ABCC7 p.Leu1388Val
| ClinVar: |
c.4163T>A
,
p.Leu1388Gln
?
, not provided
|
| CF databases: |
c.4163T>A
,
p.Leu1388Gln
(CFTR1)
D
, The above mutation was found once in a sample of 50 German CBAVD patients. The patient was heterozygous for L1388Q and [delta]F508.
c.4162C>G , p.Leu1388Val (CFTR1) ? , This mutation was seen in 1 out of 96 random samples. |
| Predicted by SNAP2: | A: D (63%), C: N (53%), D: D (85%), E: D (85%), F: N (53%), G: D (85%), H: D (80%), I: N (93%), K: D (85%), M: N (72%), N: D (80%), P: D (85%), Q: D (75%), R: D (85%), S: D (75%), T: D (75%), V: N (72%), W: D (80%), Y: D (75%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, F: N, G: D, H: D, I: N, K: D, M: N, N: D, P: D, Q: D, R: D, S: D, T: D, V: N, W: D, Y: D, |
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[hide] Scanning the cystic fibrosis transmembrane conduct... Clin Chem. 2007 Nov;53(11):1891-8. Epub 2007 Sep 21. Montgomery J, Wittwer CT, Kent JO, Zhou L
Scanning the cystic fibrosis transmembrane conductance regulator gene using high-resolution DNA melting analysis.
Clin Chem. 2007 Nov;53(11):1891-8. Epub 2007 Sep 21., [PMID:17890437]
Abstract [show]
BACKGROUND: Complete gene analysis of the cystic fibrosis transmembrane conductance regulator gene (CFTR) by scanning and/or sequencing is seldom performed because of the cost, time, and labor involved. High-resolution DNA melting analysis is a rapid, closed-tube alternative for gene scanning and genotyping. METHODS: The 27 exons of CFTR were amplified in 37 PCR products under identical conditions. Common variants in 96 blood donors were identified in each exon by high-resolution melting on a LightScanner(R). We then performed a subsequent blinded study on 30 samples enriched for disease-causing variants, including all 23 variants recommended by the American College of Medical Genetics and 8 additional, well-characterized variants. RESULTS: We identified 22 different sequence variants in 96 blood donors, including 4 novel variants and the disease-causing p.F508del. In the blinded study, all 40 disease-causing heterozygotes (29 unique) were detected, including 1 new probable disease-causing variant (c.3500-2A>T). The number of false-positive amplicons was decreased 96% by considering the 6 most common heterozygotes. The melting patterns of most heterozygotes were unique (37 of 40 pairs within the same amplicon), the exceptions being p.F508del vs p.I507del, p.G551D vs p.R553X, and p.W1282X vs c.4002A>G. The homozygotes p.G542X, c.2789 + 5G>A, and c.3849 + 10kbC>T were directly identified, but homozygous p.F508del was not. Specific genotyping of these exceptions, as well as genotyping of the 5T allele of intron 8, was achieved by unlabeled-probe and small-amplicon melting assays. CONCLUSIONS: High-resolution DNA melting methods provide a rapid and accurate alternative for complete CFTR analysis. False positives can be decreased by considering the melting profiles of common variants.
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No. Sentence Comment
98 Allele fraction (%) 1 125GϾC 3.8 3 356GϾA R75Q 3.5 4 605GϾC S158T Ͻ0.4b,c 6b 1001 ϩ 11CϾT 13.1 10 1540AϾG M470V 30.0d 1716GϾA 1.5 12 1859GϾC G576A 1.5 13 2134CϾT R668C 1.5 14a 2694TϾG 26.2 14b 2752 - 6TϾC 0.4 15 3032TϾC L967S 0.8 17b 3417AϾT T109S 1.5 19 3601 - 17TϾC 0.4 20 3891GϾA Ͻ0.4b,c 4002AϾG 1.5 21 4029AϾG 0.4 23 4294CϾG L1388V 0.4b 4316GϾA C1395Y 0.4b 4374 ϩ 13AϾG 0.4 24 4404CϾT 0.8 4521GϾA 20.8 a All variants were identified by scanning random panels and confirmed by sequencing.
X
ABCC7 p.Leu1388Val 17890437:98:449
status: NEW90 Four variants (p.S158T, c.3891GϾA, p.L1388V, and p.C1395Y) have not been reported previously, and each was detected in only a single sample.
X
ABCC7 p.Leu1388Val 17890437:90:43
status: NEW