 T N G, which are usually categorized as neutral variants based on epidemiological data, might be considered NNV.
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ABCC7 p.Arg75Gln 25797027:215:55
status: NEW
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PMID: 26014425 [PubMed] Girardet A et al: "The improvement of the best practice guidelines for preimplantation genetic diagnosis of cystic fibrosis: toward an international consensus."
No. Sentence Comment
87 [Gln359Lys; Thr360Lys] L558S c.1673 T4C p.Leu558Ser Y569D c.1705 T4G p.Tyr569Asp D579G c.1736 A4G p.Asp579Gly D614G c.1841 A4G p.Asp614Gly S977F c.2930C4T p.Ser977Phe F1052V c.3154 T4G p.Phe1052Val G1069R c.3205G4A p.Gly1069Arg R1070Q c.3209G4A p.Arg1070Gln D1152H c.3454G4C p.Asp1152His I1234V c.3700 A4G p.Ile1234Val 5T c.1210 - 12[5] Examples of common not CF-causing variantsc R31C c.91C4T p.Arg31Cys R74W c.220C4T p.Arg74Trp R75Q c.224G4A p.Arg75Gln I148T c.443 T4C p.Ile148Thr M470V c.1408 A4G p.Met470Val G576A c.1727G4C p.Gly576Ala R668C c.2002C4T p.Arg668Cys V754M c.2260G4A p.Val754Met L997F c.2991G4C p.Leu997Phe I1027T c.3080 T4C p.Ile1027Thr R1070W c.3208C4T p.Arg1070Trp R1162L c.3485G4T p.Arg1162Leu Table 1 (Continued) HGVS nomenclature Legacy name cDNA nucleotide name Protein name S1235R c.3705 T4G p.Ser1235Arg D1270N c.3808G4A p.Asp1270Asn 7T c.1210-12[7] Abbreviation: HGVS, Human Genome Variation Society.
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ABCC7 p.Arg75Gln 26014425:87:430
status: NEW
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ABCC7 p.Arg75Gln 26014425:87:446
status: NEW
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104 I1027T is usually found in cis with F508del: Notes: (i) Some missense variants classified as either indeterminate or non CF-causing (R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R and D1270N) can selectively alter the bicarbonate permeation of the CFTR channel (but not the chloride channel), thus affecting primarily the organs that utilize CFTR for bicarbonate secretion (pancreas, nasal sinus, or vas deferens) and, consequently, they could be involved in the pathogenic mechanisms of CFTR-RDs.14 (ii) In Table 1, the traditional name of common CFTR variants is referenced alongside the HGVS version in order to ensure compatibility with clinical reports and understanding by clinicians and couples.
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ABCC7 p.Arg75Gln 26014425:104:139
status: NEW
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PMID: 26089335 [PubMed] Kondo S et al: "Functional characteristics of L1156F-CFTR associated with alcoholic chronic pancreatitis in Japanese."
No. Sentence Comment
300 A study from the United States reported that a risk of chronic pancreatitis was increased by the presence of p.R75Q, a non CF-causing, HCO3 afa; -conductance impairing CFTR variant (40).
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ABCC7 p.Arg75Gln 26089335:300:111
status: NEW
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PMID: 26100556 [PubMed] Koziel D et al: "Genetic mutations in SPINK1, CFTR, CTRC genes in acute pancreatitis."
No. Sentence Comment
154 Recently, Schneider et al. [25] have described that the co-occurrence of R75Q mutation in CFTR and variants of SPINK1 was considerably higher in patients with ICP, compared with the control group (8.75 % vs. 0.38 %).
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ABCC7 p.Arg75Gln 26100556:154:73
status: NEW
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