ABCMdb

ABCA4 p.Arg2149*

ClinVar:

c.6446G>T , p.Arg2149Leu ? , not provided
c.6445C>T , p.Arg2149* D , Pathogenic

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Publications
[hide] Analysis of the ABCA4 gene by next-generation sequ... Invest Ophthalmol Vis Sci. 2011 Oct 31;52(11):8479-87. doi: 10.1167/iovs.11-8182. Zernant J, Schubert C, Im KM, Burke T, Brown CM, Fishman GA, Tsang SH, Gouras P, Dean M, Allikmets R
Analysis of the ABCA4 gene by next-generation sequencing.
Invest Ophthalmol Vis Sci. 2011 Oct 31;52(11):8479-87. doi: 10.1167/iovs.11-8182., [PMID:21911583]

Abstract [show]
PURPOSE: To find all possible disease-associated variants in coding sequences of the ABCA4 gene in a large cohort of patients diagnosed with ABCA4-associated diseases. METHODS: One hundred sixty-eight patients who had been clinically diagnosed with Stargardt disease, cone-rod dystrophy, and other ABCA4-associated phenotypes were prescreened for mutations in ABCA4 with the ABCA4 microarray, resulting in finding 1 of 2 expected mutations in 111 patients and 0 of 2 mutations in 57 patients. The next-generation sequencing (NGS) strategy was applied to these patients to sequence the entire coding region and the splice sites of the ABCA4 gene. Identified new variants were confirmed or rejected by Sanger sequencing and analyzed for possible pathogenicity by in silico programs and, where possible, by segregation analyses. RESULTS: Sequencing was successful in 159 of 168 patients and identified the second disease-associated allele in 49 of 103 (~48%) of patients with one previously identified mutation. Among those with no mutations, both disease-associated alleles were detected in 4 of 56 patients, and one mutation was detected in 10 of 56 patients. The authors detected a total of 57 previously unknown, possibly pathogenic, variants: 29 missense, 4 nonsense, 9 small deletions and 15 splice-site-altering variants. Of these, 55 variants were deemed pathogenic by a combination of predictive methods and segregation analyses. CONCLUSIONS: Many mutations in the coding sequences of the ABCA4 gene are still unknown, and many possibly reside in noncoding regions of the ABCA4 locus. Although the ABCA4 array remains a good first-pass screening option, the NGS platform is a time- and cost-efficient tool for screening large cohorts.

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130 From 53 samples in which the combined APEX/NGS analysis had detected two mutations, only two samples carried the same two mutations-p.G1961E and p.R2149*. Login to comment

[hide] ABCA4 gene screening by next-generation sequencing... Invest Ophthalmol Vis Sci. 2013 Oct 11;54(10):6662-74. doi: 10.1167/iovs.13-12570. Fujinami K, Zernant J, Chana RK, Wright GA, Tsunoda K, Ozawa Y, Tsubota K, Webster AR, Moore AT, Allikmets R, Michaelides M
ABCA4 gene screening by next-generation sequencing in a British cohort.
Invest Ophthalmol Vis Sci. 2013 Oct 11;54(10):6662-74. doi: 10.1167/iovs.13-12570., [PMID:23982839]

Abstract [show]
PURPOSE: We applied a recently reported next-generation sequencing (NGS) strategy for screening the ABCA4 gene in a British cohort with ABCA4-associated disease and report novel mutations. METHODS: We identified 79 patients with a clinical diagnosis of ABCA4-associated disease who had a single variant identified by the ABCA4 microarray. Comprehensive phenotypic data were obtained, and the NGS strategy was applied to identify the second allele by means of sequencing the entire coding region and adjacent intronic sequences of the ABCA4 gene. Identified variants were confirmed by Sanger sequencing and assessed for pathogenicity by in silico analysis. RESULTS: Of the 42 variants detected by prescreening with the microarray, in silico analysis suggested that 34, found in 66 subjects, were disease-causing and 8, found in 13 subjects, were benign variants. We detected 42 variants by NGS, of which 39 were classified as disease-causing. Of these 39 variants, 31 were novel, including 16 missense, 7 splice-site-altering, 4 nonsense, 1 in-frame deletion, and 3 frameshift variants. Two or more disease-causing variants were confirmed in 37 (47%) of 79 patients, one disease-causing variant in 36 (46%) subjects, and no disease-causing variant in 6 (7%) individuals. CONCLUSIONS: Application of the NGS platform for ABCA4 screening enabled detection of the second disease-associated allele in approximately half of the patients in a British cohort where one mutation had been detected with the arrayed primer extension (APEX) array. The time- and cost-efficient NGS strategy is useful in screening large cohorts, which will be increasingly valuable with the advent of ABCA4-directed therapies.

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56 40 c.4926C>G p.S1642R DC c.5041_5055del GTGGTTGCCATCTGC p.V1681_C1685del DC 2 41 c.4956T>G p.Y1652* DC 1 42 c.5018&#fe;2T>C Splice site DC 1 43 c.5461-10T>C DC c.6385A>G p.S2129G PDC 2 44 c.5461-10T>C DC 1 45 c.5461-10T>C DC 1 46 c.5461-10T>C DC 1 47 c.5461-10T>C DC 1 48 c.5461-10T>C DC 1 49 c.5461-10T>C DC 1 50 c.5461-10T>C DC 1 51 c.5585-1G>A Splice site DC 1 52 c.5714&#fe;5G>A Splice site DC c.6209C>G p.T2070R DC 2 53 c.5882G>A p.G1961E DC c.2686A>G p.K896E B 1 54 c.5882G>A p.G1961E DC c.3050&#fe;1G>C Splice site DC 2 55 c.5882G>A p.G1961E DC c.3392delC/3393C>G p.A1131Gfs DC 2 56 c.5882G>A p.G1961E DC c.4539&#fe;2T>G Splice site DC 2 57 c.5882G>A p.G1961E DC c.4552A>C p.S1518R DC 2 58 c.5882G>A p.G1961E DC c.5899-2delA Splice site DC 2 59 c.5882G>A p.G1961E DC 1 60 c.6079C>T p.L2027F DC c.1906C>T p.Q636* DC 2 61 c.6079C>T p.L2027F DC c.3322C>T p.R1108C DC 2 Allele 2 (p.R1108C) was APEX-false-negative 62 c.6079C>T p.L2027F DC c.3370G>T p.D1124Y DC 2 63 c.6079C>T p.L2027F DC 1 64 c.6089G>A p.R2030Q DC c.4326C>A p.N1442K DC 2 65 c.6445C>T p.R2149* DC 1 66 c.6709A>C p.T2237P DC c.5899-3_5899-2delTA Splice site DC 2 67 c.2971G>C p.G991R B c.4538A>G p.Q1513R DC 1 68 c.3602T>G p.L1201R B c.1749G>C p.K583N DC 1 69 c.3602T>G p.L1201R B c.1982_1983insG p.A662fs DC 1 70 c.3602T>G p.L1201R B c.2972G>T p.G991V DC 1 71 c.4685T>C p.I1562T B c.3289A>T p.R1097* DC 1 72 c.6320G>A p.R2107H B c.2510T>C p.L837P DC 1 73 c.6320G>A p.R2107H B c.4352&#fe;1G>A Splice site DC 1 74 c.2701A>G p.T901A B 0 75 c.3602T>G p.L1201R B 0 76 c.4283C>T p.T1428M B 0 77 c.466A>G p.I156V B 0 78 c.466A>G p.I156V B 0 79 c.4715C>T p.T1572M B 0 Putative novel variants are shown in italics. Login to comment
63 Hum Var Score (0-1) Site Wt CV Mt CV CV % Variation 30 c.4537_4538insC p.G1513fs 1 38 [ Briggs CE, et al. 19 ND False-negative in NGS in patient 38 31 c.4577C>T p.T1526M 1 39 [ [ Lewis RA, et al. 11 Del. 0.00 PRD 0.910 No change ND db SNP (rs61750152) 33 c.4685T>C p.I1562T 1 71 [ [ Yatsenko, et al. 13 Tol. NA PRD 0.783 No change ND Benign 33 c.4715C>T p.T1572M 1 79 [ [ Pang CP and Lamm DS 23 Del. 0.02 B 0.326 No change ND db SNP (rs185093512) Benign 35 c.4926C>G p.S1642R 1 40 [ [ Birch DG, et al. 22 Tol. 0.68 B 0.116 No change ND db SNP (rs61753017) 35 c.4956T>G p.Y1652* 1 41 [ [ Fumagalli A, et al. 16 ND db SNP (rs61750561) IVS35 c.5018&#fe;2T>C Splice site 1 42 [ [ APEX Don. 81.2 54.3 WT site broken (33.07) ND 36 c.5113C>T p.R1705W 1 7 [ Ernest PJ, et al. 26 Del. NA PRD 0.996 Don. 46.5 73.3 No change ND IVS38 c.5461-10T>C 8 43, 44, 45, 46, 47, 48, 49, 50 [ [ Briggs CE, et al. 19 No change 3/13006 db SNP (rs1800728) IVS39 c.5585-1G>A Splice site 1 51 [ [ Shroyer NF, et al. 21 Acc. 86.3 57.4 WT site broken (33.53) ND IVS40 c.5714&#fe;5G>A Splice site 1 52 [ [ Cremers FP, et al. 8 Don. 85.5 73.3 Wild type site broken (14.23) ND 42 c.5882G>A p.G1961E 7 53, 54, 55, 56, 57, 58, 59 [ [ Lewis RA, et al. 11 Del. 0.00 PRD 0.998 No change 41/13006 db SNP (rs1800553) 44 c.6079C>T p.L2027F 4 60, 61, 62, 63 [ [ Lewis RA, et al. 11 Del. 0.00 PRD 1.000 No change 4/13006 db SNP (rs61751408) 44 c.6089G>A p.R2030Q 1 64 [ [ Lewis RA, et al. 11 Del. 0.00 PRD 0.995 No change 8/13006 db SNP (rs61750641) 46 c.6320G>A p.R2107H 2 72, 73 [ [ Fishman GA, et al. 15 Del. 0.04 PRD 0.999 No change 91/13006 db SNP (rs62642564) Benign 47 c.6445C>T p.R2149* 1 65 [ [ Lewis RA, et al. 14 1/13006 db SNP (rs61750654) 48 c.6529G>A p.D2177N 1 19 [ Rivera A, et al. 17 Tol. 0.41 B 0.004 No change 116/13006 db SNP (rs1800555) Benign 48 c.6709A>C p.T2237P 1 66 [ [ APEX Del. NA POD 0.719 No change ND IVS48 c.6729&#fe;4_ &#fe;18del AGTTGGCCCTGGGGC Splice site 1 17 [ Littink KW, et al. 28 NA ND Splice-site alteration (described as splice site) includes the change expected to affect splicing, for example, when the splice donor or splice acceptor site is changed, and the change that might affect splicing, for example, changes close to the splice donor or splice acceptor site, or in the first or last nucleotide of an exon. SIFT (version 4.0.4) results are reported to be tolerant if tolerance index is ߥ0.05 or deleterious if tolerance index is <0.05. Login to comment