ABCC7 p.Gly1173Ser
Predicted by SNAP2: | A: N (93%), C: N (87%), D: N (93%), E: N (97%), F: N (78%), H: N (87%), I: N (82%), K: N (93%), L: N (82%), M: N (93%), N: N (97%), P: N (93%), Q: N (93%), R: N (93%), S: N (97%), T: N (93%), V: N (93%), W: N (78%), Y: N (82%), |
Predicted by PROVEAN: | A: N, C: N, D: N, E: N, F: 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: N, Y: N, |
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[hide] Novel CFTR variants identified during the first 3 ... J Mol Diagn. 2013 Sep;15(5):710-22. doi: 10.1016/j.jmoldx.2013.05.006. Epub 2013 Jun 28. Prach L, Koepke R, Kharrazi M, Keiles S, Salinas DB, Reyes MC, Pian M, Opsimos H, Otsuka KN, Hardy KA, Milla CE, Zirbes JM, Chipps B, O'Bra S, Saeed MM, Sudhakar R, Lehto S, Nielson D, Shay GF, Seastrand M, Jhawar S, Nickerson B, Landon C, Thompson A, Nussbaum E, Chin T, Wojtczak H
Novel CFTR variants identified during the first 3 years of cystic fibrosis newborn screening in California.
J Mol Diagn. 2013 Sep;15(5):710-22. doi: 10.1016/j.jmoldx.2013.05.006. Epub 2013 Jun 28., [PMID:23810505]
Abstract [show]
California uses a unique method to screen newborns for cystic fibrosis (CF) that includes gene scanning and DNA sequencing after only one California-40 cystic fibrosis transmembrane conductance regulator (CFTR) panel mutation has been identified in hypertrypsinogenemic specimens. Newborns found by sequencing to have one or more additional mutations or variants (including novel variants) in the CFTR gene are systematically followed, allowing for prospective assessment of the pathogenic potential of these variants. During the first 3 years of screening, 55 novel variants were identified. Six of these novel variants were discovered in five screen-negative participants and three were identified in multiple unrelated participants. Ten novel variants (c.2554_2555insT, p.F1107L, c.-152G>C, p.L323P, p.L32M, c.2883_2886dupGTCA, c.2349_2350insT, p.K114del, c.-602A>T, and c.2822delT) were associated with a CF phenotype (42% of participants were diagnosed at 4 to 25 months of age), whereas 26 were associated with CFTR-related metabolic syndrome to date. Associations with the remaining novel variants were confounded by the presence of other diseases or other mutations in cis or by inadequate follow-up. These findings have implications for how CF newborn screening and follow-up is conducted and will help guide which genotypes should, and which should not, be considered screen positive for CF in California and elsewhere.
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No. Sentence Comment
56 Multiplex ligation-dependent probe amplification12 (MRC-Holland, Amsterdam, The Netherlands) was used to determine gross deletions or duplications when CF was suspected but no or one CFTR mutations were detected by Table 1 Description of Novel CFTR Variants Identified in California, July 16, 2007, to July 15, 2010 CFTR region Nucleotide change Predicted amino acid change Type of mutation Promoter c.-983A>T Promoter c.-967T>C Promoter c.-837T>C Promoter c.-769A>G Promoter c.-730A>G Promoter c.-684G>A Promoter c.-635A>G Promoter c.-602A>T Promoter c.-510G>A Promoter c.-448A>G Promoter c.-288G>C Promoter c.-152G>C Exon 1 c.38C>G p.S13C Missense Exon 2 c.94C>A p.L32M Missense Intron 2 c.164 &#fe; 4T>A Exon 3 c.226T>C p.C76R Missense Exon 4 c.335A>G p.D112G Missense Exon 4 c.407T>C p.L136P Missense Exon 4 c.472_474delAAG p.K114del In-frame deletion Intron 6 c.744-15T>C Exon 7 c.745G>T p.D249Y Missense Intron 7 c.869 &#fe; 8G>T Exon 8 c.944T>C p.F315S Missense Exon 8 c.968T>C p.L323P Missense Exon 8 c.974A>G p.Y325C Missense Exon 8 c.1064C>T p.P355Ly Missense Exon 10 c.1278delC p.D426Efs*16 (stop codon at 441) Frameshift Exon 11 c.1479G>C p.Q493Hy Missense Exon 14 c.1885A>G p.T629A Missense Exon 14 c.2153C>G p.P718R Missense Exon 14 c.2433G>T p.R811S Missense Exon 14 c.2349_2350insT p.H784Sfs*21 (stop codon at 804) Frameshift Intron 13 c.1767-13T>G Intron 14 c.2490 &#fe; 14G>A Intron 14 c.2490 &#fe; 14G>T Exon 15 c.2554_2555insT p.Y852Lfs*44 (stop codon at 895) Frameshift Exon 15 c.2510T>C p.M837T Missense Exon 17 c.2659A>C p.T887P Missense Exon 17 c.2883_2886dupGTCA p.T963Vfs*13 (stop codon at 975) Frameshift Exon 17 c.2822delT p.L941Qfs*27 (stop codon at 967) Frameshift Exon 19 c.3064G>A p.V1022M Missense Exon 20 c.3319T>C p.F1107L Missense Intron 20 c.3367 &#fe; 3A>Cy Exon 21 c.3382A>G p.R1128G Missense Exon 21 c.3418A>T p.M1140L Missense Exon 22 c.3517G>A p.G1173S Missense Exon 22 c.3592G>A p.V1198M Missense Intron 22 c.3718-24G>A Intron 23 c.3963 &#fe; 6G>T Exon 25 c.3964G>C p.V1322L Missense Exon 25 c.4123C>A p.H1375N Missense Intron 25 c.4136 &#fe; 12A>G Exon 26 c.4186A>C p.T1396P Missense Intron 26 c.4243-5C>T Exon 27 c.4433C>G p.T1478R Missense y A known mutation occurs at the same nucleotide position or codon.
X
ABCC7 p.Gly1173Ser 23810505:56:1889
status: NEW184 Parental testing for participants 45, 46, and 59, all diagnosed as CFTR carriers, showed the following mutation pairs to be in cis: p.G85E with c.744-15T>C (novel), p.N1303K with c.2490 &#fe; 14G>A (novel), and c.164 &#fe; 4T>A (novel) with p.G1173S (novel), respectively.
X
ABCC7 p.Gly1173Ser 23810505:184:243
status: NEW185 ESP reported the p.G1173S variant with a frequency of 1 in 10,757 (0.01%), and the c.- 461A>G variant had a frequency of 2 in 2188 (0.09%) according to 1000 Genomes.5 Novel Variants Probably Not Causative of CF Manifestations to Date Twenty-six participants carrying 26 of the 55 novel variants (47%) have not shown consistent manifestations of CF over time.
X
ABCC7 p.Gly1173Ser 23810505:185:19
status: NEW