ABCMdb

ABCC7 p.Val754Met

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Publications

PMID: 10077727 [PubMed] Loumi O et al: "Analysis of the complete coding region of the CFTR gene in ten Algerian cystic fibrosis families."

No. Sentence Comment

17 CF mutations and variants detected in Algerian patients (n = 20 CF chromosomes) Mutations Localization n % Cum fr. del CTT exon 10 4 20 20 N1303K C→G 4041 exon 21 4 20 40 711+1G→T G→T711+1 intron 5 2 10 50 1812-1G→A G→A 1812-1 intron 11 1 5 55 V754M G→A 2392 exon 13 1 5 60 Total 12 60 Table 1b. Variants detected in Algerian subjects (n = 40 chromosomes) Variants Localization n % A→G 1540 exon 10 8 20 P1290P A→G 4002 exon 20 1 2.5 T854T T→G 2694 exon 14a 11 27.5 Q1463Q G→A 4521 exon 24 7 17.5 875+40A→G intron 6a 2 5 5T intron 8 1 2.5 n = number of chromosomes; cum. Login to comment
27 Among the 16 CF chromosomes carrying an unidentified mutated allele, 4 different mutations were identified, as reported in table 1a: N1303K (20%), 711 + 1G→T (10%), V754M (5%), 1812 - 1G→A (5%). Login to comment
36 This female CF patient of Berber origin was a compound heterozygote V754M/1812 - 1G→A. She was admitted at the age of 3 years to the Department of Paediatrics (Ain Taya Hospital, East of Algeria) for bronchiolitis, an elevated sweat chloride test (300 mEq/l) and her sputum colonized by Pseudomonas aeruginosa. Login to comment
37 The V754M (G to A at position 2392) mutation has previously been reported to the Cystic Fibrosis Genetic Analysis Consortium by Roger Mountford and seems to confer moderate disease when it is associated either with 1812 - 1G→A or G542X. Login to comment
74 Four other mutations have been identified: Hum Hered 1999;49:81-84 Loumi/Baghriche/Delpech/Kaplan/ Bienvenu N1303K (20%), 711 + 1G→T (10%), 1812 - 1G→A (5%) and V754M (5%). Login to comment

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. Login to comment
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. Login to comment
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. Login to comment
83 These severe CFTR gene mutations are associated with pancreatic insufficiency and are generally class 1 through 3 mutations: ⌬F508, W1282X, N1303K, S549R, 1677delTA, R117L, 4016insT, G544S, 2423delG, V754M, and 741T→G. Login to comment

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. Login to comment

PMID: 10980579 [PubMed] Bombieri C et al: "Increased frequency of CFTR gene mutations in sarcoidosis: a case/control association study."

No. Sentence Comment

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. Login to comment

PMID: 11504857 [PubMed] Chen JM et al: "A combined analysis of the cystic fibrosis transmembrane conductance regulator: implications for structure and disease models."

No. Sentence Comment

590 Taking advantage of the previously redefined R domain, a systemic evaluation of the missense mutations occurring in this region was produced, and as a result, some of these mutations, such as F693L, V754M, and T760M, were identified as being likely to represent neutral polymorphisms (Chen, Scotet, and Ferec 2000). Login to comment

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

111 Slovakia ∆F508 (57.3%) CFTRdele2,3 (1.2%) 82.7 68.4 14 908/254 CFGAC [1994]; Estivill et al. G542X (6.8%) 3849+10KbC→T (1.0%) [1997]; Dörk et al. [2000]; R553X (4.0%) S42F (0.9%) Macek et al. [2002] N1303K (3.4%) R75X (0.9%) 2143delT (1.8%) G85E (0.9%) R347P (1.4%) 605insT (0.9%) W1282X (1.3%) 1898+1G→A (0.9%) Slovenia ∆F508 (57.8%) R347P (1.1%) 79.7 63.5 16 455/132 CFGAC [1994]; Dörk et al. 2789+5G→A (4.1%) S4X (0.8%) [2000]; Macek et al. [2002] R1162X (3.2%) 457TAT→G (0.8%) G542X (1.9%) D192G (0.8%) Q552X (1.5%) R553X (0.8%) Q685X (1.5%) A559T (0.8%) 3905insT (1.5%) 2907delTT (0.8%) CFTRdele2,3 (1.5%) 3667ins4 (0.8%) Spain ∆F508 (52.7%) G85E (0.8%) 80.2 64.3 21 3608/1356 Chillón et al. [1994]; Casals et G542X (8.0%) R1066C (0.8%) al. [1997]; Estivill et al. [1997] N1303K (2.5%) 2789+5G→A (0.7%) 3601-111G→C (2.0%) 2869insG (0.7%) 1811+1.6Kb A→G (1.7%) ∆I507 (0.6%) R1162X (1.6%) W1282X (0.6%) 711+1G→T (1.3%) L206W (0.5%) R334W (1.2%) R709X (0.5%) Q890X (1.0%) K710X (0.5%) 1609delCA (1.0%) 3272-26A→G (0.5%) 712-1G→T (1.0%) Sweden ∆F508 (66.6%) E60X (0.6%) 85.9 73.8 10 1357/662 Schwartz et al. [1994]; Estivill et 394delTT (7.3%) Y109C (0.6%) al. [1997]; Schaedel et al. 3659delC (5.4%) R117H (0.6%) [1999] 175insT (2.4%) R117C (0.6%) T338I (1.2%) G542X (0.6%) Switzerland ∆F508 (57.2%) K1200E (2.1%) 91.3 83.4 9 1268/1173 Estivill et al. [1997]; R553X (14.0%) N1303K (1.2%) Hergersberg et al. [1997] 3905insT (9.8%) W1282X (1.1%) 1717-1G→A (2.7%) R347P (0.6%) G542X (2.6%) Ukraine ∆F508 (65.2%) CFTRdele2,3 (1.1%) 74.6 55.7 6 1055/580 Estivill et al. [1997]; Dörk et al. R553X (3.6%) G551D (1.8%) [2000]; Macek et al. [2002] N1303K (2.4%) W1282X (0.5%) United ∆F508 (75.3%) 621+1G→T (0.93%) 81.6 66.6 5 19622/9815 Schwartz et al. [1995b]; Kingdom G551D (3.1%) 1717-1G→A (0.57%) Estivill et al. [1997] (total) G542X (1.7%) 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 WORLDWIDEANALYSISOFCFTRMUTATIONS585 United ∆F508 (56.6%) 621+1G→T (1.8%) 69.1 47.7 7 456 CFGAC [1994] Kingdom G551D (3.7%) R117H (1.5%) (N. Ireland) R560T (2.6%) ∆I507 (0.9%) G542X (2.0%) United ∆F508 (19.2%) 621+2T→C (3.8%) 84.4 71.2 11 52 Malone et al. [1998] Kingdom Y569D (15.4%) 2184insA (3.8%) (Pakistani) Q98X (11.5%) R560S (1.9%) 1525-1G→A (9.6%) 1898+1G→T (1.9%) 296+12T→C (7.7%) R709X (1.9%) 1161delC (7.7%) United ∆F508 (71.3%) 1717-1G→A (1.0%) 86.4 74.6 9 1236/730 Shrimpton et al. [1991]; Kingdom G551D (5.5%) 621+1G→T (0.6%) Gilfillan et al. [1998] (Scotland) G542X (4.0%) ∆I507 (0.6%) R117H (1.4%) R560T (0.6%) P67L (1.4%) United ∆F508 (71.6%) 1717-1G→A (1.1%) 98.7 97.4 17 183 Cheadle et al. [1993] Kingdom 621+1G→T (6.6%) 3659delC (0.5%) (Wales) 1898+1G→A (5.5%) R117H (0.5%) G542X (2.2%) N1303K (0.5%) G551D (2.2%) E60X (0.5%) 1078delT (2.2%) S549N (0.5%) R1283M (1.6%) 3849+10KbC→T (0.5%) R553X (1.1%) 4016insT (0.5%) ∆I507 (1.1%) Yugoslavia ∆F508 (68.9%) 3849G→A (1.0%) 82.2 67.6 11 709/398 Dabovic et al. [1992]; Estivill et G542X (4.0%) N1303K (0.8%) al. [1997]; Macek et al. R1162C (3.0%) 525delT (0.5%) (submitted for publication) 457TAT→G (1.0%) 621+1G→T (0.5%) I148T (1.0%) G551D (0.5%) Q552X (1.0%) Middle East/Africa Algeria 1) DF508 (20.0%) 4) 1812-1G®A (5.0%) - - 5 20 Loumi et al. [1999] 2) N1303K (20.0%) 5) V754M (5.0%) 3) 711+1G®T (10.0%) Jewish W1282X (48.0%) 3849+10KbC→T (6.0%) 95.0 90.3 6 261 Kerem et al. [1995] (Ashkenazi) ∆F508 (28.0%) N1303K (3.0%) G542X (9.0%) 1717-1G→A (1.0%) Jewish 1) N1303K - - 1 6 Kerem et al. [1995] (Egypt) Jewish 1) Q359K/T360K - - 1 8 Kerem et al. [1995] (Georgia) Jewish 1) DF508 2) 405+1G®A - - 2 11 Kerem et al. [1995] (Libya) Jewish 1) DF508 (72.0%) 3) D1152H (6.0%) - - 3 33 Kerem et al. [1995] (Morocco) 2) S549R (6.0%) Jewish ∆F508 (35.0%) W1282X (2.0%) 43.0 18.5 4 51 Shoshani et al. [1992] (Sepharadim) G542X (4.0%) S549I (2.0%) (Continued) BOBADILLAETAL. Login to comment
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. Login to comment

PMID: 15520400 [PubMed] Niel F et al: "Rapid detection of CFTR gene rearrangements impacts on genetic counselling in cystic fibrosis."

No. Sentence Comment

192 The former was found in cis with the V754M variation (exon 13), which has been described as a CF mutation (www.genet. sickkids.on.ca/cftr). Login to comment
209 ÀThe CFTRdele3-10,14b-16 deletion was identified in cis with the V754M variation. Login to comment
256 We considered a possible complex allele in patient no. 9, on a V754M background, as the corresponding part of the R domain is not well conserved among species, residue V754 being a valine in primates but a methionine in rabbit and mouse species. Login to comment
257 In addition, residue V754 is not located in the refined functional R domain.37 V754M was described as a CF mutation, as it was found in a patient having classical CF (www.genet.sickkids.on.ca/cftr). Login to comment
258 The identification of the complex CFTRdele3-10,14b-16 in cis with V754M thus leads to the reconsideration of V754M as probably not disease causing, which will reassure individuals studied for carrier screening who are V754M heterozygotes but do not carry any other mutation/deletion. Login to comment

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. Login to comment
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. Login to comment

PMID: 16786510 [PubMed] Niel F et al: "A new large CFTR rearrangement illustrates the importance of searching for complex alleles."

No. Sentence Comment

7 [Phe508del]+[Val754Met] genotype was found in a healthy individual, bring further arguments against the association of p.Val754Met with CF. Login to comment
1 A New Large CFTR Rearrangement Illustrates the Importance of Searching for Complex Alleles F Niel1 , M Legendre1 , T Bienvenu2 , E Bieth3 , G Lalau4 , I Sermet5 , D Bondeux6 , R Boukari7 , J Derelle8 , P Levy9 , P Ruszniewski9 , J Martin1 , C Costa1 , M Goossens1 , and E Girodon1* 1 Service de Biochimie-Génétique, Hôpital Henri Mondor AP-HP, Créteil, France; 2 Service de Biochimie-Génétique, Hôpital Cochin AP-HP, Paris, France; 3 Laboratoire de Génétique Médicale, Hôpital Purpan, Toulouse, France; 4 Laboratoire de Biochimie et Biologie Moléculaire, Hôpital Calmette, Lille, France; 5 Service de Pédiatrie, Hôpital Necker-Enfants-Malades AP-HP, Paris, France; 6 Département de Pédiatrie, Hôpital Porte Madeleine, Orléans, France; 7 Service de Pédiatrie, Hôpital Noureddine El Atassi, Alger, Algérie; 8 Médecine Infantile, Hôpital d`Enfants, Vandoeuvre-les Nancy, France; 9 Service de Gastro-Entérologie, Hôpital Beaujon AP-HP, Clichy, France *Correspondence to: Emmanuelle Girodon, Service de Biochimie-Génétique, Hôpital Henri Mondor AP-HP, Créteil, France, Tel.: 33 1 49 81 28 57; Fax: 33 1 49 81 28 42; E-mail: Emmanuelle.Girodon@im3.inserm.fr Communicated by Richard G.H. Cotton The p.Val754Met variant, described in 1996 in a CF patient, has been considered a CF mutation. Login to comment
2 However, biochemical aspects, results of functional studies and, finally, the identification of a complex deletion removing exons 3 to 10 and 14b to 16 in cis of p.Val754Met in a CF patient, argue against a strong deleterious effect. Login to comment
3 An inventory through the French CF network of patients carrying p.Val754Met led to the registration of seven patients (CF: n=4; idiopathic chronic pancreatitis: n=3) and six healthy individuals, all heterozygous for the variation. Login to comment
8 We thus suggest looking for a possible complex allele whenever p.Val754Met is detected and considering it neutral regarding genetic counseling when found in isolation. Login to comment
9 (c) 2006 Wiley-Liss, Inc. KEY WORDS: CFTR; ABCC7; CF; cystic fibrosis; gene rearrangement; complex deletion; complex allele; p.Val754Met INTRODUCTION Cystic fibrosis (CF; MIM# 219700) is one of the most common autosomal recessive hereditary diseases in the Caucasian population. Login to comment
15 The p.Val754Met variant (2392G>A or c.2260G>A according to the approved nomenclature), first described by A.Wallace in 1996 in a CF patient (www.genet.sickkids.on.ca/cftr) and subsequently identified in other CF patients, has therefore been considered a CF mutation. Login to comment
18 However, there have been several lines of evidence against a strong deleterious effect of p.Val754Met: 1) the conservative nature of the Val>Met substitution; 2) the presence of a Met residue in place of Val in some species and the benign nature of the substitution predicted by the SIFT® and Polyphen® softwares; 3) results of functional studies which suggest that residue Val754 does not belong to the functional "R" domain (Chen et al., 2000); 4) finally, the recent identification by semi-quantitative fluorescent multiplex PCR of a complex deletion, CFTRdele3_10,14b_16, removing exons 3 to 10 and 14b to16 in cis of p.Val754Met in a CF patient (Niel et al., 2004). Login to comment
19 The aim of this study was to determine whether we should still consider p.Val754Met as a possible disease-associated mutation or reclassify it as a neutral polymorphism. Login to comment
20 We thus made an inventory of patients and individuals with p.Val754Met, screened for the complex deletion and for other possible CFTR anomalies, and studied the associated CFTR haplotypes. Login to comment
21 Here, we gather lines of evidence that p.Val754Met should be no longer considered as a CF mutation. Login to comment
22 PATIENTS AND METHODS Patients and controls Thirteen patients and individuals from diverse origins and all heterozygous for the p.Val754Met variant, were registered from the French CF network of molecular genetics laboratories (Table 1): seven patients (four having CF and three presenting with idiopathic chronic pancreatitis) and six healthy individuals (an infant, three partners of CF carriers, a CF patient`s relative and a mother of a fetus with bowel anomalies). Login to comment
33 Phenotype and genotype data of patients/individuals carrying the p.Val754Met variation Patient Phenotype Origin Allele 1 Allele 2 CFTR haplotype linked to p.Val754Met c p.Val754Met b CFTRdele3_10, 14b_16 b 1a CF Kabylia + + 1812-1G>A (c.1680-1G>A) 22; del; del; 7; 17 2 CF Northwestern France + + 3659delC (c.3528delC) 22; del; del; 7; 17 3 CF Algeria + + p.Asn1303Lys 22; del; del; 7; 17 4 CF Turkey + + p.Phe508del 22; del; del; 7; 17 5 Chronic pancreatitis Portugal + - but p.Phe311Leu p.Phe508del 22; 23; 10-9; 7; 17 6 Chronic pancreatitis Not known + - IVS8(TG)12(T)5 (c.1210-34(TG)12(T)5) 21 or 23; 16; 107; 7; 17 7 Chronic pancreatitis Northern France + - IVS8(TG)11(T)5 (c.1210-34(TG)11(T)5) 22; 23; 10-9; 7; 17 8 healthy Southwestern France + - p.Phe508del 22; 23; 10-9; 7; 17 9 healthy Northern France + - Wild 22; 23; 10-9; 7; 17 10 healthy Northern France + - Wild 22; 16 or 21; 109; 7; 17 11 healthy Northern France + - Wild 22; 23; 10-9; 7; 17 12 healthy Turkey + - Wild 22; 23; 10-9; 7; 17 13 healthy France + - Wild 22; 23; 10-9; 7; 17 The recommendations for mutation nomenclature (www.hgvs.org/mutnomen/) were used to name CFTR gene sequence variations at the protein level. For variations described at the nucleotide level, the A of the ATG translation start codon was numbered as +133 in accordance with the current CFTR gene numbering based on cDNA sequence (GenBank NM_000492.2) and on the CF mutation database. These variations were also given in parentheses following the approved nomenclature format (A of the ATG translation start codon as +1, "c." Login to comment
36 b "+" and "-" refer to the presence or absence of p.Val754Met and CFTRdele3_10,14b_16. Login to comment
39 Phenotype data of patients carrying the p.Val754Met variation Patient Age at diagnosis Current age Gender Pulmonary outcome Pancreatic status Other Sweat testa 1 9 y Deceased at 14 y F Severe PI 150 2 birth (neonatal screening) 6 y M Severe PI 80 3 1 y 11 y M Severe PI Failure to thrive 120-150 4 birth (neonatal screening) 17 m M Severe PI 104-107 5 16 y 17 y M None PS Minor epilepsy Nd 6 60 y 62 y F None PS Lymphoid hemopathy Nd 7 adulthood Deceased at 37 y M None PS Severe, complicated, Crohn`s disease; alcoholism Nd y: years; m: months; F: female; M: male; PI: pancreatic insufficiency; PS: pancreatic sufficiency; Nd: not done. Login to comment
41 The frequency of the p.Val754Met variant in the general population has been estimated low in European populations, below 0.17%, as it was found neither among 191 healthy European individuals (Bombieri et al., 2000) nor among 115 healthy French individuals (Girodon et al., 2002). Login to comment
42 As two of our patients carrying p.Val754Met were of Arab origin and one was Turkish, we studied another control population of 116 healthy individuals from Arab (mostly Northern African) or Turkish extraction, who were referred to our laboratory for carrier screening (56 partners of CF carriers and 60 parents of fetuses with bowel anomalies but not affected with CF). Login to comment
48 Extensive CFTR gene analyses were performed in the patients / individuals carrying p.Val754Met: (i) screening for frequent mutations using diverse commercial assays; (ii) scanning of the 27 exons and their boundaries using denaturing gradient gel electrophoresis (DGGE) (Fanen et al., 1992; Costes et al., 1993) or denaturing high pressure liquid phase chromatography (DHPLC) (Le Marechal et al., 2001), followed by sequencing to characterize the variants; (iii) screening for the intronic splicing 1811+1.6kbA>G mutation (c.1679+1634A>G) (Chillon et al., 1995b); (iv) screening for large CFTR rearrangements using a semi-quantitative fluorescent multiplex PCR (QFM-PCR) assay recently developed in our laboratory and which enabled the detection of 20% of the rearrangements among previously unidentified alleles in CF patients (Niel et al., 2004). Login to comment
49 The healthy subjects tested for genetic counseling purposes were screened for frequent mutations (CF OLA assay, Abbott, Rungis, France, www.abbott.com) and for other mutations according to their geographical or ethnic background (Claustres et al., 2000; Kilinc et al., 2002), including DHPLC analysis of exon 13 where p.Val754Met is located. Login to comment
50 CFTR haplotype analysis To determine the haplotypes associated with p.Val754Met in isolation and in cis with the complex deletion, five intragenic multiallelic markers were studied: IVS1(CA) [185+10167(CA)17_26] ([c.53+10167(CA)17_26]); IVS8(CA) [1342-307(GT)14_24] ([c.1210-307(GT)14_24]); IVS8(TG)m(T)n [1342-34(TG)9_13(T)5_9] ([c.1210-34(TG)9_13(T)5_9]); IVS17b(TA) [3499+200(TA)7_57] ([c.3367+200(TA)7_57]) and IVS17b(CA) [3499+428(CA)11_19] ([c.3367+428(CA)11_19]). Login to comment
55 RESULTS Among the 13 patients / individuals carrying p.Val754Met, only the four patients affected with classical CF carried the complex deletion (Fig. Login to comment
57 In all these cases, p.Val754Met was in cis of the deletion. Login to comment
60 In case #8, the healthy infant carried p.Phe508del and p.Val754Met in trans, but not the deletion. Login to comment
61 Chronic pancreatitis patients #6 and 7 carried the IVS8(T)5 variant, albeit linked to different (TG) repeats, but we could not confirm that it was in trans of p.Val754Met. Login to comment
70 Analysis of five intragenic CFTR microsatellites in the patients / individuals carrying p.Val754Met and their families evidenced the same haplotype linked to the complex allele, [IVS1(CA)22; IVS17b(TA)7; IVS17b(CA)17], extended to IVS8(CA)23 and IVS8(TG)10(T)9 in cases 8, 11 and 12 (Table 1). Login to comment
71 The same haplotype could be linked to p.Val754Met also in cases #5, 7, 9 and 13, despite the absence of a segregation study. Login to comment
73 Among the 116 healthy subjects, one carried p.Val754Met (allele frequency: 0.43%) and was thus included in our series (case #12). Login to comment
74 She was the mother of a fetus with an echogenic bowel, who was not affected with CF and did not inherit p.Val754Met. Login to comment
80 DISCUSSION An inventory of patients / individuals carrying the p.Val754Met variation through the French CF network of molecular genetics laboratories (dealing with around 10,000 samples for CFTR gene studies per year), led to the registration of 13 patients / individuals. Login to comment
83 Cases #1-5 and 8 with compound heterozygosity for p.Val754Met and a severe mutation (Table 1) are particularly informative and bring further arguments against considering p.Val754Met as a CF-causing mutation. Login to comment
84 The four CF patients carried the complex deletion in cis with p.Val754Met. Login to comment
87 We also hypothesize that p.Val754Met is in cis with p.Phe311Leu rather than with p.Phe508del, because of the putative frequent haplotype linked to p.Phe508del, [IVS1(CA)22; IVS8(CA)23; IVS8(TG)10(T)9; IVS17b(TA)31; IVS17b(CA)13], the other haplotype being identical to that found in other p.Val754Met alleles (Table 1). Login to comment
91 The infant in case #8 carried p.Phe508del and p.Val754Met in trans but neither the deletion nor any other detectable CFTR mutation. Login to comment
94 Later on, the counseling was more reassuring because of the complex deletion identified in cis of p.Val754Met in the meanwhile in patient #1, and the pregnancy was finally continued to term. Login to comment
95 A mild detrimental effect of p.Val754Met cannot be however definitely excluded, and this case is worth clinical follow-up. Login to comment
96 Also, it is not possible to definitely rule out a role of p.Val754Met in the pathogenesis of chronic pancreatitis or other CFTR related diseases. Login to comment
98 However, segregation analysis could not be performed in the families of patients #6 and 7 to determine whether p.Val754Met was in cis or trans of the IVS8(T)5 variant, because of the clinical context (age of patient #6 and decease of patient #7) and the limited value of genetic counseling in these cases. Login to comment
99 Analysis of the literature evidenced other descriptions of p.Val754Met at the heterozygous state, but which are of no further help in considering whether the variant is deleterious or not: in a German patient with idiopathic chronic pancreatitis (Weiss et al., 2005) and in a patient from Spain with unexplained disseminated bronchiectasis (Casals et al., 2004). Login to comment
103 It is noteworthy that, while we found p.Val754Met in patients from diverse origins, two patients carrying the deletion were of Arab extraction and one was from Turkey, a cosmopolitan country including European, Middle Eastern and Arab populations. Login to comment
105 The frequency of p.Val754Met in the Caucasian general population appears to be weak: although we could register five unrelated healthy French individuals for this study, p.Val754Met was not found among 191 healthy European individuals (Bombieri et al., 2000) nor among 115 healthy French individuals (Girodon et al., 2002) (allele frequency: below 0.17%). Login to comment
107 Determination of haplotypes linked to p.Val754Met in cis with the deletion or in isolation demonstrated the same haplotype in the four CF patients, consisting of three microsatellites, and extended to five sites in three healthy individuals. Login to comment
108 The same haplotype may be linked to p.Val754Met in four other cases despite the absence of segregation study, while different alleles have been found in two cases (#6 and 10). Login to comment
109 These results, together with the fact that p.Val754Met is located at a CpG dinucleotide and has been found in patients from diverse geographical origins, suggest a possible recurrent event. Login to comment
110 We however hypothesize a founding effect for the complex deletion occurring on a p.Val754Met background, possibly in an Arab population. Login to comment
119 In conclusion, while a mild detrimental effect of p.Val754Met could not be definitely ruled out, there are now strong lines of evidence against a severe deleterious effect and its association with CF. Login to comment
120 This has notable implications for genetic counseling: whenever p.Val754Met is identified, we suggest looking for a possible complex allele, in particular associating the CFTRdele3_10,14b_16 deletion. Login to comment
123 When p.Val754Met is in isolation in non CF patients or healthy individuals, counseling can be reassuring with regard to its transmission in offspring. Login to comment
124 Also, the search for p.Val754Met should not be recommended in their relatives. Login to comment

PMID: 17003641 [PubMed] Keiles S et al: "Identification of CFTR, PRSS1, and SPINK1 mutations in 381 patients with pancreatitis."

No. Sentence Comment

71 Patients With 1 CFTR Mutation CFTR Mutation 1 No. of Patients 1717-1 G9A 1 2789+5 G9A 1 3849+10kb C9T 2 3849+45 G9A 1 621+3 A9G 2 A1364V 1 A349V 1 A455E 1 D1152H 1 D1445N 1 deltaF508 16 E217G 1 F1286C 1 F316L 1 G542X 1 G551D 1 I148T 1 I807M 1 L206W 1 L967S 2 L997F 2 P55S 1 Q179K 1 Q220X 1 R117H 3 R1453W 1 R297Q 1 R31C 1 R668C 2 S1235R 1 S573C 1 S945L 1 V562A 1 V754M 2 Y1092X 1 Total patients 58 MutationsinboldfacewouldnothavebeendetectedbytheACOG/ACMGmutationpanel. Login to comment

PMID: 17413420 [PubMed] Grangeia A et al: "Molecular characterization of the cystic fibrosis transmembrane conductance regulator gene in congenital absence of the vas deferens."

No. Sentence Comment

93 DeltaF508 was the second most common mutation, representing 21 (23.3%) of total alleles, followed by R334W (6, Table 1 CFTR gene mutations and polymorphisms in patients with congenital absence of the vas deferens Mutation Location Nucleotide alteration Effect Method 1 CFTRdele2,3 Exons 2-3 Deletion of exons 2 and 3 Frameshift QFM-PCR 2 R117H Exon 4 G¡A at 482 AA substitution 31 mutation panel 3 P205S Exon 6a C¡T at 745 AA substitution DGGE/dHPLC 4 L206W Exon 6a T¡G at 749 AA substitution DGGE/dHPLC 5 R258G Exon 6b A¡G at 904 AA substitution DGGE/dHPLC 6 R334W Exon 7 C¡T at 1132 AA substitution 31 mutation panel 7 T5 allele Intron 8 Deletion of 2T at 1342-12 to -6 Aberrant splicing DGGE/DNA sequencing 8 P439S Exon 9 C¡T at 1447 AA substitution DGGE/dHPLC 9 D443Ya Exon 9 G¡T at 1459 AA substitution DGGE/dHPLC 10 I507del Exon 10 Deletion of 3 bp at 1648-1653 AA deletion 31 mutation panel 11 DeltaF508 Exon 10 Deletion of 3 bp at 1652-1655 AA deletion 31 mutation panel 12 G542X Exon 11 G¡T at 1756 Truncation 31 mutation panel 13 V562I Exon 12 G¡A at 1816 AA substitution DGGE/dHPLC 14 G576Aa Exon 12 G¡C at 1859 Aberrant splicing DGGE/dHPLC 15 D614G Exon 13 A¡G at 1973 AA substitution DGGE/dHPLC 16 R688Ca Exon 13 C¡T at 2134 AA substitution DGGE/dHPLC 17 V754M Exon 13 G¡A at 2392 AA substitution DGGE/dHPLC 18 E831X Exon 14a G¡T at 2623 Truncation DGGE/dHPLC 19 3272-26AϾG Intron 17a A¡G at 3272-26 Aberrant splicing DGGE/dHPLC 20 2789ϩ5G¡A Intron 14b G¡A at 2789ϩ5 Aberrant splicing 31 mutation panel 21 V1108L Exon 17b G¡C at 3454 AA substitution DGGE/dHPLC 22 L1227S Exon 19 T¡C at 3812 AA substitution DGGE/dHPLC 23 S1235R Exon 19 T¡G at 3837 AA substitution DGGE/dHPLC 24 P1290S Exon 20 C¡T at 4000 AA substitution DGGE/dHPLC 25 N1303K Exon 21 C¡G at 4041 AA substitution 31 mutation panel 26 E1401K Exon 23 G¡A at 4333 AA substitution DGGE/dHPLC Polymorphisms 1 TG repeats Intron 8 9-13 copies at 1342-12 to -35 Sequence variation DGGE/DNA sequencing 2 M470V Exon 10 A or G at 1540 Sequence variation DNA sequencing 3 125G/C Exon 1 G¡C at 125 Sequence variation DGGE/dHPLC 4 1001ϩ11T/C Intron 6b C¡4T at 1001ϩ11 Sequence variation DGGE/dHPLC 5 1716G/A Exon 10 G¡A at 1716 Sequence variation DGGE/dHPLC 6 1899-136T/G Intron 12 T¡G at 1899-136 Sequence variation DGGE/dHPLC 7 T854T Exon 14a T¡G at 2694 Sequence variation DGGE/dHPLC 8 3601-65C/A Intron 18 C¡A at 3601-65 Sequence variation DGGE/dHPLC 9 4521G/A Exon 24 G¡A at 4521 Sequence variation DGGE/dHPLC QFM-PCR, semiquantitative fluorescent multiplex polymerase chain reaction; bp, base pair; DGGE, denaturing gradient gel electrophoresis; dHPLC, denaturing high-performance liquid chromatography. Login to comment
110 Large Table 3 Allelic frequencies of CFTR mutations in patients with congenital absence of the vas deferens CBAVD CUAVD Total Patients 42 3 45 Alleles 84 6 90 Mutations N % N % N % 1 T5 allele 26a 31 2 33.3 28 31.1 2 DeltaF508 20 23.8 1 16.7 21 23.3 3 R334W 6a 7.1 0 0 6 6.7 4 R117H 4 4.8 0 0 4 4.4 5 G576A 4b 4.8 0 0 4 4.4 6 R688C 4b 4.8 0 0 4 4.4 7 S1235R 3a 3.6 0 0 3 3.3 8 3272-26A¡G 3 3.6 0 0 3 3.3 9 P205S 2 2.4 0 0 2 2.2 10 L206W 2 2.4 0 0 2 2.2 11 D443Y 2b 2.4 0 0 2 2.2 13 D614G 2 2.4 0 0 2 2.2 14 N1303K 2 2.4 0 0 2 2.2 12 G542X 0 0 2 33.3 2 2.2 15 R258G 1 1.2 0 0 1 1.1 16 P439S 1 1.2 0 0 1 1.1 17 I507del 1 1.2 0 0 1 1.1 18 V562I 1 1.2 0 0 1 1.1 19 V754M 1 1.2 0 0 1 1.1 20 E831X 1 1.2 0 0 1 1.1 21 2789ϩ5G¡A 1 1.2 0 0 1 1.1 22 V1108L 1 1.2 0 0 1 1.1 23 L1227S 1 1.2 0 0 1 1.1 24 P1290S 1 1.2 0 0 1 1.1 25 E1401K 1 1.2 0 0 1 1.1 26 CFTRdele2,3 1 1.2 0 0 1 1.1 CBAVD, congenital bilateral absence of the vas deferens; CUAVD, congenital unilateral absence of the vas deferens. Login to comment
143 G576A-R668C/V754M, G576A-R668C/T5), and only one case was associated with a severe mutation (DeltaF508del/D443Y-G576A-R668C). Login to comment

PMID: 17660831 [PubMed] Baker JM et al: "CFTR regulatory region interacts with NBD1 predominantly via multiple transient helices."

No. Sentence Comment

149 Milder phenotypes are seen for many cystic fibrosis-causing CFTR missense mutations within the R region, consistent with this multisite behavior, and the majority of these mutations are at the PKA recognition and phosphorylation sites (R709N, S712C, R735K, S737F, V754M, R766M, R810G and S813P; http://www. Login to comment

PMID: 20021716 [PubMed] Gallati S et al: "Cystic fibrosis transmembrane conductance regulator mutations in azoospermic and oligospermic men and their partners."

No. Sentence Comment

81 In 70 women whose partners had tested positive for either CFTR mutations or 5T alleles, extended screening of the CFTR gene was also performed revealing a mutation spectrum similar to that of oligospermic men including four 5T alleles, three S1235R, three F508del and one I148T, V754M, V920M, D1152H, 3905insT and Q1352H each (Table 1). Login to comment
99 Couple no. Infertile male CFTR mutation Female partner CFTR mutation Offspring genotype Risk for genotype (%) 01 F508del/wt azoospermia F508del/wt F508del/ F508del 25 F508del/wt 50 wt/wt 25 02 F508del/T5 CAVD F508del/wt F508del/ F508del 25 F508del/T5 25 F508del/wt 25 T5/wt 25 03 F508del/S13Ya azoospermia T5/wt F508del/T5 25 S13Y/T5 25 F508del/wt 25 S13Y/wt 25 04 I148T/wt oligospermia F508del/wt F508del/ I148T 25 I148T/wt 25 F508del/wt 25 wt/wt 25 05 1717À1G>A/wt oligospermia T5/wt 1717À1G>A/ T5 25 1717À1G>A/ wt 25 T5/wt 25 wt/wt 25 06 T5/wt oligospermia 3905insT/wt 3905insT/T5 25 3905insT/wt 25 T5/wt 25 wt/wt 25 07 T5/wt azoospermia D1152H/wt D1152H/T5 25 D1152H/wt 25 T5/wt 25 wt/wt 25 08 T5/F1052V oligospermia S1235R/wt F1052V/ S1235R 25 S1235R/T5 25 F1052V/wt 25 T5/wt 25 09 S1235R/wt oligospermia T5/wt S1235R/T5 25 S1235R/wt 25 T5/wt 25 wt/wt 25 10, 11 T5/wt oligospermia S1235R/wt S1235R/T5 25 S1235R/wt 25 T5/wt 25 wt/wt 25 12 V754M/wt oligospermia T5/wt V754M/T5 25 V754M/wt 25 T5/wt 25 wt/wt 25 13 T5/wt oligospermia Q1352H/wt Q1352H/T5 25 Q1352H/wt 25 T5/wt 25 wt/wt 25 (continued on next page)(continued) female partner is a carrier. Login to comment
117 Based on discriminant analysis, this study predicts a high probability for the presence of CFTR mutations especially in patients with reduced ejaculate volumes (<3 ml) and structural abnormalities such as CAVD, inguinal hernia, hypotrophic testes or cryptorchidism, confirming former findings reported by Casals et al. (2000) and representing symptoms that are also frequently observed in Table 3 (continued) Couple no. Infertile male CFTR mutation Female partner CFTR mutation Offspring genotype Risk for genotype (%) 14 R31C/wt oligospermia V920M/wt R31C/V920M 25 R31C/wt 25 V920M/wt 25 wt/wt 25 15 R31C/wt azoospermia I148T/wt R31C/I148T 25 R31C/wt 25 I148T/wt 25 wt/wt 25 16 V754M/wt oligospermia V754M/wt V754M/V754M 25 V754M/wt 50 wt/wt 25 Bold = mutations associated with classic cystic fibrosis; italic = mutations associated with a mild or uncertain, unpredictable phenotype; CAVD = congenital absence of the vas deferens; wt = wildtype allele. Login to comment

PMID: 20706124 [PubMed] Lucarelli M et al: "A new complex allele of the CFTR gene partially explains the variable phenotype of the L997F mutation."

No. Sentence Comment

103 In vivo findings and, in some cases, in vitro functional characterizations have been reported for [F508C; S1251N],38 [R347H; D979A],39,40 [R74W; D1270N],41 [G628R; S1235R],42,43 [M470V; S1235R],42 [S912L; G1244V],44 [R117H; (TG)mTn],45-47 [R117C; (TG)mTn],46 [S1235R; (TG)mT5],48 [G576A; R668C],10,49 [V562I; A1006E],49 [R352W; P750L],49 [1198_1203del TGGGCT; 1204GϾA],49 [V754M; CFTRdele3_10,14b_16],50 and [F508del; I1027T].51 These complex alleles have been found in patients with either CF or CFTR-RD, although more often in the former. Login to comment

PMID: 9736778 [PubMed] Vankeerberghen A et al: "Characterization of 19 disease-associated missense mutations in the regulatory domain of the cystic fibrosis transmembrane conductance regulator."

No. Sentence Comment

44 The different RD mutations affected almost all, except D648V, V754M and A800G, amino acid moieties that were absolutely or highly conserved. Login to comment
50 Two additional disease mutations, which were not characterized at the functional level in this study, were identified [K698R and V754M (15)]. Login to comment
77 Mutations detected in patients (I601F, L610S, A613T, D614G, I618T, L619S, H620P, H620Q, D622G, G628R, L633P, T665S, F693L, K698R, V754M, R766M, R792G, A800G, I807M, E822K and E826K) are indicated in bold and underlined, the PKA phosphorylation sites by an arrow and the two acidic domains are boxed. Login to comment

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. Login to comment
64 All these mutations, except V754M and R31C, affect highly conserved residues among five species investigated: human, bovine, mouse, Xenopus, and dogfish (Tucker et al. 1992). Login to comment
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 ? Login to comment
105 Two deletions (∆F508 and 4382delA, a frameshift deletion generating a stop codon 15 amino acids downstream) and three missense mutations (V754M, E826K, L997F) were detected. Login to comment
106 All these mutations affect evolutionarily conserved residues, except V754M, which is, however, thought to be a causative mutation for CF. Login to comment

PMID: 16128988 [PubMed] Larriba S et al: "Molecular evaluation of CFTR sequence variants in male infertility of testicular origin."

No. Sentence Comment

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%. Login to comment
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. Login to comment

PMID: 17331079 [PubMed] Alonso MJ et al: "Spectrum of mutations in the CFTR gene in cystic fibrosis patients of Spanish ancestry."

No. Sentence Comment

67 Seven other complex alleles were observed: [c.296 + 3insT; p.V754M], [p.F508del; p.I1027T], [p.S549R; -102T > A], [p.G576A; p.R668C], [p.R1070W; p.R668C], [p.D1270N; p.R74W] and [p.T1299I; p.I148T]. Login to comment

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. Login to comment
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%. Login to comment

PMID: 17572159 [PubMed] Loumi O et al: "CFTR mutations in the Algerian population."

No. Sentence Comment

56 A female CF patient of Berber origin was a compound heterozygote V754M/1812-1G→A. Login to comment
58 The V754M (G to A at position 2392) mutation has previously been reported to the Cystic Fibrosis Genetic Analysis Consortium by Roger Mountford and seems to confer moderate disease when it is associated either with 1812-1G→A or G542X. Login to comment
90 Table 1 CFTR mutations detected in 36 Algerian patients (N=72 CF chromosomes) Mutations Substitution nucleotide Substitution amino acid Localisation N % Cum. fr. hF508del del CTT Del phe 507/508 Exon 10 12 16.7 16.7 N1303K C→G 4041 Asn→Lys 1303 Exon 21 6 8.3 25.0 711+1G→T G→T711+1 MRNA splicing defect Intron 5 6 8.3 33.3 2183AA/G del A2184 Frameshift Exon 13 3 4.2 37.5 A→G 2183 1609delCA delCA Frameshift Exon 10 2 2.8 40.3 1812-1G→A G→A 1812-1 mRNA splicing defect Intron 11 2 2.8 43.1 V562I G→A 1816 Val→Ile 562 Exon 12 2 2.8 45.9 V754M G→A 2392 Val→Met 754 Exon 13 1 1.4 47.3 W1282X G→A 3978 Trp→Stop 1282 Exon 20 3 4.2 51.5 621+3A/Ga A→G 621+3 mRNA splicing defect Intron 4 1 1.4 52.9 4332delTGa delTG4332 Frameshift Exon 23 G542X G→T 1756 Gly→Stop 542 Exon 11 1 1.4 54.3 4271delC del A 4271 Frameshift Exon 23 1 1.4 55.7 S977F C→T 3062 Ser→Phe 97 Exon 16 1 1.4 57.1 21Kb del 21-kb del Del AA E2-E3 1 1.4 58.5 R74W C→T 352 Arg→Trp 74 Exon 3 0 0 D1270N G→A 3940 Asp→Asn 1270 Exon 20 0 0 Total 43 58.5 N=number of chromosomes; Cum. fr.=cumulative frequency. Login to comment

PMID: 16049310 [PubMed] Schrijver I et al: "Genotyping microarray for the detection of more than 200 CFTR mutations in ethnically diverse populations."

No. Sentence Comment

51 Complete List of Mutations Detectable with the CF APEX Assay CFTR location Amino acid change Nucleotide change 1 E 1 Frameshift 175delC 2 E 2,3 Frameshift del E2, E3 3 E 2 W19C 189 GϾT 4 E 2 Q39X 247 CϾT 5 IVS 2 Possible splicing defect 296 ϩ 12 TϾC 6 E 3 Frameshift 359insT 7 E 3 Frameshift 394delTT 8 E 3 W57X (TAG) 302GϾA 9 E 3 W57X (TGA) 303GϾA 10 E 3 E60X 310GϾT 11 E 3 P67L 332CϾT 12 E 3 R74Q 353GϾA 13 E 3 R75X 355CϾT 14 E 3 G85E 386GϾA 15 E 3 G91R 403GϾA 16 IVS 3 Splicing defect 405 ϩ 1GϾA 17 IVS 3 Possible splicing defect 405 ϩ 3AϾC 18 IVS 3 Splicing defect 406 - 1GϾA 19 E 4 E92X 406GϾT 20 E 4 E92K 406GϾA 21 E 4 Q98R 425AϾG 22 E 4 Q98P 425AϾC 23 E 4 Frameshift 444delA 24 E 4 Frameshift 457TATϾG 25 E 4 R117C 481CϾT 26 E 4 R117H 482GϾA 27 E 4 R117P 482GϾC 28 E 4 R117L 482GϾT 29 E 4 Y122X 498TϾA 30 E 4 Frameshift 574delA 31 E 4 I148T 575TϾC 32 E 4 Splicing defect 621GϾA 33 IVS 4 Splicing defect 621 ϩ 1GϾT 34 IVS 4 Splicing defect 621 ϩ 3AϾG 35 E 5 Frameshift 624delT 36 E 5 Frameshift 663delT 37 E 5 G178R 664GϾA 38 E 5 Q179K 667CϾA 39 IVS 5 Splicing defect 711 ϩ 1GϾT 40 IVS 5 Splicing defect 711 ϩ 1GϾA 41 IVS 5 Splicing defect 712 - 1GϾT 42 E 6a H199Y 727CϾT 43 E 6a P205S 745CϾT 44 E 6a L206W 749TϾG 45 E 6a Q220X 790CϾT 46 E 6b Frameshift 935delA 47 E 6b Frameshift 936delTA 48 E 6b N287Y 991AϾT 49 IVS 6b Splicing defect 1002 - 3TϾG 50 E 7 ⌬F311 3-bp del between nucleotides 1059 and 1069 51 E 7 Frameshift 1078delT 52 E 7 Frameshift 1119delA 53 E 7 G330X 1120GϾT 54 E 7 R334W 1132CϾT 55 E 7 I336K 1139TϾA 56 E 7 T338I 1145CϾT 57 E 7 Frameshift 1154insTC 58 E 7 Frameshift 1161delC 59 E 7 L346P 1169TϾC 60 E 7 R347H 1172GϾA 61 E 7 R347P 1172GϾC 62 E 7 R347L 1172GϾT 63 E 7 R352Q 1187GϾA 64 E 7 Q359K/T360K 1207CϾA and 1211CϾA 65 E 7 S364P 1222TϾC 66 E 8 Frameshift 1259insA 67 E 8 W401X (TAG) 1334GϾA 68 E 8 W401X (TGA) 1335GϾA 69 IVS 8 Splicing changes 1342 - 6 poly(T) variants 5T/7T/9T 70 IVS 8 Splicing defect 1342 - 2AϾC Table 1. Continued CFTR location Amino acid change Nucleotide change 71 E 9 A455E 1496CϾA 72 E 9 Frameshift 1504delG 73 E 10 G480C 1570GϾT 74 E 10 Q493X 1609CϾT 75 E 10 Frameshift 1609delCA 76 E 10 ⌬I507 3-bp del between nucleotides 1648 and 1653 77 E 10 ⌬F508 3-bp del between nucleotides 1652 and 1655 78 E 10 Frameshift 1677delTA 79 E 10 V520F 1690GϾT 80 E 10 C524X 1704CϾA 81 IVS 10 Possible splicing defect 1717 - 8GϾA 82 IVS 10 Splicing defect 1717 - 1GϾA 83 E 11 G542X 1756GϾT 84 E 11 G551D 1784GϾA 85 E 11 Frameshift 1784delG 86 E 11 S549R (AϾC) 1777AϾC 87 E 11 S549I 1778GϾT 88 E 11 S549N 1778GϾA 89 E 11 S549R (TϾG) 1779TϾG 90 E 11 Q552X 1786CϾT 91 E 11 R553X 1789CϾT 92 E 11 R553G 1789CϾG 93 E 11 R553Q 1790GϾA 94 E 11 L558S 1805TϾC 95 E 11 A559T 1807GϾA 96 E 11 R560T 1811GϾC 97 E 11 R560K 1811GϾA 98 IVS 11 Splicing defect 1811 ϩ 1.6 kb AϾG 99 IVS 11 Splicing defect 1812 - 1GϾA 100 E 12 Y563D 1819TϾG 101 E 12 Y563N 1819TϾA 102 E 12 Frameshift 1833delT 103 E 12 D572N 1846GϾA 104 E 12 P574H 1853CϾA 105 E 12 T582R 1877CϾG 106 E 12 E585X 1885GϾT 107 IVS 12 Splicing defect 1898 ϩ 5GϾT 108 IVS 12 Splicing defect 1898 ϩ 1GϾA 109 IVS 12 Splicing defect 1898 ϩ 1GϾC 110 IVS 12 Splicing defect 1898 ϩ 1GϾT 111 E 13 Frameshift 1924del7 112 E 13 del of 28 amino acids 1949del84 113 E 13 I618T 1985TϾC 114 E 13 Frameshift 2183AAϾG 115 E 13 Frameshift 2043delG 116 E 13 Frameshift 2055del9ϾA 117 E 13 D648V 2075TϾA 118 E 13 Frameshift 2105-2117 del13insAGAA 119 E 13 Frameshift 2108delA 120 E 13 R668C 2134CϾT 121 E 13 Frameshift 2143delT 122 E 13 Frameshift 2176insC 123 E 13 Frameshift 2184delA 124 E 13 Frameshift 2184insA 125 E 13 Q685X 2185CϾT 126 E 13 R709X 2257CϾT 127 E 13 K710X 2260AϾT 128 E 13 Frameshift 2307insA 129 E 13 V754M 2392GϾA 130 E 13 R764X 2422CϾT 131 E 14a W846X 2670GϾA 132 E 14a Frameshift 2734delGinsAT 133 E 14b Frameshift 2766del8 134 IVS 14b Splicing defect 2789 ϩ 5GϾA 135 IVS 14b Splicing defect 2790 - 2AϾG 136 E 15 Q890X 2800CϾT 137 E 15 Frameshift 2869insG 138 E 15 S945L 2966CϾT 139 E 15 Frameshift 2991del32 140 E 16 Splicing defect 3120GϾA interrogation: ACCAACATGTTTTCTTTGATCTTAC 3121-2A3G,T S; 5Ј-ACCAACATGTTTTCTTTGATCTTAC A GTTGTTATTAATTGTGATTGGAGCTATAG-3Ј; CAACAA- TAATTAACACTAACCTCGA 3121-2A3G,T AS. Login to comment
150 Primers Generated to Create Synthetic Templates That Serve As Positive Mutation Controls Primer name Sense strand 5Ј 3 3Ј Name Antisense strand 5Ј 3 3Ј 175delC synt F T(15)ATTTTTTTCAGGTGAGAAGGTGGCCA 175delC synt R T(15)ATTTGGAGACAACGCTGGCCTTTTCC W19C synt F T(15)TACCAGACCAATTTTGAGGAAAGGAT W19C synt R T(15)ACAGCTAAAATAAAGAGAGGAGGAAC Q39X synt F T(15)TAAATCCCTTCTGTTGATTCTGCTGA Q39X synt R T(15)AGTATATGTCTGACAATTCCAGGCGC 296 ϩ 12TϾC synt F T(15)CACATTGTTTAGTTGAAGAGAGAAAT 296 ϩ 12TϾC synt R T(15)GCATGAACATACCTTTCCAATTTTTC 359insT synt F T(15)TTTTTTTCTGGAGATTTATGTTCTAT 359insT synt R T(15)AAAAAAACATCGCCGAAGGGCATTAA E60X synt F T(15)TAGCTGGCTTCAAAGAAAAATCCTAA E60X synt R T(15)ATCTATCCCATTCTCTGCAAAAGAAT P67L synt F T(15)TTAAACTCATTAATGCCCTTCGGCGA P67L synt R T(15)AGATTTTTCTTTGAAGCCAGCTCTCT R74Q synt F T(15)AGCGATGTTTTTTCTGGAGATTTATG R74Q synt R T(15)TGAAGGGCATTAATGAGTTTAGGATT R75X synt F T(15)TGATGTTTTTTCTGGAGATTTATGTT R75X synt R T(15)ACCGAAGGGCATTAATGAGTTTAGGA W57X(TAG) synt F T(15)AGGATAGAGAGCTGGCTTCAAAGAAA W57X(TAG) synt R T(15)TATTCTCTGCAAAAGAATAAAAAGTG W57X(TGA) synt F T(15)AGATAGAGAGCTGGCTTCAAAGAAAA W57X(TGA) synt R T(15)TCATTCTCTGCAAAAGAATAAAAAGT G91R synt F T(15)AGGGTAAGGATCTCATTTGTACATTC G91R synt R T(15)TTAAATATAAAAAGATTCCATAGAAC 405 ϩ 1GϾA synt F T(15)ATAAGGATCTCATTTGTACATTCATT 405 ϩ 1GϾA synt R T(15)TCCCTAAATATAAAAAGATTCCATAG 405 ϩ 3AϾC synt F T(15)CAGGATCTCATTTGTACATTCATTAT 405 ϩ 3AϾC synt R T(15)GACCCCTAAATATAAAAAGATTCCAT 406 - 1GϾA synt F T(15)AGAAGTCACCAAAGCAGTACAGCCTC 406 - 1GϾA synt R T(15)TTACAAAAGGGGAAAAACAGAGAAAT E92X synt F T(15)TAAGTCACCAAAGCAGTACAGCCTCT E92X synt R T(15)ACTACAAAAGGGGAAAAACAGAGAAA E92K synt F T(15)AAAGTCACCAAAGCAGTACAGCCTCT E92K synt R T(15)TCTACAAAAGGGGAAAAACAGAGAAA 444delA synt F T(15)GATCATAGCTTCCTATGACCCGGATA 444delA synt R T(15)ATCTTCCCAGTAAGAGAGGCTGTACT 574delA synt F T(15)CTTGGAATGCAGATGAGAATAGCTAT 574delA synt R T(15)AGTGATGAAGGCCAAAAATGGCTGGG 621GϾA synt F T(15)AGTAATACTTCCTTGCACAGGCCCCA 621GϾA synt R T(15)TTTCTTATAAATCAAACTAAACATAG Q98P synt F T(15)CGCCTCTCTTACTGGGAAGAATCATA Q98P synt R T(15)GGTACTGCTTTGGTGACTTCCTACAA 457TATϾG synt F T(15)GGACCCGGATAACAAGGAGGAACGCT 457TATϾG synt R T(15)CGGAAGCTATGATTCTTCCCAGTAAG I148T synt F T(15)CTGGAATGCAGATGAGAATAGCTATG I148T synt R T(15)GTGTGATGAAGGCCAAAAATGGCTGG 624delT synt F T(15)CTTAAAGCTGTCAAGCCGTGTTCTAG 624delT synt R T(15)TAAGTCTAAAAGAAAAATGGAAAGTT 663delT synt F T(15)ATGGACAACTTGTTAGTCTCCTTTCC 663delT synt R T(15)CATACTTATTTTATCTAGAACACGGC G178R synt F T(15)AGACAACTTGTTAGTCTCCTTTCCAA G178R synt R T(15)TAATACTTATTTTATCTAGAACACGG Q179K synt F T(15)AAACTTGTTAGTCTCCTTTCCAACAA Q179K synt R T(15)TTCCAATACTTATTTTATCTAGAACA 711 ϩ 5GϾA synt F T(15)ATACCTATTGATTTAATCTTTTAGGC 711 ϩ 5GϾA synt R T(15)TTATACTTCATCAAATTTGTTCAGGT 712 - 1GϾT synt F T(15)TGGACTTGCATTGGCACATTTCGTGT 712 - 1GϾT synt R T(15)TATGGAAAATAAAAGCACAGCAAAAAC H199Y synt F T(15)TATTTCGTGTGGATCGCTCCTTTGCA H199Y synt R T(15)TATGCCAATGCTAGTCCCTGGAAAATA P205S synt F T(15)TCTTTGCAAGTGGCACTCCTCATGGG P205S synt R T(15)TAAGCGATCCACACGAAATGTGCCAAT L206W synt F T(15)GGCAAGTGGCACTCCTCATGGGGCTA L206W synt R T(15)TCAAGGAGCGATCCACACGAAATGTGC Q220X synt F T(15)TAGGCGTCTGCTTTCTGTGGACTTGG Q220X synt R T(15)TATAACAACTCCCAGATTAGCCCCATG 936delTA synt F T(15)AATCCAATCTGTTAAGGCATACTGCT 936delTA synt R T(15)TGATTTTCAATCATTTCTGAGGTAATC 935delA synt F T(15)GAAATATCCAATCTGTTAAGGCATAC 935delA synt R T(15)TATTTCAATCATTTCTGAGGTAATCAC N287Y synt F T(15)TACTTAAGACAGTAAGTTGTTCCAAT N287Y synt R T(15)TATTCAATCATTTTTTCCATTGCTTCT 1002 - 3TϾG synt F T(15)GAGAACAGAACTGAAACTGACTCGGA 1002 - 3TϾG synt R T(15)TCTAAAAAACAATAACAATAAAATTCA 1154insTC syntwt F T(15)ATCTCATTCTGCATTGTTCTGCGCAT 1154insTC syntwt R T(15)TTGAGATGGTGGTGAATATTTTCCGGA 1154insTC syntmt F T(15)TCTCTCATTCTGCATTGTTCTGCGCAT 1154insTC syntmt R T(15)TAGAGATGGTGGTGAATATTTTCCGGA DF311 mt syntV1 F T(15)CCTTCTTCTCAGGGTTCTTTGTGGTG dF311 mt syntV1 R T(15)GAGAAGAAGGCTGAGCTATTGAAGTATC G330X synt F T(15)TGAATCATCCTCCGGAAAATATTCAC G330X synt R T(15)ATTTGATTAGTGCATAGGGAAGCACA S364P synt F T(15)CCTCTTGGAGCAATAAACAAAATACA S364P synt R T(15)GGTCATACCATGTTTGTACAGCCCAG Q359K/T360K mt synt F T(15)AAAAAATGGTATGACTCTCTTGGAGC Q359K/T360K mt synt R T(15)TTTTTTACAGCCCAGGGAAATTGCCG 1078delT synt F T(15)CTTGTGGTGTTTTTATCTGTGCTTCC 1078delT synt R T(15)CAAGAACCCTGAGAAGAAGAAGGCTG 1119delA synt F T(15)CAAGGAATCATCCTCCGGAAAATATT 1119delA synt R T(15)CTTGATTAGTGCATAGGGAAGCACAG 1161delC synt F T(15)GATTGTTCTGCGCATGGCGGTCACTC 1161delC synt R T(15)TCAGAATGAGATGGTGGTGAATATTT T338I synt F T(15)TCACCATCTCATTCTGCATTGTTCTG T338I synt R T(15)ATGAATATTTTCCGGAGGATGATTCC R352Q synt F T(15)AGCAATTTCCCTGGGCTGTACAAACA R352Q synt R T(15)TGAGTGACCGCCATGCGCAGAACAAT L346P synt F T(15)CGCGCATGGCGGTCACTCGGCAATTT L346P synt R T(15)GGAACAATGCAGAATGAGATGGTGGT 1259insA synt F T(15)AAAAAGCAAGAATATAAGACATTGGA 1259insA synt R T(15)TTTTTGTAAGAAATCCTATTTATAAA W401X(TAG)mtsynt F T(15)AGGAGGAGGTCAGAATTTTTAAAAAA W401X(TAG)mtsynt R T(15)TAGAAGGCTGTTACATTCTCCATCAC W401X(TGA) synt F T(15)AGAGGAGGTCAGAATTTTTAAAAAAT W401X(TGA) synt R T(15)TCAGAAGGCTGTTACATTCTCCATCA 1342 - 2AϾC synt F T(15)CGGGATTTGGGGAATTATTTGAGAAA 1342 - 2AϾC synt R T(15)GGTTAAAAAAACACACACACACACAC 1504delG synt F T(15)TGATCCACTGTAGCAGGCAAGGTAGT 1504delG synt R T(15)TCAGCAACCGCCAACAACTGTCCTCT G480C synt F T(15)TGTAAAATTAAGCACAGTGGAAGAAT G480C synt R T(15)ACTCTGAAGGCTCCAGTTCTCCCATA C524X synt F T(15)ACAACTAGAAGAGGTAAGAAACTATG C524X synt R T(15)TCATGCTTTGATGACGCTTCTGTATC V520F synt F T(15)TTCATCAAAGCAAGCCAACTAGAAGA V520F synt R T(15)AGCTTCTGTATCTATATTCATCATAG 1609delCA synt F T(15)TGTTTTCCTGGATTATGCCTGGCACC 1609delCA synt R T(15)CAGAACAGAATGAAATTCTTCCACTG 1717 - 8GϾA synt F T(15)AGTAATAGGACATCTCCAAGTTTGCA 1717 - 8GϾA synt R T(15)TAAAAATAGAAAATTAGAGAGTCACT 1784delG synt F T(15)AGTCAACGAGCAAGAATTTCTTTAGC 1784delG synt R T(15)ACTCCACTCAGTGTGATTCCACCTTC A559T synt F T(15)ACAAGGTGAATAACTAATTATTGGTC A559T synt R T(15)TTAAAGAAATTCTTGCTCGTTGACCT Q552X synt F T(15)TAACGAGCAAGAATTTCTTTAGCAAG Q552X synt R T(15)AACCTCCACTCAGTGTGATTCCACCT S549R(AϾC) synt F T(15)CGTGGAGGTCAACGAGCAAGAATTTC S549R(AϾC) synt R T(15)GCAGTGTGATTCTACCTTCTCCAAGA S549R(TϾG) synt F T(15)GGGAGGTCAACGAGCAAGTATTTC S549R(TϾG) synt R T(15)CCTCAGTGTGATTCCACCTTCTCCAA L558S synt F T(15)CAGCAAGGTGAATAACTAATTATTGG L558S synt R T(15)GAAGAAATTCTCGCTCGTTGACCTCC 1811 ϩ 1.6 kb AϾG synt F T(15)GTAAGTAAGGTTACTATCAATCACAC 1811 ϩ 1.6 kb AϾG synt R T(15)CATCTCAAGTACATAGGATTCTCTGT 1812 - 1GϾA synt F T(15)AAGCAGTATACAAAGATGCTGATTTG 1812 - 1GϾA synt R T(15)TTAAAAAGAAAATGGAAATTAAATTA D572N synt F T(15)AACTCTCCTTTTGGATACCTAGATGT D572N synt R T(15)TTAATAAATACAAATCAGCATCTTTG P574H synt F T(15)ATTTTGGATACCTAGATGTTTTAACA P574H synt R T(15)TGAGAGTCTAATAAATACAAATCAGC 1833delT synt F T(15)ATTGTATTTATTAGACTCTCCTTTTG 1833delT synt R T(15)CAATCAGCATCTTTGTATACTGCTCT Table 4. Continued Primer name Sense strand 5Ј 3 3Ј Name Antisense strand 5Ј 3 3Ј Y563D synt F T(15)GACAAAGATGCTGATTTGTATTTATT Y563D synt R T(15)CTACTGCTCTAAAAAGAAAATGGAAA T582R synt F T(15)GAGAAAAAGAAATATTTGAAAGGTAT T582R synt R T(15)CTTAAAACATCTAGGTATCCAAAAGG E585X synt F T(15)TAAATATTTGAAAGGTATGTTCTTTG E585X synt R T(15)ATTTTTCTGTTAAAACATCTAGGTAT 1898 ϩ 5GϾT synt F T(15)TTTCTTTGAATACCTTACTTATATTG 1898 ϩ 5GϾT synt R T(15)AATACCTTTCAAATATTTCTTTTTCT 1924del7 synt F T(15)CAGGATTTTGGTCACTTCTAAAATGG 1924del7 synt R T(15)CTGTTAGCCATCAGTTTACAGACACA 2055del9ϾA synt F T(15)ACATGGGATGTGATTCTTTCGACCAA 2055del9ϾA synt R T(15)TCTAAAGTCTGGCTGTAGATTTTGGA D648V synt F T(15)TTTCTTTCGACCAATTTAGTGCAGAA D648V synt R T(15)ACACATCCCATGAGTTTTGAGCTAAA K710X synt F T(15)TAATTTTCCATTGTGCAAAAGACTCC K710X synt R T(15)ATCGTATAGAGTTGATTGGATTGAGA I618T synt F T(15)CTTTGCATGAAGGTAGCAGCTATTTT I618T synt R T(15)GTTAATATTTTGTCAGCTTTCTTTAA R764X synt F T(15)TGAAGGAGGCAGTCTGTCCTGAACCT R764X synt R T(15)ATGCCTGAAGCGTGGGGCCAGTGCTG Q685X synt F T(15)TAATCTTTTAAACAGACTGGAGAGTT Q685X synt R T(15)ATTTTTTTGTTTCTGTCCAGGAGACA R709X synt F T(15)TGAAAATTTTCCATTGTGCAAAAGAC R709X synt R T(15)ATATAGAGTTGATTGGATTGAGAATA V754M synt F T(15)ATGATCAGCACTGGCCCCACGCTTCA V754M synt R T(15)TGCTGATGCGAGGCAGTATCGCCTCT 1949del84 synt F T(15)AAAAATCTACAGCCAGACTTTATCTC 1949del84 synt R T(15)TTTTTAGAAGTGACCAAAATCCTAGT 2108delA synt F T(15)GAATTCAATCCTAACTGAGACCTTAC 2108delA synt R T(15)ATTCTTCTTTCTGCACTAAATTGGTC 2176insC synt F T(15)CCAAAAAAACAATCTTTTAAACAGACTGGAGAG 2176insC synt R T(15)GGTTTCTGTCCAGGAGACAGGAGCAT 2184delA synt F T(15)CAAAAAACAATCTTTTAAACAGACTGG 2184delA synt R T(15)GTTTTTTGTTTCTGTCCAGGAGACAG 2105-2117 del13 synt F T(15)AAACTGAGACCTTACACCGTTTCTCA 2105-2117 del13 synt R T(15)TTTCTTTCTGCACTAAATTGGTCGAA 2307insA synt F T(15)AAAGAGGATTCTGATGAGCCTTTAGA 2307insA synt R T(15)TTTCGATGCCATTCATTTGTAAGGGA W846X synt F T(15)AAACACATACCTTCGATATATTACTGTCCAC W846X synt R T(15)TCATGTAGTCACTGCTGGTATGCTCT 2734G/AT synt F T(15)TTAATTTTTCTGGCAGAGGTAAGAAT 2734G/AT synt R T(15)TTAAGCACCAAATTAGCACAAAAATT 2766del8 synt F T(15)GGTGGCTCCTTGGAAAGTGAGTATTC 2766del8 synt R T(15)CACCAAAGAAGCAGCCACCTGGAATGG 2790 - 2AϾG synt F T(15)GGCACTCCTCTTCAAGACAAAGGGAA 2790 - 2AϾG synt R T(15)CGTAAAGCAAATAGGAAATCGTTAAT 2991del32 synt F T(15)TTCAACACGTCGAAAGCAGGTACTTT 2991del32 synt R T(15)AAACATTTTGTGGTGTAAAATTTTCG Q890X synt F T(15)TAAGACAAAGGGAATAGTACTCATAG Q890X synt R T(15)AAAGAGGAGTGCTGTAAAGCAAATAG 2869insG synt F T(15)GATTATGTGTTTTACATTTACGTGGG 2869insG synt R T(15)CACGAACTGGTGCTGGTGATAATCAC 3120GϾA synt F T(15)AGTATGTAAAAATAAGTACCGTTAAG 3120GϾA synt R T(15)TTGGATGAAGTCAAATATGGTAAGAG 3121 - 2AϾT synt F T(15)TGTTGTTATTAATTGTGATTGGAGCT 3121 - 2AϾT synt R T(15)AGTAAGATCAAAGAAAACATGTTGGT 3132delTG synt F T(15)TTGATTGGAGCCATAGCAGTTGTCGC 3132delTG synt R T(15)AATTAATAACAACTGTAAGATCAAAG 3271delGG synt F T(15)ATATGACAGTGAATGTGCGATACTCA 3271delGG synt R T(15)ATTCAGATTCCAGTTGTTTGAGTTGC 3171delC synt F T(15)ACCTACATCTTTGTTGCAACAGTGCC 3171delC synt R T(15)AGGTTGTAAAACTGCGACAACTGCTA 3171insC synt F T(15)CCCCTACATCTTTGTTGCTACAGTGC 3171insC synt R T(15)GGGGTTGTAAAACTGCGACAACTGCT 3199del6 synt F T(15)GAGTGGCTTTTATTATGTTGAGAGCATAT 3199del6 synt R T(15)CCACTGGCACTGTTGCAACAAAGATG M1101K synt F T(15)AGAGAATAGAAATGATTTTTGTCATC M1101K synt R T(15)TTTTGGAACCAGCGCAGTGTTGACAG G1061R synt F T(15)CGACTATGGACACTTCGTGCCTTCGG G1061R synt R T(15)GTTTTAAGCTTGTAACAAGATGAGTG R1066L synt F T(15)TTGCCTTCGGACGGCAGCCTTACTTT R1066L synt R T(15)AGAAGTGTCCATAGTCCTTTTAAGCT R1070P synt F T(15)CGCAGCCTTACTTTGAAACTCTGTTC R1070P synt R T(15)GGTCCGAAGGCACGAAGTGTCCATAG L1077P synt F T(15)CGTTCCACAAAGCTCTGAATTTACAT L1077P synt R T(15)GGAGTTTCAAAGTAAGGCTGCCGTCC W1089X synt F T(15)AGTTCTTGTACCTGTCAACACTGCGC W1089X synt R T(15)TAGTTGGCAGTATGTAAATTCAGAGC L1093P synt F T(15)CGTCAACACTGCGCTGGTTCCAAATG L1093P synt R T(15)GGGTACAAGAACCAGTTGGCAGTATG W1098R synt F T(15)CGGTTCCAAATGAGAATAGAAATGAT W1098R synt R T(15)GGCGCAGTGTTGACAGGTACAAGAAC Q1100P synt F T(15)CAATGAGAATAGAAATGATTTTTGTC Q1100P synt R T(15)GGGAACCAGCGCAGTGTTGACAGGTA D1152H synt F T(15)CATGTGGATAGCTTGGTAAGTCTTAT D1152H synt R T(15)GTATGCTGGAGTTTACAGCCCACTGC R1158X synt F T(15)TGATCTGTGAGCCGAGTCTTTAAGTT R1158X synt R T(15)ACATCTGAAATAAAAATAACAACATT S1196X synt F T(15)GACACGTGAAGAAAGATGACATCTGG S1196X synt R T(15)CAATTCTCAATAATCATAACTTTCGA 3732delA synt F T(15)GGAGATGACATCTGGCCCTCAGGGGG 3732delA synt R T(15)CTCCTTCACGTGTGAATTCTCAATAA 3791delC synt F T(15)AAGAAGGTGGAAATGCCATATTAGAG 3791delC synt R T(15)TTGTATTTTGCTGTGAGATCTTTGAC 3821delT synt F T(15)ATTCCTTCTCAATAAGTCCTGGCCAG 3821delT synt R T(15)GAATGTTCTCTAATATGGCATTTCCA Q1238X synt F T(15)TAGAGGGTGAGATTTGAACACTGCTT Q1238X synt R T(15)AGCCAGGACTTATTGAGAAGGAAATG S1255X (ex19)synt F T(15)GTCTGGCCCTCAGGGGGCCAAATGAC S1255X (ex19) synt R T(15)CGTCATCTTTCTTCACGTGTGAATTC S1255X;L synt F T(15)AAGCTTTTTTGAGACTACTGAACACT S1255X;L synt R T(15)TATAACAAAGTAATCTTCCCTGATCC 3849 ϩ 4AϾG synt F T(15)GGATTTGAACACTGCTTGCTTTGTTA 3849 ϩ 4AϾG synt R T(15)CCACCCTCTGGCCAGGACTTATTGAG 3850 - 1GϾA synt F T(15)AGTGGGCCTCTTGGGAAGAACTGGAT 3850 - 1GϾA synt R T(15)TTATAAGGTAAAAGTGATGGGATCAC 3905insT synt F T(15)TTTTTTTGAGACTACTGAACACTGAA 3905insT synt R T(15)AAAAAAAGCTGATAACAAAGTACTCT 3876delA synt F T(15)CGGGAAGAGTACTTTGTTATCAGCTT 3876delA synt R T(15)CGATCCAGTTCTTCCCAAGAGGCCCA G1244V synt F T(15)TAAGAACTGGATCAGGGAAGAGTACT G1244V synt R T(15)ACCAAGAGGCCCACCTATAAGGTAAA G1249E synt F T(15)AGAAGAGTACTTTGTTATCAGCTTTT G1249E synt R T(15)TCTGATCCAGTTCTTCCCAAGAGGCC S1251N synt F T(15)ATACTTTGTTATCAGCTTTTTTGAGACTACTG S1251N synt R T(15)TTCTTCCCTGATCCAGTTCTTCCCAA S1252P synt F T(15)CCTTTGTTATCAGCTTTTTTGAGACT S1252P synt R T(15)GACTCTTCCCTGATCCAGTTCTTCCC D1270N synt F T(15)AATGGTGTGTCTTGGGATTCAATAAC D1270N synt R T(15)TGATCTGGATTTCTCCTTCAGTGTTC W1282R synt F T(15)CGGAGGAAAGCCTTTGGAGTGATACC W1282R synt R T(15)GCTGTTGCAAAGTTATTGAATCCCAA R1283K synt F T(15)AGAAAGCCTTTGGAGTGATACCACAG R1283K synt R T(15)TTCCACTGTTGCAAAGTTATTGAATC 4005 ϩ 1GϾA synt F T(15)ATGAGCAAAAGGACTTAGCCAGAAAA 4005 ϩ 1GϾA synt R T(15)TCTGTGGTATCACTCCAAAGGCTTTC 4010del4 synt F T(15)GTATTTTTTCTGGAACATTTAGAAAAAACTTGG 4010del4 synt R T(15)AAAATACTTTCTATAGCAAAAAAGAAAAGAAGAA 4016insT synt F T(15)TTTTTTTCTGGAACATTTAGAAAAAACTTGG 4016insT synt R T(15)AAAAAAATAAATACTTTCTATAGCAAAAAAGAAAAGAAGA CFTRdele21 synt F T(15)TAGGTAAGGCTGCTAACTGAAATGAT CFTRdele21 synt R T(15)CCTATAGCAAAAAAGAAAAGAAGAAGAAAGTATG 4382delA synt F T(15)GAGAGAACAAAGTGCGGCAGTACGAT 4382delA synt R T(15)CTCTATGACCTATGGAAATGGCTGTT Bold, mutation allele of interest; bold and italicized, modified nucleotide. 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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. Login to comment
163 The mutation V754M was detected in ABCC7 exon 13c but not in ABCC7 13b in this study, illustrating the effect of wider sequence context on mutation detection. Login to comment

PMID: 11001817 [PubMed] Chen JM et al: "Definition of a "functional R domain" of the cystic fibrosis transmembrane conductance regulator."

No. Sentence Comment

45 For example, F693L, V754M, T760M, and A800G may be assigned as neutral polymorphisms. Login to comment

PMID: 16963320 [PubMed] Perez MM et al: "CFTR gene analysis in Latin American CF patients: heterogeneous origin and distribution of mutations across the continent."

No. Sentence Comment

42 Some have concentrated in the search of specific mutations that are Table 1 Mutations found in the Latin American CF patients Exon 1 p.L6VÌe; Exon 3 p.W57X, p.R75X, p.G85E Exon 4 p.R117H Exon 6a p.H199Y, p.V201M, p.L206W, p.Q220X, p.V232D, c.846delTÌe; Exon 6b p.Y275XÌe;, c.935delA Exon 7 p.R334W, p.R347P, p.Y362XÌe;, c.1078delT, c.1215delG Exon 8 c.1323_1324insAÌe; Exon 9 c.1460_1461delATÌe;, c.1353_1354insTÌe;,# Exon 10 p.I506T, p.I507del, p.F508del Exon 11 p.G542X, p.S549N, p.S549R, p.G551D, p.G551S, p.R553X, p.L558S, p.A559T, c.1782delA Exon 12 p.S589I Exon 13 p.H609RÌe;, p.P750L, p.V754M, c.1924_1930del, c.2055_2063del, c.2183AA NG;c.2184delA, c.2184delA, c.2185_2186insC, c.2347delG, c.2566_2567insTÌe;, c.2594_2595delGTÌe; Exon 14a p.R851L, c.2686_2687insTÌe; Exon 15 c.2869_2870insG Exon 16 c.3120+1GNA Exon 17a p.I1027T, c.3171delC, c.3199_3204del Exon 17b p.G1061R, p.R1066C, p.W1069X#, p.W1089X, p.Y1092X, p.W1098CÌe; Exon 19 p.R1162X, p.W1204X, p.Q1238X, c.3617_3618delGAÌe;#, c.3659delC Exon 20 p.W1282X, p.R1283M Exon 21 p.N1303K, c.4016_4017insT Exon 22 c.4160_4161insGGGGÌe; 5' flanking c.-834GNT Intron 2 c.297-1GNAÌe;, c.297-2ANG Intron 3 c.406-1GNA Intron 4 c.621+1GNT Intron 5 c.711+1GNT Intron 8 c.IVS8-5T Intron 10 c.1716GNA, c.1717-1GNA Intron 11 c.1811+1.6KbANG, c.1812-1GNA Intron 12 c.1898+1GNA, c.1898+3ANG Intron 14 c.2789+2_2789+3insA, c.2789+5GNA Intron 17a c.3272-26ANG Intron 17b c.3500-2ANGÌe; Intron 19 c.3849+1GNA, c.3849+10KbCNT Intron 20 c.4005+1GNA, c.4005-1GNA# Mutations are listed according to their position in the gene. Login to comment
51 Table 2 p.I507del p.S549N p.S549R p.G551D p.G551S p.R553X p.L558S p.A559T p.S589I p.H609RÌe; p.P750L p.V754M p.R851L p.I1027T p.G1061R p.R1066C p.W1069X# p.W1089X p.Y1092X p.W1098CÌe; p.W1204X 3 0 1 0 1 1 1 1 1 0 4 1 2 3 1 3 0.24 1 0.08 1 0.08 6 0.48 2 0.16 1 0.08 1 0.08 4 0.32 1 0.08 1 4 1 2 1 1 0 0 0 1 0 0 0 1 1 0 1 0 2 0 1 3 0 0 0 0 0 0 1 0.05 1 0.05 1 0.05 10 0.54 1 0.05 2 0.11 3 0.16 3 0 0 0 1 0 1 1 2 0.79 4 1.58 4 1 1 1 1 4 1.83 1 0.46 1 0.46 1 0.46 1 0.46 0 0 0 0 0 0 0 5 5 1 1 1 1 1 1 1 1 1 1 1 5 1.82 6 2.19 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 1.31 1 1.31 1 1.31 10 6 6 6 1 22 1 1 2 1 1 1 1 1 1 6 1 3 5 1 1 0.23 0.14 0.14 0.14 0.02 0.51 0.02 0.02 0.05 0.02 0.02 0.02 0.02 0.02 0.02 0.14 0.02 0.07 0.11 0.02 0.02 (continued on next page) Table 2 Mutation frequencies in Latin American CF patients Country p.Q1238X p.R1283M c.-834GNT c.297-1GNA* c.297-2ANG c.406-1GNA c.621+1GNT c.711+1GNT c.846delT* c.935delA c.1078delT c.1215delG c.1323_1324insA* c.1353_1354insT*# c.1460_1461delAT* Argentina 1 3 1 1 1 1 1 Subtotal and frequency (%) 1 0.08 1 0.08 4 0.32 1 0.08 1 0.08 1 0.08 Brazil 1 1 1 1 0 0 Subtotal and frequency (%) 1 0.05 2 0.11 1 0.05 Chile 0 0 Subtotal and frequency (%) Colombia 1 1 Subtotal and frequency (%) 1 0.46 1 0.46 Costa Rica Frequency (%) 0 Cuba Frequency (%) Ecuador Subtotal and frequency (%) Mexico 1 3 1 2 1 1 Subtotal and frequency (%) 1 0.36 3 1.09 1 0.36 1 0.36 2 0.73 1 0.36 Uruguay Frequency (%) 1 1.31 Venezuela Subtotal and frequency (%) Total 1 1 1 1 1 3 7 2 1 2 1 1 1 1 1 Frequency (%) 0.02 0.02 0.02 0.02 0.02 0.07 0.16 0.05 0.02 0.05 0.02 0.02 0.02 0.02 0.02 (continued ) Table 2 c.1716GNA c.1717-1GNA c.1782delA c.1811+1,6KbANG c.1812-1GNA c.1898+1GNA c.1898+3ANG c.1924_1930del c.2055_2063del c.2183AANG;c.2184delA c.2184delA c.2185_2186insC 5 1 4 1 1 1 0 1 2 2 6 0.48 1 0.08 6 0.48 2 0.16 1 0.08 1 0.08 1 0.08 1 0 6 5 1 3 0 0 0 0 7 0.37 5 0.27 1 0.05 3 0.16 0 0 12 1 12 5.50 1 0.46 0 0 1 1 2 2 1 0.36 1 0.36 2 0.73 2 0.73 1 1.31 1 14 1 18 5 3 1 1 2 6 1 1 0.02 0.32 0.02 0.41 0.11 0.07 0.02 0.02 0.05 0.14 0.02 0.02 (continued on next page) Table 2 Mutation frequencies in Latin American CF patients Country c.2347delG c.2566_2567insT* c.2594_2595delGT* c.2686_2687insT* c.2789+2_2789+3insA c.2789+5GNA c.2869_2870insG c.3120+1GNA c.3171delC c.3199_3204del c.3272-26ANG c.3500-2ANG* Argentina 2 1 2 2 3 3 1 1 2 Subtotal and frequency (%) 2 0.16 1 0.08 2 0.16 2 0.16 6 0.48 1 0.08 1 0.08 2 0.16 Brazil 2 1 1 1 6 0 0 4 0 Subtotal and frequency (%) 2 0.11 1 0.05 1 0.05 10 0.54 1 0.05 Chile Subtotal and frequency (%) Colombia 1 1 1 Subtotal and frequency (%) 1 0.46 1 0.46 1 0.46 Costa Rica Frequency (%) Cuba Frequency (%) Ecuador Subtotal and frequency (%) Mexico 2 Subtotal and frequency (%) 2 0.73 Uruguay Frequency (%) 1 1.31 Venezuela Subtotal and frequency (%) Total 2 2 1 3 2 9 1 12 1 2 2 1 Frequency (%) 0.05 0.05 0.02 0.07 0.05 0.21 0.02 0.28 0.02 0.05 0.05 0.02 (continued ) Table 2 c.3617_3618delGA*,# c.3659delC c.3849+1GNA c.3849+10kbCNT c.4005+1GNA c.4005-1GNA# c.4016_4017insT c.4160_4161insGGGG* c.IVS8-5T Unknown Authors 37 Aulehla-Scholz [17] 2 4 1 2 4 76 Visich [12] 1 78 Iba&#f1;ez [18] 54 Varela 2004 8 Prieto [19] 2 1 1 1 18 Oller-Ramirez 2004 4 0.32 6 0.48 1 0.08 1 0.08 2 0.16 5 0.40 271 21.75 205 Raskin [20] 32 Chiba [21] 1 89 Bernardino [22] 60 Marostica [23] 69 Parizotto [24] 99 Cabello [25,26] 33 Martins [27] 70 Streit [28] 0 5 120 Raskin [15] 0 0 12 Goloni-Bertollo [29] 1 0.05 5 0.27 789 42.46 48 Rios [30] 22 Molina [31] 1 11 Navarro [32] 0 3 34 Repetto [33] 4 1.58 115 45.63 1 67 Keyeux [14] 17 Restrepo [34] 1 0.46 84 38.53 0 25 52.08 Venegas [35] 95 65.97 Collazo [36] 20 Merino [37] 30 Cassiman 2004 15 Paz-y-Mino [38] 65 63.72 1 1 53 Orozco [13] 2 35 Villalobos [39] 3 1.09 1 0.36 88 32.11 11 14.47 Luzardo [40,41] 36 Restrepo [34] 41 Alvarado [42] 77 56.62 1 4 1 18 1 1 2 1 5 1620 0.02 0.09 0.02 0.41 0.02 0.02 0.05 0.02 0.11 37.21 Mutation frequencies in Latin American CF patients most frequently found in Caucasians, by allele specific polymerase chain reaction (AS-PCR), enzymatic digestion, allele specific oligonucleotide hybridization (ASO), or using mainly commercial kits, whereas other studies used a systematic approach to analyse the promoter, coding and exon/ intron boundaries of the CFTR region in the search for any possible mutation. Login to comment
98 As an example, in the case of Argentina and Uruguay, the p.F508del mutation shows the highest frequencies (59% and Table 5 Mutations with frequencies less than 0.1% Panel A Mutation Number of chromosomes % Country p.R75X 3 0.07 Mexico c.W1089X 3 0.07 Argentina, Brazil c.406-1GNA 3 0.07 Mexico c.1898+1GNA 3 0.07 Argentina, Brazil c.2686_2687insTÌe; 3 0.07 Argentina, Brazil p.L206W 2 0.05 Brazil p.I506T 2 0.05 Mexico p.S589I 2 0.05 Argentina c.711+1GNT 2 0.05 Argentina c.935delA 2 0.05 Mexico c.2055_2063del 2 0.05 Mexico c.2347delG 2 0.05 Brazil c.2566_2567insTÌe; 2 0.05 Argentina c.2789+2_2789+3insA 2 0.05 Argentina c.3199_3204del 2 0.05 Mexico c.3272-26ANG 2 0.05 Argentina c.4016_4017insT 2 0.05 Argentina Panel B Mutation N % each Country p.L6VÌe;, p.W57X, p.Q220X, p.Y362XÌe;, p.I1027T, p.G1061R, p.R1283M, c.297-2ANG, c.1353_1354insTÌe;, c.1460_1461delATÌe;, c.1782delA, c.1898+3ANG, c.2184delA, c.2594_2595delGTÌe;, c.2869_2870insG, c.4005Ìe;1GNA, c.4005-1GNA# 17 0.02 Argentina p.R117H, p.H199Y, p.G551S, p.L558S, p.P750L, p.V754M, p.W1069X#, p.W1098CÌe;, p.W1204X, c.297-1GNAÌe;, c.846delTÌe;, c.1078delT, c.1716GNA, c.1924_1930del, c.4160_4161insGGGGÌe; 15 0.02 Mexico p.V201M, p.V232D, p.Y275XÌe;, p.R347P, p.R851L, p.Q1238X, c.3171delC, c.3617_3618delGAÌe;# 8 0.02 Brazil p.A559T, p.H609RÌe;, c.1215delG, c.1323_1324insAÌe;, c.2185_2186insC, c.3500-2ANGÌe;, c.3849+1GNA, 7 0.02 Colombia c.-834GNT 1 0.02 Uruguay The upper part (Panel A) shows the mutations found in more than one patient, whereas the lower part (Panel B) of the table shows all the mutations that are present only once in each country. Login to comment

PMID: 23276700 [PubMed] Krenkova P et al: "Distribution of CFTR mutations in the Czech population: positive impact of integrated clinical and laboratory expertise, detection of novel/de novo alleles and relevance for related/derived populations."

No. Sentence Comment

54 In addition, we observed the previously described V754M mutation in trans to N1303K in an unaffected mother (sweat test: 40 mmol/l). Login to comment
55 Her first CF child bears a R709Q-E292K/ N1303K in trans, while sequencing of exon 7, 13 and 21 during prenatal diagnosis of her second child, who is unaffected, revealed the R709Q-E292K/V754M genotype. Login to comment
78 Although the V754M mutation "is still under evaluation" in the CFTR2 database [21], we concluded that its pathogenic potential is limited. Login to comment

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. Login to comment
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. Login to comment

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). Login to comment

PMID: 25797027 [PubMed] Bergougnoux A et al: "Should diffuse bronchiectasis still be considered a CFTR-related disorder?"

No. Sentence Comment

78 (=) 2752-26A N G rs201716473 0.01 0 0.005 (1 study) 0 (n1) UV P c.2260G N A p.Val754Met V754M rs150157202 0.01 0 0.002 (1 study) 0 (n1) UV NNV c.2898G N A p.Thr966Thr T966T rs1800109 0.01 0.01 0.007-0.017 (5 studies) 0 (n1) UV NNV c.2991G N C p.Leu997Phe L997F rs1800111 0.021 0.01 0-0.003 (4 studies) 3.7.10-5 (n2) M M c.3139 + 42A N T p. Login to comment
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). Login to comment
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). Login to comment
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). Login to comment
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. Login to comment

PMID: 25824995 [PubMed] Salinas DB et al: "Benign outcome among positive cystic fibrosis newborn screen children with non-CF-causing variants."

No. Sentence Comment

4 Conclusions: The outcomes in children 2-6 years of age with the L997F, G576A, R1162L, V754M, R668C, R31C, and S1235R variants are consistent with the CFTR2 non-CF-causing classification. Login to comment
95 Non-CF-causing variants from CF NBS in California cDNA name Number of patients identified from the CA CF NBS Mean [Cl-] conductance (as % WT-CFTR) b C/(B + C) (as % of WT-CFTR) in HeLa cellsc C/(B + C) (as % of WT-CFTR) in FRT cellsd CFTR protein quantity (as % WT-CFTR)e L997F c.1408A N G 34 22 97 104 100 G576Aa c.1727G N C 7 147 98 110 104 R1162L c.3485G N T 6 130 93 94 94 V754M c.2260G N A 4 140 98 107 102 R668Ca c.2002C N T 2 58 97 106 102 R31C c.91C N T 2 105 92 86 89 S1235R c.3705T N G 2 79 96 106 101 CA CF NBS = California Cystic Fibrosis Newborn Screening Program. Login to comment

PMID: 25910067 [PubMed] Lucarelli M et al: "A Genotypic-Oriented View of CFTR Genetics Highlights Specific Mutational Patterns Underlying Clinical Macrocategories of Cystic Fibrosis."

No. Sentence Comment

265 [Glu479*; Val754Met]) novel complex allele was found once in a CF-PI patient with a F508del (p.Phe508del) mutation on the other allele and an average sweat test of 106 &#b1; 13 mEq/L. Login to comment
380 [1435G>T;2260G>A] CF-PI E479X nd; V754M non CF-causing p. Login to comment

PMID: 26002249 [PubMed] Hadj Fredj S et al: "Prenatal diagnosis of cystic fibrosis: 10-years experience."

No. Sentence Comment

77 Ten different CFTR mutations were identified, including F508del (51.28%), E1104X (12.82%), N1303K (8.97%), G542X (8.97%), 711 + 1 G!T (6.41%), W1282X (5.12 %), R785X (1.28 %) and V754M (1.28%). Login to comment

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. Login to comment