ABCA4 p.Arg2030*
| ClinVar: |
c.6089G>A
,
p.Arg2030Gln
D
, Pathogenic
c.6088C>T , p.Arg2030* D , Pathogenic |
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[hide] Mutation screening of retinal dystrophy patients b... PLoS One. 2014 Aug 18;9(8):e104281. doi: 10.1371/journal.pone.0104281. eCollection 2014. Watson CM, El-Asrag M, Parry DA, Morgan JE, Logan CV, Carr IM, Sheridan E, Charlton R, Johnson CA, Taylor G, Toomes C, McKibbin M, Inglehearn CF, Ali M
Mutation screening of retinal dystrophy patients by targeted capture from tagged pooled DNAs and next generation sequencing.
PLoS One. 2014 Aug 18;9(8):e104281. doi: 10.1371/journal.pone.0104281. eCollection 2014., [PMID:25133751]
Abstract [show]
PURPOSE: Retinal dystrophies are genetically heterogeneous, resulting from mutations in over 200 genes. Prior to the development of massively parallel sequencing, comprehensive genetic screening was unobtainable for most patients. Identifying the causative genetic mutation facilitates genetic counselling, carrier testing and prenatal/pre-implantation diagnosis, and often leads to a clearer prognosis. In addition, in a proportion of cases, when the mutation is known treatment can be optimised and patients are eligible for enrolment into clinical trials for gene-specific therapies. METHODS: Patient genomic DNA was sheared, tagged and pooled in batches of four samples, prior to targeted capture and next generation sequencing. The enrichment reagent was designed against genes listed on the RetNet database (July 2010). Sequence data were aligned to the human genome and variants were filtered to identify potential pathogenic mutations. These were confirmed by Sanger sequencing. RESULTS: Molecular analysis of 20 DNAs from retinal dystrophy patients identified likely pathogenic mutations in 12 cases, many of them known and/or confirmed by segregation. These included previously described mutations in ABCA4 (c.6088C>T,p.R2030*; c.5882G>A,p.G1961E), BBS2 (c.1895G>C,p.R632P), GUCY2D (c.2512C>T,p.R838C), PROM1 (c.1117C>T,p.R373C), RDH12 (c.601T>C,p.C201R; c.506G>A,p.R169Q), RPGRIP1 (c.3565C>T,p.R1189*) and SPATA7 (c.253C>T,p.R85*) and new mutations in ABCA4 (c.3328+1G>C), CRB1 (c.2832_2842+23del), RP2 (c.884-1G>T) and USH2A (c.12874A>G,p.N4292D). CONCLUSIONS: Tagging and pooling DNA prior to targeted capture of known retinal dystrophy genes identified mutations in 60% of cases. This relatively high success rate may reflect enrichment for consanguineous cases in the local Yorkshire population, and the use of multiplex families. Nevertheless this is a promising high throughput approach to retinal dystrophy diagnostics.
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10 T,p.R2030*; c.5882G.A,p.G1961E), BBS2 (c.1895G.C,p.R632P), GUCY2D (c.2512C.T,p.R838C), PROM1 (c.1117C.T,p.R373C), RDH12 (c.601T.C,p.C201R; c.506G.A,p.R169Q), RPGRIP1 (c.3565C.T,p.R1189*) and SPATA7 (c.253C.T,p.R85*) and new mutations in ABCA4 (c.3328+1G.C), CRB1 (c.2832_2842+23del), RP2 (c.884-1G.T) and USH2A (c.12874A.G,p.N4292D).
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ABCA4 p.Arg2030* 25133751:10:4
status: NEW98 The variant list following analysis of this case suggested a previously-identified homozygous nonsense mutation in ABCA4 (c.6088C.T, p.R2030*) [19] consistent with a diagnosis of CRD as the primary candidate.
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ABCA4 p.Arg2030* 25133751:98:135
status: NEW162 To summarise, the mutations consisted of previously reported mutations of clinical significance in ABCA4 (c.6088C.T, p.R2030* [19] and c.5882G.A, p.G1961E [30,31]), RDH12 (c.601T.C, p.C201R [21] and c.506G.A, p.R169Q [29]), PROM1 (c.1117C.T, p.R373C [22,23]), GUCY2D (c.2512C.
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ABCA4 p.Arg2030* 25133751:162:119
status: NEW[hide] The external limiting membrane in early-onset Star... Invest Ophthalmol Vis Sci. 2014 Aug 19;55(10):6139-49. doi: 10.1167/iovs.14-15126. Lee W, Noupuu K, Oll M, Duncker T, Burke T, Zernant J, Bearelly S, Tsang SH, Sparrow JR, Allikmets R
The external limiting membrane in early-onset Stargardt disease.
Invest Ophthalmol Vis Sci. 2014 Aug 19;55(10):6139-49. doi: 10.1167/iovs.14-15126., [PMID:25139735]
Abstract [show]
PURPOSE: To describe pathologic changes of the external limiting membrane (ELM) in young patients with early-onset Stargardt (STGD1) disease. METHODS: Twenty-six STGD1 patients aged younger than 20 years with confirmed disease-causing adenosine triphosphate-binding cassette, subfamily A, member 4 (ABCA4) alleles and 30 age-matched unaffected individuals were studied. Spectral-domain optical coherence tomography (SD-OCT), fundus autofluorescence (AF), and color fundus photography (CFP) images, as well as full-field electroretinograms were obtained and analyzed for one to four visits in each patient. RESULTS: The ELM in all patients exhibited a distinct thickening that was not observed in unaffected individuals. In addition, accumulations of reflective deposits were noted in the outer nuclear layer in every patient. Four patients exhibited a concave protuberance or bulging of a thickened and hyperreflective ELM band within the fovea containing preserved photoreceptors. Longitudinal SD-OCT data in several patients revealed the persistence of this ELM abnormality over a period of time (1-4 years). Furthermore, the edges of the inner segment ellipsoid band appeared to recede earlier than the ELM band in active lesions. CONCLUSIONS: Structural changes seen in the ELM of this cohort may reflect a gliotic response to cellular stress at the photoreceptor level in early-onset STGD1.
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89 [L541P;A1038V] p.L2027F P8 10 Caucasian 20/40 (0.30) 20/80 (0.60) 1 1 None-early 1 p.R1108C p.Q1412* P9 14 Caucasian 20/100 (0.70) 20/100 (0.70) 2 1 Early-late 0.5 p.T972N p.L2027F P10 9 Caucasian 20/150 (0.88) 20/400 (1.30) 2 1 Late ND c.5312&#fe;1G>A p.R2030* P11 15 Caucasian 20/200 (1.00) 20/200 (1.00) 2 2 Mid-late 3 p.L2027F p.R2077W P12 5 Caucasian 20/30 (0.18) 20/40 (0.30) 1 n/a ND c.5018&#fe;2T>C p.G1961E P13 10 Caucasian 20/200 (1.00) 20/200 (1.00) 2 2 Mid 4 p.
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ABCA4 p.Arg2030* 25139735:89:255
status: NEW[hide] Exome sequencing reveals novel and recurrent mutat... PLoS One. 2014 Dec 29;9(12):e116176. doi: 10.1371/journal.pone.0116176. eCollection 2014. Gonzalez-del Pozo M, Mendez-Vidal C, Bravo-Gil N, Vela-Boza A, Dopazo J, Borrego S, Antinolo G
Exome sequencing reveals novel and recurrent mutations with clinical significance in inherited retinal dystrophies.
PLoS One. 2014 Dec 29;9(12):e116176. doi: 10.1371/journal.pone.0116176. eCollection 2014., [PMID:25544989]
Abstract [show]
This study aimed to identify the underlying molecular genetic cause in four Spanish families clinically diagnosed of Retinitis Pigmentosa (RP), comprising one autosomal dominant RP (adRP), two autosomal recessive RP (arRP) and one with two possible modes of inheritance: arRP or X-Linked RP (XLRP). We performed whole exome sequencing (WES) using NimbleGen SeqCap EZ Exome V3 sample preparation kit and SOLID 5500xl platform. All variants passing filter criteria were validated by Sanger sequencing to confirm familial segregation and the absence in local control population. This strategy allowed the detection of: (i) one novel heterozygous splice-site deletion in RHO, c.937-2_944del, (ii) one rare homozygous mutation in C2orf71, c.1795T>C; p.Cys599Arg, not previously associated with the disease, (iii) two heterozygous null mutations in ABCA4, c.2041C>T; p.R681* and c.6088C>T; p.R2030*, and (iv) one mutation, c.2405-2406delAG; p.Glu802Glyfs*31 in the ORF15 of RPGR. The molecular findings for RHO and C2orf71 confirmed the initial diagnosis of adRP and arRP, respectively, while patients with the two ABCA4 mutations, both previously associated with Stargardt disease, presented symptoms of RP with early macular involvement. Finally, the X-Linked inheritance was confirmed for the family with the RPGR mutation. This latter finding allowed the inclusion of carrier sisters in our preimplantational genetic diagnosis program.
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8 This strategy allowed the detection of: (i) one novel heterozygous splice-site deletion in RHO, c.937-2_944del, (ii) one rare homozygous mutation in C2orf71, c.1795T.C; p.Cys599Arg, not previously associated with the disease, (iii) two heterozygous null mutations in ABCA4, c.2041C.T; p.R681* and c.6088C.T; p.R2030*, and (iv) one mutation, c.2405-2406delAG; p.Glu802Glyfs*31 in the ORF15 of RPGR.
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ABCA4 p.Arg2030* 25544989:8:310
status: NEW[hide] Quantitative Fundus Autofluorescence and Optical C... Invest Ophthalmol Vis Sci. 2015 Nov 1;56(12):7274-85. doi: 10.1167/iovs.15-17371. Duncker T, Stein GE, Lee W, Tsang SH, Zernant J, Bearelly S, Hood DC, Greenstein VC, Delori FC, Allikmets R, Sparrow JR
Quantitative Fundus Autofluorescence and Optical Coherence Tomography in ABCA4 Carriers.
Invest Ophthalmol Vis Sci. 2015 Nov 1;56(12):7274-85. doi: 10.1167/iovs.15-17371., [PMID:26551331]
Abstract [show]
PURPOSE: To assess whether carriers of ABCA4 mutations have increased RPE lipofuscin levels based on quantitative fundus autofluorescence (qAF) and whether spectral-domain optical coherence tomography (SD-OCT) reveals structural abnormalities in this cohort. METHODS: Seventy-five individuals who are heterozygous for ABCA4 mutations (mean age, 47.3 years; range, 9-82 years) were recruited as family members of affected patients from 46 unrelated families. For comparison, 57 affected family members with biallelic ABCA4 mutations (mean age, 23.4 years; range, 6-67 years) and two noncarrier siblings were also enrolled. Autofluorescence images (30 degrees , 488-nm excitation) were acquired with a confocal scanning laser ophthalmoscope equipped with an internal fluorescent reference. The gray levels (GLs) of each image were calibrated to the reference, zero GL, magnification, and normative optical media density to yield qAF. Horizontal SD-OCT scans through the fovea were obtained and the thicknesses of the outer retinal layers were measured. RESULTS: In 60 of 65 carriers of ABCA4 mutations (age range, 9-60), qAF levels were within normal limits (95% confidence level) observed for healthy noncarrier subjects, while qAF levels of affected family members were significantly increased. Perifoveal fleck-like abnormalities were observed in fundus AF images in four carriers, and corresponding changes were detected in the outer retinal layers in SD-OCT scans. Thicknesses of the outer retinal layers were within the normal range. CONCLUSIONS: With few exceptions, individuals heterozygous for ABCA4 mutations and between the ages of 9 and 60 years do not present with elevated qAF. In a small number of carriers, perifoveal fleck-like changes were visible.
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28 [L541P;A1038V] 0.10 0.10 OS n/a 141 S2.2 F 44.4 Indian Mother c.6729&#fe;5_&#fe;19del 0.10 0.00 OS 257 291 S2.3 M 56.2 Indian Father p.G1961E 0.00 0.00 OD 475 431 S3.4 F 54.1 White Mother p.G863A 0.00 0.00 OS 459 451 S3.5 F 82.0 White Grandmother p.G863A 0.00 0.00 OD n/a n/a S4.2 F 44.6 White Mother p.W855* 0.00 0.00 OD 330 n/a S4.3 M 40.9 White Father p.T1526M 0.00 0.00 OS 283 271 S5.2 F 71.5 White Sister p.C698Y 0.00 0.10 OD n/a n/a S5.3 F 67.5 White Sister c.2160&#fe;1G>C 0.00 0.00 OS n/a n/a S5.4 F 62.9 White Sister p.C698Y 0.00 0.00 OD n/a n/a S6.2 M 54.9 Black Brother p.T1526M 0.10 0.00 OS 477 423 S7.2 F 48.9 White Mother c.5196&#fe;1G>A 0.00 0.00 OS 443 415 S8.2 F 59.6 White Mother p.K346T 0.00 0.00 OD 546 483 S8.3 M 54.6 White Father p.T1117I 0.10 0.10 OD 289 n/a S9.2 F 51.5 White Mother c.5196&#fe;1137G>A 0.00 0.00 n/a 302 n/a S9.3 M 57.8 White Father p.C54Y 0.00 0.00 OS 419 375 S10.2 M 24.1 Indian Brother p.Q2220* 0.00 0.00 OD 227 227 S11.2 F 40.0 Asian Mother c.5923del 0.00 0.18 OD 229 191 S11.3 M 40.1 Asian Father p.R408* 0.00 0.00 OD 195 178 S12.2 F 53.2 White Mother p.L2027F 0.00 0.00 n/a 355 309 S13.2 F 49.8 White Mother p.R1161S 0.00 0.00 OS 367 372 S13.3 M 22.3 White Brother p.R1161S 0.00 0.00 OD 202 206 S14.2 F 67.0 White Mother p.P1380L 0.00 0.00 OD n/a n/a S14.3 F 24.4 White Sister p.P1380L 0.00 0.00 OS n/a 163 S15.3 F 26.8 White Sister c.3050&#fe;5G>A 0.00 0.00 n/a 293 281 S16.2 M 53.7 Black Father c.4253&#fe;5G>T 0.00 0.00 n/a n/a 204 S17.2 F 60.0 Hispanic Mother p.A1038V 0.00 0.00 n/a 247 n/a S18.2 F 41.8 Indian Father c.5917del 0.00 0.00 OD n/a 194 S18.3 M 48.6 Indian Mother c.859-9T>C 0.00 0.00 OD 253 215 S18.4 F 12.9 Indian Sister c.5917del 0.00 0.00 OD 84 93 S19.4 F 58.5 White Mother p.L2027F 0.00 0.00 OD 205 n/a S19.5 M 61.6 White Father p.G851D 0.10 0.10 OD n/a n/a S20.2 F 41.5 White Mother c.5312&#fe;1G>A 0.00 0.00 n/a 335 351 S20.3 M 39.0 White Father p.R2030* 0.00 0.10 n/a 442 n/a S21.3 F 53.1 White Mother p.G1961E 0.00 0.00 OD 490 488 S22.3 M 46.3 White Father p.L2027F 0.00 0.00 OS 386 376 S22.4 F 47.1 White Mother p.
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ABCA4 p.Arg2030* 26551331:28:1917
status: NEW68 [66G>A;859-9T>C] p.Q2220* CF 1.30 n/a n/a P 11.1 M 15.0 Asian p.R408* c.5935del 1.10 1.30 n/a n/a P 12.1&#a7; M 15.1 White p.L2027F p.R2077W 0.80 0.80 728 697 P 13.1&#a7; F 23.8 White p.R1161S 0.60 0.40 571 647 P 14.1&#a7; F 27.3 White p.P1380L p.P1380L 1.30 1.00 n/a 577 P 15.1 M 17.0 White p.G1961E c.3050&#fe;5G>A 0.88 0.88 n/a n/a P 15.2 F 22.0 White p.G1961E c.3050&#fe;5G>A 0.88 0.88 n/a n/a P 16.1 F 19.1 Black p.V989A c.4253&#fe;5G>T 0.30 0.40 97 n/a P 17.1 F 21.8 Hispanic p.A1038V p.G1441D 0.70 0.88 551 528 P 18.1 M 22.0 Indian c.859-9T>C c.5917del 0.88 0.88 527 n/a P 19.1&#a7; F 27.2 White p.G851D p.L2027F 0.88 0.88 448 459 P 19.2&#a7; F 29.2 White p.G851D p.L2027F 1.30 1.18 538 569 P 19.3 F 34.2 White p.G851D p.L2027F 1.00 1.30 442 n/a P 20.1 F 9.5 White c.5312&#fe;1G>A p.R2030* 0.88 0.70 998 929 P 21.1ߤ F 24.6 White p.N96D p.G1961E 0.30 0.18 513 549 P 21.2ߤ F 20.9 White p.N96D p.G1961E 0.30 0.40 397 355 P 22.1 M 8.0 White p.
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ABCA4 p.Arg2030* 26551331:68:790
status: NEW