ABCMdb

ABCC7 p.Asp993Tyr

ClinVar:	c.2977G>T , p.Asp993Tyr ? , not provided
CF databases:	c.2977G>T , p.Asp993Tyr (CFTR1) D , The above mutation was found by DGGE and then direct sequencing of DNA from a patient with severe phenotype from Southern France. c.2978A>G , p.Asp993Gly (CFTR1) ? , The mutation was detected by DHPLC analysis and characterized by direct sequencing
Predicted by SNAP2:	A: D (71%), C: D (71%), E: D (66%), F: D (80%), G: D (80%), H: D (80%), I: D (75%), K: D (91%), L: D (85%), M: D (75%), N: D (80%), P: D (91%), Q: D (80%), R: D (91%), S: D (71%), T: D (80%), V: D (80%), W: D (85%), Y: D (85%),
Predicted by PROVEAN:	A: N, C: D, E: N, F: D, G: N, H: N, I: N, K: N, L: N, M: N, N: N, P: N, Q: N, R: N, S: N, T: N, V: N, W: D, Y: D,

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[hide] A combined analysis of the cystic fibrosis transme... Mol Biol Evol. 2001 Sep;18(9):1771-88. Chen JM, Cutler C, Jacques C, Boeuf G, Denamur E, Lecointre G, Mercier B, Cramb G, Ferec C
A combined analysis of the cystic fibrosis transmembrane conductance regulator: implications for structure and disease models.
Mol Biol Evol. 2001 Sep;18(9):1771-88., [PMID:11504857]

Abstract [show]
Over the past decade, nearly 1,000 variants have been identified in the cystic fibrosis transmembrane conductance regulator (CFTR) gene in classic and atypical cystic fibrosis (CF) patients worldwide, and an enormous wealth of information concerning the structure and function of the protein has also been accumulated. These data, if evaluated together in a sequence comparison of all currently available CFTR homologs, are likely to refine the global structure-function relationship of the protein, which will, in turn, facilitate interpretation of the identified mutations in the gene. Based on such a combined analysis, we had recently defined a "functional R domain" of the CFTR protein. First, presenting two full-length cDNA sequences (termed sCFTR-I and sCFTR-II) from the Atlantic salmon (Salmo salar) and an additional partial coding sequence from the eastern gray kangaroo (Macropus giganteus), this study went further to refine the boundaries of the two nucleotide-binding domains (NBDs) and the COOH-terminal tail (C-tail), wherein NBD1 was defined as going from P439 to G646, NBD2 as going from A1225 to E1417, and the C-tail as going from E1418 to L1480. This approach also provided further insights into the differential roles of the two halves of CFTR and highlighted several well-conserved motifs that may be involved in inter- or intramolecular interactions. Moreover, a serious concern that a certain fraction of missense mutations identified in the CFTR gene may not have functional consequences was raised. Finally, phylogenetic analysis of all the full-length CFTR amino acid sequences and an extended set of exon 13--coding nucleotide sequences reinforced the idea that the rabbit may represent a better CF model than the mouse and strengthened the assertion that a long-branch attraction artifact separates the murine rodents from the rabbit and the guinea pig, the other Glires.

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544 Consistent with this hypothesis, none of the three missense mutations identified in this region (fig. 2) can be confidently assigned as causal for CF disease; for example, R1422W was identified in a CF patient who also carried the mutations F508del and D993Y, and R1453W was identified in a patient with diffuse panbronchiolitis (http://www.genet.sickkids.on. ca/cftr). Login to comment

[hide] Mutations at arginine 352 alter the pore architect... J Membr Biol. 2008 Mar;222(2):91-106. Epub 2008 Apr 18. Cui G, Zhang ZR, O'Brien AR, Song B, McCarty NA
Mutations at arginine 352 alter the pore architecture of CFTR.
J Membr Biol. 2008 Mar;222(2):91-106. Epub 2008 Apr 18., [PMID:18421494]

Abstract [show]
Arginine 352 (R352) in the sixth transmembrane domain of the cystic fibrosis transmembrane conductance regulator (CFTR) previously was reported to form an anion/cation selectivity filter and to provide positive charge in the intracellular vestibule. However, mutations at this site have nonspecific effects, such as inducing susceptibility of endogenous cysteines to chemical modification. We hypothesized that R352 stabilizes channel structure and that charge-destroying mutations at this site disrupt pore architecture, with multiple consequences. We tested the effects of mutations at R352 on conductance, anion selectivity and block by the sulfonylurea drug glipizide, using recordings of wild-type and mutant channels. Charge-altering mutations at R352 destabilized the open state and altered both selectivity and block. In contrast, R352K-CFTR was similar to wild-type. Full conductance state amplitude was similar to that of wild-type CFTR in all mutants except R352E, suggesting that R352 does not itself form an anion coordination site. In an attempt to identify an acidic residue that may interact with R352, we found that permeation properties were similarly affected by charge-reversing mutations at D993. Wild-type-like properties were rescued in R352E/D993R-CFTR, suggesting that R352 and D993 in the wild-type channel may interact to stabilize pore architecture. Finally, R352A-CFTR was sensitive to modification by externally applied MTSEA+, while wild-type and R352E/D993R-CFTR were not. These data suggest that R352 plays an important structural role in CFTR, perhaps reflecting its involvement in forming a salt bridge with residue D993.

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281 Several R352 mutations are CF-associated mutations, including R352G, R352W and R352Q (Cremonesi et al. 1992; Audre´zet et al. 1993; Brancolini et al. 1995; Feldmann et al. 2003); similarly, D993Y and D993G are associated with disease (Tsui et al. 2007). Login to comment

[hide] Mutations in the cystic fibrosis transmembrane con... J Cyst Fibros. 2012 Jul;11(4):316-23. doi: 10.1016/j.jcf.2012.01.005. Epub 2012 Apr 6. Li H, Wen Q, Li H, Zhao L, Zhang X, Wang J, Cheng L, Yang J, Chen S, Ma X, Wang B
Mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) in Chinese patients with congenital bilateral absence of vas deferens.
J Cyst Fibros. 2012 Jul;11(4):316-23. doi: 10.1016/j.jcf.2012.01.005. Epub 2012 Apr 6., [PMID:22483971]

Abstract [show]
BACKGROUND: Genetic testing of the cystic fibrosis transmembrane conductance (CFTR) gene is currently performed in patients with congenital bilateral absence of vas deferens (CBAVD). This study was conducted to investigate the role of mutations in the CFTR gene in CBAVD-dependent male infertility. METHODS: 73 Chinese patients diagnosed with CBAVD were studied. The entire coding regions and splice sites of 27 exons of the CFTR gene were sequenced in 146 chromosomes from the 73 CBAVD patients. Screening was carried out using PCR, gel electrophoresis and DNA sequencing to identify novel variants of the entire coding regions and boundaries of the 27 exons. RESULTS: Five novel nonsynonymous mutations, three novel splice site mutations and one deletion were identified by sequencing. Apart from the novel variants, we also found 19 previously reported mutations and polymorphism sites. Thirty-four patients (46.57%) had the 5T variant (6 homozygous and 28 heterozygous) and in two of them it was not associated with any detectable mutation of the CFTR gene. All potential pathogenic mutations are not contained in the 1000 Genome Project database. In total, the present study identified 30 potential pathogenic variations in the CFTR gene, 9 of which had not previously been described. CONCLUSIONS: Most patients with CBAVD have mutations in the CFTR gene. A mild genotype with one or two mild or variable mutations was observed in all the patients. These findings improve our understanding of the distribution of CFTR alleles in CBAVD patients and will facilitate the development of more sensitive CFTR mutation screening.

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103 The mutations (p.T388K, p.R419I, p.G451K) are located in the NBF1 domain, which contains a number of highly conserved motifs predicted to bind and hydrolyse ATP. Login to comment
104 An exon 16 mis-sense mutation in TMD-M9, p.D993Y [36], and an exon 18 missense mutation in TMD-M12 p.A1136T [37], two previously described mutations were found in two CBAVD phenotypes. Login to comment
119 △F508 R117H Mutation genotypes IVS8-Tn n (%) Two mutations detected Neg Neg I556V/I556V 7T/7T 1(1.3) Neg Neg I556V/1209+2 G-C 5T/7T 1(1.3) Neg Neg I556V/726delATT 5T/5T 1(1.3) Neg Neg I556V/- 5T/5T 1(1.3) Neg Neg I556V/- 5T/7T 1(1.3) Neg Neg G970D/- 5T/7T 1(1.3) Neg Neg C592F/- 5T/5T 1(1.3) Neg Neg 1209+1 G-C/- 5T/7T 1(1.3) Neg Neg R553X/- 5T/7T 1(1.3) Neg Neg Q1352H/- 5T/7T 1(1.3) Neg Neg S485C/- 5T/7T 1(1.3) Neg Neg A357T/- 5T/7T 1(1.3) Neg Neg E217G/- 5T/7T 1(1.3) Neg Neg R347H/- 5T/7T 1(1.3) Neg Neg G451K/- 5T/7T 1(1.3) Neg Neg L558S/- 5T/7T 1(1.3) Neg Neg 3635delT/Q1352H 7T/7T 1(1.3) Neg Neg A1136T/G970D 7T/7T 1(1.3) Neg Neg 870-1 G-C/- 5T/7T 1(1.3) Neg Neg 520-2 A-G/- 5T/7T 1(1.3) Neg Neg R419I/- 5T/7T 1(1.3) Neg Neg C491F/Q1643Q 7T/7T 1(1.3) Neg Neg Q1352H/- 5T/7T 1(1.3) Neg Neg R851X/- 5T/7T 1(1.3) Neg Neg P750L/G970D 7T/7T 1(1.3) One mutation detected Neg Neg -/- 5T/7T 2(2.7) Neg Neg -/- 5T/7T 3(4.1) Neg Neg -/- 5T/7T 5(6.8) Neg Neg -/- 5T/5T 2(2.7) Neg Neg -/- 5T/5T 1(1.3) Neg Neg G970D/- 7T/7T 2(2.7) Neg Neg D993Y/- 7T/7T 1(1.3) Neg Neg I556V/- 7T/7T 1(1.3) Neg Neg T388R/- 7T/7T 1(1.3) No mutation detected Neg Neg -/- 7T/7T 8(10.9) Neg Neg -/- 7T/7T 15(20.5) Neg Neg -/- 7T/9T 2(2.7) Neg Neg -/- 7T/7T 4(5.5) Neg: Negative. Login to comment
118 b3;F508 R117H Mutation genotypes IVS8-Tn n (%) Two mutations detected Neg Neg I556V/I556V 7T/7T 1(1.3) Neg Neg I556V/1209+2 G-C 5T/7T 1(1.3) Neg Neg I556V/726delATT 5T/5T 1(1.3) Neg Neg I556V/- 5T/5T 1(1.3) Neg Neg I556V/- 5T/7T 1(1.3) Neg Neg G970D/- 5T/7T 1(1.3) Neg Neg C592F/- 5T/5T 1(1.3) Neg Neg 1209+1 G-C/- 5T/7T 1(1.3) Neg Neg R553X/- 5T/7T 1(1.3) Neg Neg Q1352H/- 5T/7T 1(1.3) Neg Neg S485C/- 5T/7T 1(1.3) Neg Neg A357T/- 5T/7T 1(1.3) Neg Neg E217G/- 5T/7T 1(1.3) Neg Neg R347H/- 5T/7T 1(1.3) Neg Neg G451K/- 5T/7T 1(1.3) Neg Neg L558S/- 5T/7T 1(1.3) Neg Neg 3635delT/Q1352H 7T/7T 1(1.3) Neg Neg A1136T/G970D 7T/7T 1(1.3) Neg Neg 870-1 G-C/- 5T/7T 1(1.3) Neg Neg 520-2 A-G/- 5T/7T 1(1.3) Neg Neg R419I/- 5T/7T 1(1.3) Neg Neg C491F/Q1643Q 7T/7T 1(1.3) Neg Neg Q1352H/- 5T/7T 1(1.3) Neg Neg R851X/- 5T/7T 1(1.3) Neg Neg P750L/G970D 7T/7T 1(1.3) One mutation detected Neg Neg -/- 5T/7T 2(2.7) Neg Neg -/- 5T/7T 3(4.1) Neg Neg -/- 5T/7T 5(6.8) Neg Neg -/- 5T/5T 2(2.7) Neg Neg -/- 5T/5T 1(1.3) Neg Neg G970D/- 7T/7T 2(2.7) Neg Neg D993Y/- 7T/7T 1(1.3) Neg Neg I556V/- 7T/7T 1(1.3) Neg Neg T388R/- 7T/7T 1(1.3) No mutation detected Neg Neg -/- 7T/7T 8(10.9) Neg Neg -/- 7T/7T 15(20.5) Neg Neg -/- 7T/9T 2(2.7) Neg Neg -/- 7T/7T 4(5.5) Neg: Negative. Login to comment

[hide] High heterogeneity of CFTR mutations and unexpecte... J Cyst Fibros. 2004 Dec;3(4):265-72. des Georges M, Guittard C, Altieri JP, Templin C, Sarles J, Sarda P, Claustres M
High heterogeneity of CFTR mutations and unexpected low incidence of cystic fibrosis in the Mediterranean France.
J Cyst Fibros. 2004 Dec;3(4):265-72., [PMID:15698946]

Abstract [show]
In this report, we present updated spectrum and frequency of mutations of the CFTR gene that are responsible for cystic fibrosis (CF) in Languedoc-Roussillon (L-R), the southwestern part of France. A total of 75 different mutations were identified by DGGE in 215 families, accounting for 97.6% of CF genes and generating 88 different mutational genotypes. The frequency of p.F508del was 60.23% in L-R versus 67.18% in the whole country and only five other mutations (p.G542X, p.N1303K, p.R334W, c.1717-1G>A, c.711+1G>T) had a frequency higher than 1%. The mutations were scattered over 20 exons or their border. This sample representing only 5.7% of French CF patients contributed to 24% of CFTR mutations reported in France. This is one of the highest molecular allelic heterogeneity reported so far in CF. We also present the result of a neonatal screening program based on a two-tiered approach "IRT/20 mutations/IRT" analysis on blood spots, implemented in France with the aim to improve survival and quality of life of patients diagnosed before clinical onset. This 18-month pilot project showed an unexpected low incidence of CF (1/8885) in South of France, with only six CF children detected among 43,489 neonates born in L-R, and 13 among 125,339 neonates born in Provence-Alpes-Cote-d'Azur (PACA).

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No. Sentence Comment
68 of chromosomes (frequency %) p.M1V 1 1 (0.23) p.M1K 1 1 (0.23) c.300delA 3 1 (0.23) p.P67L 3 1 (0.23) c.359insT 3 1 (0.23) p.G85E 3 3 (0.70) c.394delTT 3 1 (0.23) p.Q98R 4 1 (0.23) p.R117H 4 2 (0.47) p.Y122X 4 2 (0.47) p.Y161N 4 1 (0.23) c.621+1GNT intron 4 1 (0.23) c.621+2TNG intron 4 1 (0.23) p.I175V 5 2 (0.47) c.711+1GNT intron 5 5 (1.16) p.L206W 6 3 (0.70) p.Q220X 6 1 (0.23) p.L227R 6 1 (0.23) c.1078delT 7 2 (0.47) p.R334W 7 7 (1.63) p.R347P 7 2 (0.47) c.1215delG 7 1 (0.23) c.T5 intron 8 1 (0.23) p.D443Y 9 1 (0.23) p.I506T 10 1 (0.23) p.I507del 10 4 (0.93) p.F508del 10 259 (60.23) p.F508C 10 1 (0.23) c.1677delTA 10 1 (0.23) c.1717-8GNA intron 10 1 (0.23) c.1717-1GNA intron 10 6 (1.40) p.G542X 11 23 (5.35) p.S549R 11 1 (0.23) p.G551D 11 2 (0.47) p.R553X 11 1 (0.23) c1811+1.6kbANG intron 11 4 (0.93) c.1812-1GNA intron 11 1 (0.23) p.T582I 12 1 (0.23) p.E585X 12 2 (0,47) c.1898+1GNA intron 12 1 (0.23) [c.1898+5GNA ;p.E725K] intron 12 1 (0.23) c.1898+73TNG intron 12 1 (0.23) c.2183AANG 13 4 (0.93) c.2184insA 13 1 (0.23) p.K710X 13 4 (0.93) c.2423delG 13 1 (0.23) p.S776X 13 1 (0.23) c.2493ins8 13 1 (0.23) p.R792X 13 1 (0.23) p.K830X 13 1 (0.23) p.D836Y 14a 1 (0.23) p.W846X1 14a 1 (0.23) c.2711delT 14a 1 (0.23) c.2789+5GNA intron 14b 3 (0.70) p.S945L 15 3 (0.70) p.D993Y 16 1 (0.23) c.3129del4 17a 1 (0.23) c.3195del6 17a 1 (0.23) c.3272-26ANG intron 17a 1 (0.23) [c.3395insA ;pI148T] 17b/4 1 (0,23) p.Y1092X 17b 3 (0.70) Table 1 (continued) Mutation Location exon/intron No. Login to comment

[hide] Cystic fibrosis at the Reunion Island (France): sp... J Cyst Fibros. 2004 Aug;3(3):185-8. Dugueperoux I, Bellis G, Lesure JF, Renouil M, Flodrops H, De Braekeleer M
Cystic fibrosis at the Reunion Island (France): spectrum of mutations and genotype-phenotype for the Y122X mutation.
J Cyst Fibros. 2004 Aug;3(3):185-8., [PMID:15463906]

Abstract [show]
BACKGROUND: The Reunion Island is a French administrative department located in the Indian Ocean between the islands of Madagascar and Mauritius. Its population is known to be at a high risk of cystic fibrosis (CF). METHODS: Data concerning all CF patients born at the Reunion Island was extracted from the French CF Registry. Twenty-eight DeltaF508/DeltaF508, 17 Y122X/DeltaF508, and 11 Y122X/Y122X were included in a genotype-phenotype study. RESULTS: The detection rate of the CFTR mutations was 83% among the CF patients born at the Reunion Island. Three CFTR mutations accounted for 75% of the detected CF alleles at the Reunion Island (DeltaF508, Y122X, and 3120 + 1G-->A.). The DeltaF508/DeltaF508, DeltaF508/Y122X, and Y122X/Y122X genotypes accounted for 60.2% of the CF patients. Patients carrying at least one Y122X mutation were pancreatic insufficient, had high sweat chloride values and significantly lower anthropometric measures. The mean anthropometric values in all three groups were lower that in the whole CF population followed in "continental" France. This may reflect the poor compliance and even the refusal of treatment noted by the clinicians. CONCLUSIONS: The distribution of CFTR mutations could be explained by the history of the Reunion Island: admixture of French settlers, African and Asian populations, founder effect and isolation followed by genetic drift. The Y122X allele appears to be associated with a severe phenotype.

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No. Sentence Comment
76 A 1 (0.68) DeltaF508/ D993Y 1 (1.49) 993del5 1 (0.68) DeltaF508/ G542X 1 (1.49) A455E 1 (0.68) DeltaF508/2183AA ! Login to comment
77 G 1 (1.49) D993Y 1 (0.68) DeltaF508/ G551D 1 (1.49) G149R 1 (0.68) DeltaF508/1161delC 1 (1.49) G85E 1 (0.68) Y122X/3120 + 1G ! Login to comment

[hide] Spectrum of CFTR mutations in cystic fibrosis and ... Hum Mutat. 2000;16(2):143-56. Claustres M, Guittard C, Bozon D, Chevalier F, Verlingue C, Ferec C, Girodon E, Cazeneuve C, Bienvenu T, Lalau G, Dumur V, Feldmann D, Bieth E, Blayau M, Clavel C, Creveaux I, Malinge MC, Monnier N, Malzac P, Mittre H, Chomel JC, Bonnefont JP, Iron A, Chery M, Georges MD
Spectrum of CFTR mutations in cystic fibrosis and in congenital absence of the vas deferens in France.
Hum Mutat. 2000;16(2):143-56., [PMID:10923036]

Abstract [show]
We have collated the results of cystic fibrosis (CF) mutation analysis conducted in 19 laboratories in France. We have analyzed 7, 420 CF alleles, demonstrating a total of 310 different mutations including 24 not reported previously, accounting for 93.56% of CF genes. The most common were F508del (67.18%; range 61-80), G542X (2.86%; range 1-6.7%), N1303K (2.10%; range 0.75-4.6%), and 1717-1G>A (1.31%; range 0-2.8%). Only 11 mutations had relative frequencies >0. 4%, 140 mutations were found on a small number of CF alleles (from 29 to two), and 154 were unique. These data show a clear geographical and/or ethnic variation in the distribution of the most common CF mutations. This spectrum of CF mutations, the largest ever reported in one country, has generated 481 different genotypes. We also investigated a cohort of 800 French men with congenital bilateral absence of the vas deferens (CBAVD) and identified a total of 137 different CFTR mutations. Screening for the most common CF defects in addition to assessment for IVS8-5T allowed us to detect two mutations in 47.63% and one in 24.63% of CBAVD patients. In a subset of 327 CBAVD men who were more extensively investigated through the scanning of coding/flanking sequences, 516 of 654 (78. 90%) alleles were identified, with 15.90% and 70.95% of patients carrying one or two mutations, respectively, and only 13.15% without any detectable CFTR abnormality. The distribution of genotypes, classified according to the expected effect of their mutations on CFTR protein, clearly differed between both populations. CF patients had two severe mutations (87.77%) or one severe and one mild/variable mutation (11.33%), whereas CBAVD men had either a severe and a mild/variable (87.89%) or two mild/variable (11.57%) mutations.

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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. Login to comment