ABCC7 p.Gln493Arg
| ClinVar: |
c.1478A>C
,
p.Gln493Pro
?
, not provided
c.1478A>G , p.Gln493Arg ? , not provided c.1477C>T , p.Gln493* D , Pathogenic |
| CF databases: |
c.1477C>T
,
p.Gln493*
D
, CF-causing
c.1478A>C , p.Gln493Pro (CFTR1) D , c.1478A>G , p.Gln493Arg (CFTR1) ? , This mutation was identified by DGGE and direct sequencing which was found in a Bulgarian CF chromosome. |
| Predicted by SNAP2: | A: D (85%), C: D (85%), D: D (91%), E: D (85%), F: D (91%), G: D (91%), H: D (85%), I: D (91%), K: D (91%), L: D (91%), M: D (85%), N: D (85%), P: D (95%), R: D (91%), S: D (85%), T: D (85%), V: D (85%), W: D (91%), Y: D (91%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, R: D, S: D, T: D, V: D, W: D, Y: D, |
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[hide] ATP hydrolysis-coupled gating of CFTR chloride cha... Biochemistry. 2001 May 15;40(19):5579-86. Zou X, Hwang TC
ATP hydrolysis-coupled gating of CFTR chloride channels: structure and function.
Biochemistry. 2001 May 15;40(19):5579-86., 2001-05-15 [PMID:11341822]
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194 Interestingly, even relatively conserved mutations of these two glutamine residues (e.g., Q493R in NBD1 and Q1291R or Q1291H in NBD2) in the CFTR cause CF (Figure 3).
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ABCC7 p.Gln493Arg 11341822:194:90
status: NEW[hide] Mutations that change the position of the putative... J Biol Chem. 2002 Jan 18;277(3):2125-31. Berger AL, Ikuma M, Hunt JF, Thomas PJ, Welsh MJ
Mutations that change the position of the putative gamma-phosphate linker in the nucleotide binding domains of CFTR alter channel gating.
J Biol Chem. 2002 Jan 18;277(3):2125-31., 2002-01-18 [PMID:11788611]
Abstract [show]
The cystic fibrosis transmembrane conductance regulator (CFTR) Cl(-) channel is an ATP-binding cassette transporter that contains conserved nucleotide-binding domains (NBDs). In CFTR, the NBDs bind and hydrolyze ATP to open and close the channel. Crystal structures of related NBDs suggest a structural model with an important signaling role for a gamma-phosphate linker peptide that couples bound nucleotide to movement of an alpha-helical subdomain. We mutated two residues in CFTR that the structural model predicts will uncouple effects of nucleotide binding from movement of the alpha-helical subdomain. These residues are Gln-493 and Gln-1291, which may directly connect the ATP gamma-phosphate to the gamma-phosphate linker, and residues Asn-505 and Asn-1303, which may form hydrogen bonds that stabilize the linker. In NBD1, Q493A reduced the frequency of channel opening, suggesting a role for this residue in coupling ATP binding to channel opening. In contrast, N505C increased the frequency of channel opening, consistent with a role for Asn-505 in stabilizing the inactive state of the NBD. In NBD2, Q1291A decreased the effects of pyrophosphate without altering other functions. Mutations of Asn-1303 decreased the rate of channel opening and closing, suggesting an important role for NBD2 in controlling channel burst duration. These findings are consistent with both the bacterial NBD structural model and gating models for CFTR. Our results extend models of nucleotide-induced structural changes from bacterial NBDs to a functional mammalian ATP-binding cassette transporter.
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211 Two relatively uncommon missense mutations have been described at Gln-1291, Q1291H and Q1291R (43),4 and a single chromosome was reported to encode a variation at Gln-493, Q493R.4 The relatively mild gating abnormalities we observed for these variants suggest that if they cause CF, altered processing or some other abnormality may be the cause for the loss of CFTR function.
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ABCC7 p.Gln493Arg 11788611:211:172
status: NEW[hide] Cystic fibrosis: a worldwide analysis of CFTR muta... Hum Mutat. 2002 Jun;19(6):575-606. Bobadilla JL, Macek M Jr, Fine JP, Farrell PM
Cystic fibrosis: a worldwide analysis of CFTR mutations--correlation with incidence data and application to screening.
Hum Mutat. 2002 Jun;19(6):575-606., [PMID:12007216]
Abstract [show]
Although there have been numerous reports from around the world of mutations in the gene of chromosome 7 known as CFTR (cystic fibrosis transmembrane conductance regulator), little attention has been given to integrating these mutant alleles into a global understanding of the population molecular genetics associated with cystic fibrosis (CF). We determined the distribution of CFTR mutations in as many regions throughout the world as possible in an effort designed to: 1) increase our understanding of ancestry-genotype relationships, 2) compare mutational arrays with disease incidence, and 3) gain insight for decisions regarding screening program enhancement through CFTR multi-mutational analyses. Information on all mutations that have been published since the identification and cloning of the CFTR gene's most common allele, DeltaF508 (or F508del), was reviewed and integrated into a centralized database. The data were then sorted and regional CFTR arrays were determined using mutations that appeared in a given region with a frequency of 0.5% or greater. Final analyses were based on 72,431 CF chromosomes, using data compiled from over 100 original papers, and over 80 regions from around the world, including all nations where CF has been studied using analytical molecular genetics. Initial results confirmed wide mutational heterogeneity throughout the world; however, characterization of the most common mutations across most populations was possible. We also examined CF incidence, DeltaF508 frequency, and regional mutational heterogeneity in a subset of populations. Data for these analyses were filtered for reliability and methodological strength before being incorporated into the final analysis. Statistical assessment of these variables revealed that there is a significant positive correlation between DeltaF508 frequency and the CF incidence levels of regional populations. Regional analyses were also performed to search for trends in the distribution of CFTR mutations across migrant and related populations; this led to clarification of ancestry-genotype patterns that can be used to design CFTR multi-mutation panels for CF screening programs. From comprehensive assessment of these data, we offer recommendations that multiple CFTR alleles should eventually be included to increase the sensitivity of newborn screening programs employing two-tier testing with trypsinogen and DNA analysis.
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109 Mutational Arrays, Detection Rates and Methods by Region* Estimated Projected detection of Number of Number of Country/ allele two CFTR mutations chromosomes Region Mutation array detectiona mutationsb includedc (max/min)d Reference Europe Albania ∆F508 (72.4%) C276X (0.7%) 74.5 55.5 4 270/146 CFGAC [1994]; Macek et al. G85E (0.7%) R1070Q (0.7%) [2002] Austria ∆F508 (62.9%) 457TAT→G (1.2%) 76.6 58.7 11 1516/580 Estiville et al. [1997]; Dörk et al. (total) G542X (3.3%) 2183AA→G (0.7%) [2000]; Macek et al. [2002] CFTRdele2,3 (2.1%) N1303K (0.6%) R1162X (1.9%) I148T (0.5%) R553X (1.7%) R117H (0.5%) G551D (1.2%) Austria ∆F508 (74.6%) 2183AA→G (2.4%) 95.3 90.8 8 126 Stuhrmann et al. [1997] (tyrol) R1162X (8.7%) G551D (1.6%) G542X (2.4%) R347P (1.6%) 2789+5G→A (2.4%) Q39X (1.6%) Belarus ∆F508 (61.2%) R553X (0.5%) 75.2 56.6 9 278/188 Dörk et al. [2000]; Macek et al. G542X (4.5%) R334W (0.5%) [2002] CFTRdele2,3 (3.3%) R347P (0.5%) N1303K (3.2%) S549N (0.5%) W1282X (1.0%) Belgium ∆F508 (75.1%) 622-1A→C (0.5%) 100.0 100.0 27 1504/522 Cuppens et al. [1993]; Mercier et G542X (3.5%) G458V (0.5%) al. [1993]; CFGAC [1994]; N1303K (2.7%) 1898+G→C (0.5%) Estivill et al.[1997] R553X (1.7%) G970R (0.5%) 1717-1G→A (1.6%) 4218insT (0.5%) E60X (1.6%) 394delTT (0.5%) W1282X (1.4%) K830X (0.5%) 2183A→G+2184delA (1.2%) E822K (0.5%) W401X (1.0%) 3272-1G→A (0.5%) A455E (1.0%) S1161R (0.5%) 3272-26A→G (1.0%) R1162X (0.5%) S1251N (1.0%) 3750delAG (0.5%) S1235R (0.8%) S1255P (0.5%) ∆I507 (0.6%) Bulgaria ∆F508 (63.6%) R75Q (1.0%) 93.0 86.5 21 948/432 Angelicheva et al. [1997]; (total) N1303K (5.6%) 2183AA→G (0.9%) Estivill et al. [1997]; Macek G542X (3.9%) G1244V+S912L (0.9%) et al. [2002] R347P (2.2%) G85E (0.9%) 1677delTA (2.1%) 2184insA (0.9%) R1070Q (1.8%) L88X+G1069R (0.8%) Q220X (1.2%) 2789+5G→A (0.8%) 3849+10KbC→T (1.1%) G1244E (0.8%) W1282X (1.0%) 1717-1G→A (0.8%) 2176insC (1.0%) Y919C (0.7%) G1069R (1.0%) WORLDWIDEANALYSISOFCFTRMUTATIONS581 Bulgaria 1) DF508 4) 1677delTA - - 6 13 Angelicheva et al. [1997] (ethnic 2) R347P 5) Q493R Turks) 3) G542X 6) L571S - - 1 30 Angelicheva et al. [1997] Bulgaria 1) DF508 (100.0%) (Gypsy) Croatia ∆F508 (64.5%) G551D (1.1%) 72.5 52.6 5 276 Macek et al. [2002] G542X (3.3%) 3849+10KbC→T (0.7%) N1303K (2.9%) Czech ∆F508 (70.0%) 1898+1G→T (2.0%) 89.6 80.3 10 2196/628 CFGAC [1994]; Estiville et al. Republic CFTRdele2,3 (5.5%) 2143delT (1.2%) [1997]; Dörk et al. [2000]; G551D (3.8%) R347P (0.8%) Macek et al. [2002] N1303K (2.9%) 3849+10KbC→T (0.6%) G542X (2.2%) W1282X (0.6%) Denmark ∆F508 (87.5%) G542X (0.7%) 92.3 85.2 6 1888/678 CFGAC [1994]; Schwartz et al. (excluding 394delTT (1.8%) 621+1G→T (0.6%) [1994]; Estiville et al. [1997] Faroe) N1303K (1.1%) 3659delC (0.6%) Estonia ∆F508 (51.7%) R117C (1.7%) 80.2 64.3 10 165/80 Estivill et al. [1997]; Klaassen et 394delTT (13.3%) E217G (1.7%) al. [1998]; Macek et al. S1235R (3.3%) R1066H (1.7%) [2002] 359insT (1.7%) 3659delC (1.7%) I1005R (1.7%) S1169X (1.7%) Finland ∆F508 (46.2%) G542X (1.9%) 78.8 62.1 4 132/52 CFGAC [1994]; Kere et al. 394delTT (28.8%) 3372delA (1.9%) [1994]; Estivill et al. [1997] France ∆F508 (67.7%) 2789+5G→T (0.79%) 79.7 63.6 12 17854/7420 Chevalier-Porst et al. [1994]; (total) G542X (2.94%) 2184delA+2183A→G (0.77%) Estivill et al. [1997]; Claustres et al. [2000]; Guilloud-Bataille N1303K (1.83%) G551D (0.74%) et al. [2000] 1717-1G→A (1.35%) 1078delT (0.63%) W1282X (0.91%) ∆I507 (0.62%) R553X (0.86%) Y122K (0.59%) France ∆F508 (75.8%) R297Q (0.8%) 98.7 97.4 18 599/365 Férec et al. [1992]; Scotet et al. (Brittany) 1078delT (4.0%) R347H (0.8%) [2000] G551D (3.6%) I1234V (0.8%) N1303K (3.0%) R553X (0.8%) R117H (1.7%) 2789+5G→A (0.8%) 3272-26A→G (1.3%) 4005+1G→A (0.7%) G542X (1.1%) 621+1G→T (0.6%) 1717-1G→A (1.0%) ∆I507 (0.6%) G1249R (0.8%) W846X (0.5%) France ∆F508 (70.0%) N1303K (0.8%) 90.4 81.7 16 250 Claustres et al. [1993] (southern) G542X (6.4%) 3737delA (0.8%) 1717-1G→A (1.6%) R1162X (0.8%) L206W (1.2%) Y1092X (0.8%) R334W (1.2%) S945L (0.8%) ∆I507 (1.2%) K710X (0.8%) 2184delA (1.2%) 1078delT (0.8%) R1158X (1.2%) Y122X (0.8%) (Continued) BOBADILLAETAL.
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ABCC7 p.Gln493Arg 12007216:109:2197
status: NEW[hide] Analysis by mass spectrometry of 100 cystic fibros... Hum Reprod. 2002 Aug;17(8):2066-72. Wang Z, Milunsky J, Yamin M, Maher T, Oates R, Milunsky A
Analysis by mass spectrometry of 100 cystic fibrosis gene mutations in 92 patients with congenital bilateral absence of the vas deferens.
Hum Reprod. 2002 Aug;17(8):2066-72., [PMID:12151438]
Abstract [show]
BACKGROUND: Limited mutation analysis for congenital bilateral absence of the vas deferens (CBAVD) has revealed only a minority of men in whom two distinct mutations were detected. We aimed to determine whether a more extensive mutation analysis would be of benefit in genetic counselling and prenatal diagnosis. METHODS: We studied a cohort of 92 men with CBAVD using mass spectrometry and primer oligonucleotide base extension to analyse an approximately hierarchical set of the most common 100 CF mutations. RESULTS: Analysis of 100 CF mutations identified 33/92 (35.9%) patients with two mutations and 29/92 (31.5%) with one mutation, compound heterozygosity accounting for 94% (31/33) of those with two mutations. This panel detected 12.0% more CBAVD men with at least one mutation and identified a second mutation in >50% of those considered to be heterozygotes under the two routine 25 mutation panel analyses. CONCLUSION: Compound heterozygosity of severe/mild mutations accounted for the vast majority of the CBAVD patients with two mutations, and underscores the value of a more extensive CF mutation panel for men with CBAVD. The CF100 panel enables higher carrier detection rates especially for men with CBAVD, their partners, partners of known CF carriers, and those with 'mild' CF with rarer mutations.
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20 Given the frequency of CF mutations, especially in the Caucasian population ( in 25), and the common request by CBAVD men to sire their own offspring by using surgical Table I. The 100 most common cystic fibrosis mutations listed by exon Mutationa Exonb Frequency (%)c G85E 3 0.1 394delTT 3 Swedish E60X 3 Belgium R75X 3 405ϩ1G→A Int 3 R117H 4 0.30 Y122X 4 French 457TAT→G 4 Austria I148T 4 Canada (French Canadian) 574delA 4 444delA 4 R117L 4 621ϩ1G→T Int 4 0.72 711ϩ1G→T Int 5 Ͼ0.1 712-1G→T Int 5 711ϩ5G→A Int 5 Italy (Caucasian) L206W 6a R347P 7 0.24 1078delT 7 Ͼ0.1 R334W 7 Ͼ0.1 1154InsTC 7 T338I 7 Italy R347H 7 Turkey Q359K/T360K 7 Israel (Georgian Jews) I336K 7 R352Q 7 G330X 7 S364P 7 A455E 9 0.20 I507 10 0.21 F508 10 66.02 1609delCA 10 Spain (Caucasian) V520F 10 Q493X 10 C524X 10 G480C 10 Q493R 10 1717-1G→A Int 10 0.58 R553X 11 0.73 G551D 11 1.64 G542X 11 2.42 R560T 11 Ͼ0.1 S549N 11 Q552X 11 Italy S549I 11 Israel (Arabs) A559T 11 African American R553G 11 R560K 11 1812-1G→A Int 11 A561E 12 E585X 12 Y563D 12 Y563N 12 1898ϩ1G→A Int 12 0.22 1898ϩ1G→C Int 12 2183AA→G 13 Italian 2184delA 13 Ͻ0.1 K710X 13 2143delT 13 Moscow (Russian) 2184InsA 13 1949del84 13 Spain (Spanish) 2176InsC 13 2043delG 13 2307insA 13 2789ϩ5G→A Int 14b Ͼ0.1 2869insG 15 S945L 15 Q890X 15 3120G→A 16 2067 Table I. continued Mutationa Exonb Frequency (%)c 3120ϩ1G→A Int 16 African American 3272-26A→G Int 17a R1066C 17b Portugal (Portugese) L1077P 17b R1070Q 17b Bulgarian W1089X 17b M1101K 17b Canada (Hutterite) R1070P 17b R1162X 19 0.29 3659delC 19 Ͼ0.1 3849G→A 19 3662delA 19 3791delC 19 3821delT 19 Russian Q1238X 19 S1235R 19 France, South S1196X 19 K1177R 19 3849ϩ10kbC→T Int 19 0.24 3849ϩ4A→G Int 19 W1282X 20 1.22 S1251N 20 Dutch, Belgian 3905insT 20 Swiss, Acadian, Amish G1244E 20 R1283M 20 Welsh W1282R 20 D1270N 20 S1255X 20 African American 4005ϩ1G→A Int 20 N1303K 21 1.34 W1316X 21 aMutations were chosen according to their frequencies (Cystic Fibrosis Genetic Analysis Consortium, 1994; Zielenski and Tsui, 1995; Estivill et al., 1997).
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ABCC7 p.Gln493Arg 12151438:20:886
status: NEW[hide] Mutation analysis in 600 French cystic fibrosis pa... J Med Genet. 1994 Jul;31(7):541-4. Chevalier-Porst F, Bonardot AM, Gilly R, Chazalette JP, Mathieu M, Bozon D
Mutation analysis in 600 French cystic fibrosis patients.
J Med Genet. 1994 Jul;31(7):541-4., [PMID:7525963]
Abstract [show]
The cystic fibrosis transmembrane conductance regulator (CFTR) gene of 600 unrelated cystic fibrosis (CF) patients living in France (excluding Brittany) was screened for 105 different mutations. This analysis resulted in the identification of 86% of the CF alleles and complete genotyping of 76% of the patients. The most frequent mutations in this population after delta F508 (69% of the CF chromosomes) are G542X (3.3%), N1303K (1.8%), W1282X (1.5%), 1717-1G-->A (1.3%), 2184delA + 2183 A-->G (0.9%), and R553X (0.8%).
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21 Among the 104 other CFTR mutations tested on the 373 non-AF508 CF chromosomes, none of the following 58 mutations were found: G91R, 435 insA, 444delA, D11OH, 556delA, 557delT, R297Q, 1154insTC, R347L, R352Q, Q359K/T360K, 1221delCT, G480C, Q493R, V520F, C524X, 1706dell7, S549R (A-C), S549N, S549I, G551S, 1784delG, Q552X, L558S, A559T, R560T, R560K, Y563N, P574H, 2307insA, 2522insC, 2556insAT, E827X, Q890X, Y913C, 2991de132 (Dork et al, personal communication), L967S, 3320ins5, 3359delCT, H1085R, R1158X, 3662delA, 3667del4, 3667ins4, 3732delA, 3737delA, W1204X, 3750delAG, I 1234V, Q1238X, 3850- 3T-+G, 3860ins31, S1255X, 3898insC, D1270N, R1283M, F1286S, 4005 + I G-A. Forty-six other mutations were found on at Distribution of CFTR mutations found in our sample ofpopulation (1200 CF chromosomes) Mutations tested No of CF chromosomes Haplotypes Method with the mutation XV2C-KM19 (% of total CF alleles) Exon 3: G85E 4 (033) 3C HinfI/ASO394delTT 2 2B PAGEExon 4: R117H 1 B ASOY122X 2 2C MseI/sequenceI148T 1 B ASO621+IG-J* 1 B MseIIASOExon 5: 711+1G--T 8(07) 8A ASOExon 7: AF311 1 C PAGE/sequencelO78delT 5 (0-42) 5C PAGE/ASOR334W 5 (0-42) 2A,2C,ID MspIlASOR347P 5 (042) 5A CfoI/NcoIR347H 1 Cfol/sequenceExon 9: A455E 1 B ASOExon 10: S492F I C DdeI/sequenceQ493X 1 D ASOl609deICA 1 C PAGE/Ddel/sequenceA1507 3 (025) 3D PAGE/ASOAF508 827 (69) 794B,30D,2C,IA PAGEl677delTA 1 A PAGE/sequenceExon I11: 1717-IG--.A 16(1-3) 14B Modified primers + AvaIIG542X 40 (3-3) 29B,5D,2A Modified primers + BstNiS549R(T--*G) 2 2B ASOG551D 3 (025) 3B HincII/Sau3AR553X 10(0-8) 6A,1B,2C,ID Hincll/sequenceExon 12: 1898+IG--A 1 C ASO1898+ IG-C 2 IC ASOExon 13: l9l8deIGC 1 A PAGE/sequence1949de184 I C PAGE/sequenceG628R(G-+A) 2 2A Sequence2118de14 I c PAGE/sequence2143de1T 1 B PAGE/modified primers2184de1A+2183A--*G 11 (0-9) lIB PAGE/ASO2184de1A 1 ASOK710X 3 (025) IC XmnI2372de18 1 B PAGE/sequenceExon 15: S945L 1 C TaqlExon 17b:L1065P I MnlIL1077P 1 A ASOY1092X 3 (025) 2C,IA Rsal/ASOExon 19: RI1162X 6 (0-5) 5C,IA DdeI/ASO3659delC 3 (025) 3C ASOExon 20: G1244E 2 2A MboIIS1251N 2 2C RsaI3905insT 4 (0-33) 4C PAGE/ASOW1282X 18 (105) 15B,1D MnlI/ASOR1283K 1 C Mnll/sequenceExon 21: N1303K 22 (1-8) 18B,lA,ID Modified primers+BstNI 47 mutations 1031 (85 9) least one CF chromosome (table): 21 of them are very rare as they were found on only one CF chromosome in our population.
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ABCC7 p.Gln493Arg 7525963:21:239
status: NEW[hide] Identification of six novel mutations in the CFTR ... Hum Mol Genet. 1994 Jan;3(1):57-60. Savov A, Mercier B, Kalaydjieva L, Ferec C
Identification of six novel mutations in the CFTR gene of patients from Bulgaria by screening the twenty seven exons and exon/intron boundaries using DGGE and direct DNA sequencing.
Hum Mol Genet. 1994 Jan;3(1):57-60., [PMID:7512860]
Abstract [show]
The CFTR gene, in which more than 300 mutations have been described, displays a spectrum of mutations which varies according to ethnic and geographic origin of patients. In this paper we report an exhaustive study of the 27 exons and exon/intron boundaries of a sample of 35 CF patients from Bulgaria which is situated in the south east of Europe. We have used denaturing gradient gel electrophoresis assay followed by DNA sequencing and we report the identification of six previously undescribed CFTR alleles.
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6 In this case the possible pathogenic role of G1069R remains to be determined by the presence of this missense mutation as the only alteration in a CF allele (figure 1) Q493R An A-G transition at position 1610 in exon 10 was found in a single CF allele of Turkish origin.
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ABCC7 p.Gln493Arg 7512860:6:168
status: NEW62 It is obvious that other experiments as RNA analysis in order to objective its effect on splicing are necessary to definitively prove that the 1717-8 G-A is a defective allele. The missense mutations Y919C and Q493R are drastic amino acid changes at the protein level and moreover on these two chromosomes no other change was observed through a complete screening, this renders very probable that these missense mutations correspond to a CFTR allele. The analysis of CF alleles has resulted in the identification of six novel mutations, all occurring in single mutant chromosomes.
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ABCC7 p.Gln493Arg 7512860:62:210
status: NEW[hide] PGD for cystic fibrosis patients and couples at ri... Reprod Biomed Online. 2013 May;26(5):420-30. doi: 10.1016/j.rbmo.2013.01.006. Epub 2013 Jan 29. Rechitsky S, Verlinsky O, Kuliev A
PGD for cystic fibrosis patients and couples at risk of an additional genetic disorder combined with 24-chromosome aneuploidy testing.
Reprod Biomed Online. 2013 May;26(5):420-30. doi: 10.1016/j.rbmo.2013.01.006. Epub 2013 Jan 29., [PMID:23523379]
Abstract [show]
Preimplantation genetic diagnosis (PGD) for inherited disorders is presently applied for more than 300 different conditions. The most frequent PGD indication is cystic fibrosis (CF), the largest series of which is reviewed here, totalling 404 PGD cycles. This involved testing for 52 different CFTR mutations with almost half of the cases (195/404 cycles) performed for DeltaF508 mutation, one-quarter (103/404 cycles) for six other frequent mutations and only a few for the remaining 45 CFTR mutations. There were 44 PGD cycles performed for 25 CF-affected homozygous or double-heterozygous CF patients (18 male and seven female partners), which involved testing simultaneously for three mutations, resulting in birth of 13 healthy CF-free children and no misdiagnosis. PGD was also performed for six couples at a combined risk of producing offspring with CF and another genetic disorder. Concomitant testing for CFTR and other mutations resulted in birth of six healthy children, free of both CF and another genetic disorder in all but one cycle. A total of 96 PGD cycles for CF were performed with simultaneous aneuploidy testing, including microarray-based 24-chromosome analysis, as a comprehensive PGD for two or more conditions in the same biopsy material.
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No. Sentence Comment
42 [1075C>A; 1079C>A] p.[Gln359Lys; Thr360Lys] Exon 8 1 1 1 4 1 1 R297Q c.890G>A p.Arg297Gln Exon 8 1 1 1 2 0 0 R347P c.1040G>C p.Arg347Pro Exon 8 3 5 2 4 1 1 T338I c.1013C>T p.Thr338Ile Exon 8 1 1 1 2 1 1 DF508 c.1521_1523delCTT p.Phe508del Exon 11 130 195 172 345 88 (4) 92 DI507 c.1519_1521delATC p.Ile507del Exon 11 1 5 5 11 2 1 Q493R c.1478A>G p.Gln493Arg Exon 11 5 5 2 2 2 2 1717-1G-A c.1585-1G>A - Intron 11 6 10 9 18 6 8 G542X c.1624G>T p.Gly542X Exon 12 14 17 15 34 10 10 G551S c.1651G>A p.Gly551Ser Exon 12 1 1 1 2 1 1 G551D c.1652G>A p.Gly551Asp Exon 12 12 22 19 33 7 8 I556V c.1666A>G p.Ile556Val Exon 12 1 2 2 4 1 1 R553X c.1657C>T p.Arg553X Exon 12 3 4 2 4 0 0 R560T c.1679G>C p.Arg560Thr Exon 12 1 1 1 2 1 2 1898+1G-A c.1766 &#b1; 1G>A - Intron 13 1 1 1 2 1 1 2184delA c.2052delA p.Lys684AsnfsX38 Exon 14 1 1 0 0 0 0 G622D c.1865G>A p.Gly622Asp Exon 14 1 1 1 3 0 0 N703S c.2108A>G p.Asn703Ser Exon 14 1 2 2 3 2 2 S737F c.2210C>T p.Ser737Phe Exon 14 1 1 0 0 0 0 2622+1G-A c.2490 &#b1; 1G>A - Intron 14 1 5 5 13 1 1 2752-26A-G c.2620-26A>G - Intron 15 1 2 2 4 0 0 2789+5G-A c.2657 &#b1; 5G>A - Intron 16 3 5 4 8 0 0 3120G-A c.2988G>A - Exon 18 2 2 1 2 1 0 3067-72del c.3067_3072del p.Ile1023_Val1024del Exon 19 1 1 1 1 0 0 I1027T c.3080T>C p.Ile1027Thr Exon 19 1 1 1 1 0 0 L997F c.2991G>C p.Leu997Phe Exon 19 1 2 2 4 1 (1) 0 M1028R c.3083T>G p.Met1028Arg Exon 19 1 1 1 2 1 2 F1052V c.3154T>G p.Phe1052Val Exon 20 1 1 0 0 0 0 Y1092X c.3276C>A p.Tyr1092X Exon 20 1 2 1 2 1 1 A1136T c.3406G>A p.Ala1136Thr Exon 21 1 2 1 2 1 0 D1152H c.3454G>C p.Asp1152His Exon 21 3 7 7 15 1 1 3659 del C c.3528delC p.Lys1177SerfsX15 Exon 22 2 4 3 7 3 3 R1162X c.3484C>T p.Arg1162X Exon 22 1 3 2 5 2 2 S1235R c.3705T>G p.Ser1235Arg Exon 22 2 3 3 5 2 1 3849+10kbC>T c.3717 &#b1; 12191C>T - Intron 22 2 4 4 5 0 0 W1282X c.3846G>A p.Trp1282X Exon 23 15 20 20 42 11 11 N1303K c.3909C>G p.Asn1303Lys Exon 24 9 12 11 24 4 5 Q1352H c.4056G>C p.Gln1352His Exon 25 1 1 1 1 1 1 Total 265 404 345 685 172 (6a ) 175 Values are n unless otherwise stated.
X
ABCC7 p.Gln493Arg 23523379:42:330
status: NEWX
ABCC7 p.Gln493Arg 23523379:42:348
status: NEW