ABCA4 p.Arg1640Trp

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PMID: 9781034 [PubMed] Rozet JM et al: "Spectrum of ABCR gene mutations in autosomal recessive macular dystrophies."
No. Sentence Comment
45 Furthermore, all ABCR missense mutations Table 1 Mutations in the ABCR gene in STGD and FFM families Conserved aa in: Nucleotide change Amino acid change Domain ABCs RmP Phenotype Families Comment (571-2)A®G splicing mutation STGD 1 HAD1 (1938-2)A®G splicing mutation STGD 1 (4668+2)T®C splicing mutation STGD 1 (4735+2)T®A splicing mutation STGD 1 del(5196+1-5196+6 splicing mutation STGD 1 LOZ2 2570 delT frameshift mutation STGD 1 3209insGT frameshift mutation STGD 2 CHE2 G3754T E1252X STGD 1 C3994T Q1332X STGD 1 C6337G I2113X STGD 1 JEG2 C52T R18W IC - + STGD 1 C634T R212C EC - + STGD 5 GEN2, JEG2 G1908T Q636H IC - + STGD 1 LOZ2 C3056T T1019M IC - + STGD 1 C3322T R1107C IC - + STGD 1 JUL2 C4916T R1640W IC + + STGD 2 MAR1 G5929A G1977S ATP2 + + STGD 1 GEN2 G6320A R2107H IC + + STGD 1 JUL2 C3114T A1038V IC - + STGD 2 CHE2 +FFM +1 VII2 T1622C L541P EC - + FFM 1 VII2 T31C L11P IC + + FFM 1 G3272A G1090E IC + + FFM 1 G4522T G1508C IC + + FFM 1 C5908T L1970F IC + + FFM 1 GON2 T5912G L1971R IC + + FFM 1 GON2 Mutations refer to the standard nomenclature.
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ABCA4 p.Arg1640Trp 9781034:45:725
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PMID: 22466470 [PubMed] Leng T et al: "Foveal cavitation as an optical coherence tomography finding in central cone dysfunction."
No. Sentence Comment
45 Clinical Characteristics of Patients with Foveal Outer Segment Cavitation Case Sex Age BCVA Duration of Symptoms (Years) FAF Color Dysfunction* ERG mfERG Genetic Testing OD OS ABCA4 CNGB3 1 F 27 20/150 20/150 2 Small oval of reduced FAF surrounded by increased FAF Mild Rods: normal Cones: normal Not done Not done Not done 2 F 10 20/100 20/80 2 Small oval of reduced FAF surrounded by increased FAF Mild Rods: normal Cones: reduced amplitudes and increased implicit times Reduced amplitude centrally One allele: c.4918C.T (p.Arg1640Trp) (heterozygous) No mutations 3 M 19 20/60 20/50 10 Small oval of reduced FAF Mild Rods: normal Cones: mild decrease in amplitude in OD, normal OS Reduced amplitude centrally No mutations Not done 4 F 16 20/50 20/50 1.5 Small oval of reduced FAF surrounded by increased FAF Mild Rods: normal Cones: normal.
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ABCA4 p.Arg1640Trp 22466470:45:526
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PMID: 22328824 [PubMed] Roberts LJ et al: "Stargardt macular dystrophy: common ABCA4 mutations in South Africa--establishment of a rapid genetic test and relating risk to patients."
No. Sentence Comment
139 of alleles detected Frequency p.Cys54Tyr c. 161 G>A 2 0.55% p.Arg152* c. 454 C>T 12 3.31% p.Arg152Gln c. 455 G>A 3 0.83% p.Gly172Ser c. 514 G>A 1 0.28% p.Arg212Cys c. 634 C>T 1 0.28% p.Lys223Gln c. 667 A>C 1 0.28% p.V256V (Splice) c. 768 G>T 18 4.97% p.Pro291Leu c. 872 C>T 1 0.28% p.Trp439* c. 1317 G>A 1 0.28% p.Ala538Asp c. 1613 C>A 1 0.28% p.Leu541Pro c. 1622 T>C 1 0.28% p.Arg602Trp c. 1885C>T 30 8.29% p.Val643Met c. 1927 G>A 1 0.28% p.Arg653Cys c. 1957 C>T 1 0.28% p.Arg681* c. 2041 C>T 3 0.83% p.Val767Asp c. 2300 T>A 1 0.28% p.Trp855* c.2564_2571delGGTACCTT 2 0.55% p.Gly863Ala c. 2588 G>C 11 3.04% p.Val931Met c. 2791 G>A 1 0.28% p.Asn965Ser c. 2894 A>G 4 1.10% p.Val989Ala c. 2966 T>C 1 0.28% p.Gly991Arg c. 2971 G>C 1 0.28% p.Thr1019Met c. 3056 C>T 1 0.28% p.Ala1038Val c. 3113 C>T 3 0.83% p.Glu1087Lys c. 3259 G>A 1 0.28% p.Arg1108Cys c. 3322 C>T 2 0.55% p.Leu1201Arg c. 3602 T>G 4 1.10% p.Arg1300Gln c. 3899 G>A 4 1.10% p.Pro1380Leu c. 4139 C>T 3 0.83% p.Trp1408Arg c. 4222 T>C 1 0.28% - c. 4253+5G>A 1 0.28% p.Phe1440Ser c. 4319 T>C 1 0.28% p.Arg1443His c. 4328 G>A 1 0.28% p.Cys1490Tyr c.4469 G>A 54 14.92% p.Gln1513Pro fs*42 c. 4535 insC 1 0.28% p.Ala1598Asp c. 4793C>A 1 0.28% p.Arg1640Trp c. 4918 C>T 2 0.55% p.Ser1642Arg c. 4926 C>G 1 0.28% p.V1681_C1685del c. 5041 del15 1 0.28% - c. 5461-10T>C 24 6.63% - c. 5714+5 G>A 2 0.55% p.Pro1948Leu c. 5843 C>T 1 0.28% p.Gly1961Glu c. 5882 G>A 4 1.10% p.Leu2027Phe c.6079 C>T 30 8.29% p.Arg2030* c. 6088 C>T 1 0.28% p.Arg2030Gln c. 6089 G>A 3 0.83% p.Arg2038Trp c. 6112 C>T 1 0.28% p.Arg2107His c. 6320 G>A 2 0.55% p.Arg2118Glu fs*27 c. 6352 delA 1 0.28% p.Cys2150Tyr c. 6449 G>A 1 0.28% p.Gln2220* c. 6658 C>T 1 0.28% p.Gly863Ala mutation, which appears to have a founder effect in the Netherlands [13,15], the results obtained from the current study are in agreement with September et al.`s conclusions [9].
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ABCA4 p.Arg1640Trp 22328824:139:1197
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PMID: 21873672 [PubMed] Burke TR et al: "Quantification of peripapillary sparing and macular involvement in Stargardt disease (STGD1)."
No. Sentence Comment
112 Summary of Clinical, Demographic, and Genetic Data Patient Sex Age at Exam (y) Eye VA BCEA 1 SD (deg 2 ) Eccentricity of PRL (deg) ERG Group FAF Abnormalities Allele 1 Allele 2 Allele 3 Distribution Peripapillary Area 1 F 43 OS 20/20 0.73 0 II M - A1799D ND ND 2 M 30 OS 20/150 3.21 6 I M - T1253M G1961E ND 3 F 55 OD 20/30 1.82 0 I EM - G863A IVS28af9;5 Gb0e;T ND 4 M 44 OD 20/25 0.65 0 I M - E161K ND ND 5.1 F 24 OD 20/200 1.57 1 I M - L541P/A1038V G1961E ND 5.2 F 22 OD 20/30 2.74 1 I M - L541P/A1038V G1961E ND 6.1 F 21 OD 20/150 2.01 1 I M - L541P/A1038V G1961E ND 6.2 F 18 OS 20/100 3.09 4 I M - L541P/A1038V G1961E ND 7 F 27 OS 20/400 2.97 9* II EM Peripapillary atrophy L2027F G851D ND 8 M 34 OS 20/100 2.16 4 I M - G1961E G1961E ND 9 M 20 OS 20/150 2.77 4 I M - IVS20af9;5 Gb0e;A G1961E ND 10 F 23 OS 20/150 9.05 5 I M - L541P/A1038V I1846T ND 11 M 59 OS 20/100 6.52 10 II EM - P1380L S1696N ND 12 M 49 OD 20/150 9.97 1 I EM Nasalaf9;temporal flecks R1108H P1380L ND 13 M 47 OS 20/80 5.62 7 I EM - G863A Y106X ND 14 F 42 OD 20/200 9.53 9 I EM Temporal flecks N965S ND ND 15 M 14 OD 20/200 23.84 1 II EM Nasal flecks IVS38-10 Tb0e;C IVS40af9;5 Gb0e;A ND 16 M 52 OS 20/20 1.3 0 I M - IVS38-10 Tb0e;C ND ND 17 M 34 OS 20/30 2.8 1 I M - L541P/A1038V G1961E ND 18 F 33 OD 20/100 6 6 I M - G1961E R2077W ND 19 F 22 OS 20/60 11 4 I M - A854T A1038V C2150Y 20 F 34 OS 20/200 14.2 14 I EM - G1961E ND ND 21 F 19 OD 20/200 3.7 12 I EM - R602W M18821 ND 22 F 27 OD 20/400 9.6 9 II EM Peripapillary atrophy P1380L P1380L ND 23 F 18 OS 20/50 4.9 5 I EM - R1640W V1693I ND 24 M 22 OS 20/150 10.5 2 I EM - C54Y ND ND 25 M 44 OS 20/150 9.1 5 I EM - R1640W ND ND VA, visual acuity; Rel.
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ABCA4 p.Arg1640Trp 21873672:112:1578
status: NEW
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ABCA4 p.Arg1640Trp 21873672:112:1669
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PMID: 19365039 [PubMed] Roberts LJ et al: "Clinical utility of the ABCR400 microarray: basing a genetic service on a commercial gene chip."
No. Sentence Comment
96 (No R1640W) (No W1408R) Het R1640W Het W1408R Het R1640W Het W1408R Figure 7. Pedigree of family RPS593 in which both mutations in the proband were found to be transmitted on a single parental (paternal) allele.
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ABCA4 p.Arg1640Trp 19365039:96:4
status: NEW
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ABCA4 p.Arg1640Trp 19365039:96:28
status: NEW
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ABCA4 p.Arg1640Trp 19365039:96:50
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98 (No R1640W) (No W1408R) Het R1640W Het W1408R Het R1640W Het W1408R Figure 7. Pedigree of family RPS593 in which both mutations in the proband were found to be transmitted on a single parental (paternal) allele.
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ABCA4 p.Arg1640Trp 19365039:98:4
status: NEW
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ABCA4 p.Arg1640Trp 19365039:98:28
status: NEW
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ABCA4 p.Arg1640Trp 19365039:98:50
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PMID: 17325136 [PubMed] Valverde D et al: "Spectrum of the ABCA4 gene mutations implicated in severe retinopathies in Spanish patients."
No. Sentence Comment
56 TABLE 1. Genetic Analyses of ABCA4 Mutations in Three Families with Autosomal Dominant Macular Dystrophy Family Allele 1 Allele 2 Haplotype AnalysisNucleotide Change Amino Acid Change Nucleotide Change Amino Acid Change ADDM-59 [5582G3A; 6764G3T] [G1961E; S22551] Excluded ADDM-92 466A3G I156V Not done ADDM-105 2828G3A R943Q Not done No change has been detected as allele 2.
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ABCA4 p.Arg1640Trp 17325136:56:613
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57 TABLE 2. Genetic Analyses of ABCA4 Mutations in 13 arCRD Families Family Allele 1 Allele 2 Haplotype AnalysisNucleotide Change Amino Acid Change Nucleotide Change Amino Acid Change ARDM-79 2888delG Frameshift 2888delG Frameshift Cosegregates ARDM-85 6764G3T S2255I (likely nonpathogenic) Not detected Not done* ARDM-86 2888delG Frameshift 2888delG Frameshift Cosegregates ARDM-99 4297G3A V1433I Not detected Not done* ARDM-126 [2828G3A; 5929G3A] [R943Q; G1977S] [2828G3A; 5929G3A] [R943Q; G1977S] Cosegregates ARDM-133 32T3C L11P 2888delG Frameshift Cosegregates ARDM-134 2828G3A R943Q Excluded ARDM-174 4918C3T R1640W c.6147؉2T3A Splice Cosegregates ARDM-176 2888delG Frameshift 6179T3G L2060R Cosegregates RP-267 5041del 15 pb Frameshift 5041del 15 pb Frameshift Cosegregates RP-577 1140T3A N380K Not detected Not done* SRP-964 2828G3A R943Q Not detected Not done* B210 2828G3A R943Q 2701A3G T901A Not done* The mutation detected by dHPLC is in bold.
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ABCA4 p.Arg1640Trp 17325136:57:612
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112 The family ARDM 174 presented two mutations, one the missense mutation R1640W detected by the ABCA400 microarray and with an unknown effect in the ABCR function, and the TABLE 4.
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ABCA4 p.Arg1640Trp 17325136:112:71
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109 The family ARDM 174 presented two mutations, one the missense mutation R1640W detected by the ABCA400 microarray and with an unknown effect in the ABCR function, and the TABLE 4.
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ABCA4 p.Arg1640Trp 17325136:109:71
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PMID: 15696369 [PubMed] Yatsenko AN et al: "Evolution of ABCA4 proteins in vertebrates."
No. Sentence Comment
130 As anticipated, the most frequently occurring STGD- associated missense ABCA4 alterations (R212C, L541P, D645N, G863A, A1038V, R1108C, R1380L, W1408R, T1526M, R1640W, G1961E, L2027F, and L2030Q) map to highly conserved regions.
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ABCA4 p.Arg1640Trp 15696369:130:158
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PMID: 15494742 [PubMed] Klevering BJ et al: "Microarray-based mutation analysis of the ABCA4 (ABCR) gene in autosomal recessive cone-rod dystrophy and retinitis pigmentosa."
No. Sentence Comment
57 Table 1 ABCA4 sequence variants in CRD patients CRD patient number Inheritance Allele 1 Allele 2 Mutations segregateNucleotide change Effect Nucleotide change Effect 12608 Isolated IVS38-10T4C Unknowna IVS38-10T4C Unknowna Yes 14488 Isolated 1622T4C; 3113C4T L541P; A1038V Not identified NA 14750 Isolated 4918C4T R1640W Not identified NA 14752 Isolated 1622T4C; 3113C4T L541P; A1038V IVS38-10T4C Unknowna ?
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ABCA4 p.Arg1640Trp 15494742:57:314
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143 Given this clinical presentation and the fact that homozygous null mutations were not found Table 5 Functional assessment of missense (A) and splice site (B) mutations (A) Missense mutation Nature of amino-acid change Effect on ABCR functionRef R18W Nonconservative Unknown R24C Nonconservative Unknown; adjacent to first transmembrane domain G65E Nonconservative Unknown E161K Nonconservative Unknown L541P Conservative Decreased ATP binding and ATPase activity50 P597S Nonconservative Unknown G618E Nonconservative Unknown V767D Nonconservative Decreased ABCR expression10 G863A Nonconservative Decreased ATPase activity50, 51 R943Q Nonconservative Decreased ATPase activity51 A1038V Conservative Decreased ATP binding and ATPase activity50 E1087K Nonconservative Decreased ATP binding50 V1433I Conservative Unknown R1640W Nonconservative Unknown A1794D Nonconservative Introduction charged aa in 10th transmembrane domain G1961E Nonconservative Decreased ATP binding and ATPase activity 50 V2050L Conservative Unknown D2177N Nonconservative Increased ATPase activity50 (B) Splice site mutation Effect on mRNARef Predicted effect on ABCR protein 768G4T Nonsense-mediated decay33 No protein IVS36+2T4C Unknown Truncation of exon 36 resulting in V1673fs?
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ABCA4 p.Arg1640Trp 15494742:143:818
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PMID: 14517951 [PubMed] Jaakson K et al: "Genotyping microarray (gene chip) for the ABCR (ABCA4) gene."
No. Sentence Comment
115 Mutations Detected in theTwoTest Populations by the ABCR400 Array,That Had Not Been Found by SSCP Number Nucleotide change Protein e¡ect Number of cases 1 161G4A C54Y 3 2 194G4A G65E 1 3 428C4T P143L 1 4 455G4A R152Q 1 5 514G4A G172S 1 6 635G4A R212H 1 7 656G4C R219T 1 8 768G4Ta Splice/V256V 3 9 1007C4G S336C 2 10 1268A4G H423R 4 11 1411G4A E471K 2 12 1622T4Ca L541P 8 13 1933G4A D645N 1 14 2041C4T R681X 5 15 2090G4A W697X 1 16 2471T4C I824T 1 17 2588G4Ca Splice/G863A 5 18 2828G4A R943Q 1 19 2966T4C V989A 1 20 2971G4C G991R 1 21 4139C4T P1380L 8 22 4195G4A E1399K 1 23 4328G4A R1443H 1 24 4457C4T P1486L 1 25 4462T4Ca C1488R 1 26 4469G4Aa C1490Y 1 27 4918C4Ta R1640W 2 28 IVS40+5G4A Splice 2 29 5537T4C I1846T 2 30 5882G4A G1961E 5 31 6089G4A R2030Q 1 32 6104T4C L2035P 1 33 6449G4A C2150Y 1 Mutation numbering is based on the cDNA sequence (GenBank NM_000350).
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ABCA4 p.Arg1640Trp 14517951:115:670
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PMID: 12754711 [PubMed] Yatsenko AN et al: "An ABCA4 genomic deletion in patients with Stargardt disease."
No. Sentence Comment
117 We used three plasmid constructs that encoded recombinant ABCR proteins for transient transfection into human HEK 293Tcells: the complex mutation [W1408R; R1640W] [Shroyer et al., 2001a], the deletion G885_H915del, and wild type.
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ABCA4 p.Arg1640Trp 12754711:117:155
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123 This result was comparable to expression of the ABCA4 observed with a retinitis pigmentosa associated null complex mutation [W1408R; R1640W] (Fig. 4) [Shroyer et al., 2001a].
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ABCA4 p.Arg1640Trp 12754711:123:133
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140 Western immunoblotting analysis of the ABCR protein with G885_H915del showed a substantial reduction of the protein expression, comparable to the reduction observed for the complex mutation [W1408R; R1640W] [Shroyer et al., 2001a].
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ABCA4 p.Arg1640Trp 12754711:140:199
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151 1is the complex ABCR allele [W1408R; R1640W],2 is theABCR allele with G885_H915del, and 3 is an ABCR wild-type allele.
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ABCA4 p.Arg1640Trp 12754711:151:37
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PMID: 11726554 [PubMed] Shroyer NF et al: "Cosegregation and functional analysis of mutant ABCR (ABCA4) alleles in families that manifest both Stargardt disease and age-related macular degeneration."
No. Sentence Comment
45 AR33 and AR215 segregate complex alleles as well: the mutant allele [W1408R; R1640W] was observed in all affected siblings of the proband AR33-1 and also both the AMD-affected mother and AMD-affected maternal aunt (Fig. 1).
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ABCA4 p.Arg1640Trp 11726554:45:77
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50 The complex allele [W1408R; R1640W] was reported recently in an unrelated family segregating both STGD and retinitis pigmentosa (9).
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ABCA4 p.Arg1640Trp 11726554:50:28
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97 Pedigree Maternal allele Paternal allele AMD relative A priori Cosegregation AR19 pGM, -6 0.5 - AR33 [W1408R; R1640W] R24H and D1532N mA, -16 0.5 Yes AR59 4232insTATG C1488R pGM, -6 0.5 No AR80 T1526M pGF, -5 0.5 - AR80 T1526M mGF, -7 0.5 Yes AR125 4947delC C1488R pGM, -7 0.5 Yes AR215 [H1406Y; V2050L] pGM, -5 0.5 - AR218 2160+1G→C G1961E mA, -8 0.5 No AR262 W821R pGGF, -7 0.25 No AR271 P68R E1087K mGA, -6 0.25 No AR335 D645N F608I mGM, -9 0.5 Yes AR382 R1108C mGM, -6 0.5 Yes AR389 E2096K 5714+5G→A pGM, -8 0.5 Yes AR397 5196+1G→A 5585-1G→A mA, -5 0.5 No AR410 A1038V 768G→T pC, -5 0.25 Yes AR422 pGM, -6 0.5 - AR423 P1380L D1532N pGF, -4 0.5 No AR468 P1380L P1380L mU, -9 0.5 Yes AR484 L2027F G550R mGU, -5 0.25 Yes AR562 R2107H 3050+5G→A pGU, -5 0.25 No AR643 5196+2T→C L2027F mU, -4 0.5 Yes AR661 P1380L C54Y mGF, -6 0.5 Yes AR669 664del13 pGF, -4 0.5 No AR534 W821R P1380L pGM, -7 0.5 Yes (17) Family 1 R212C I2113M mGM, I-2 0.5 Yes (27) Family 2 R1108C R2107H mGM, I-2 0.5 Yes (27) Family 3 R212C G1977S mGF, I-1 0.5 Yes (27) 10.25 15 unlikely to account for many of the remaining alleles (our unpublished observations).
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ABCA4 p.Arg1640Trp 11726554:97:110
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99 Alternatively, presumed benign alterations may be pathogenic when combined with other alterations in a complex allele; evidence for a synergistic effect of two mutations in a complex allele has been reported recently for the [W1408R; R1640W] allele (9).
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ABCA4 p.Arg1640Trp 11726554:99:234
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115 Furthermore, the AMD-associated complex allele [W1408R; R1640W] has been reported to cause a severe defect in protein expression and ATP binding (9).
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ABCA4 p.Arg1640Trp 11726554:115:56
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120 Our data, taken with those of Sun et al. (28) and with the results on the [W1408R; R1640W] allele (9), demonstrate that 16/21 AMD-associated missense ABCR mutations manifest an abnormal effect on either protein expression, ATP-binding or ATPase activity.
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ABCA4 p.Arg1640Trp 11726554:120:83
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PMID: 11687513 [PubMed] Shroyer NF et al: "Null missense ABCR (ABCA4) mutations in a family with stargardt disease and retinitis pigmentosa."
No. Sentence Comment
7 STGD-affected individual AR682-03 was compound heterozygous for the mutation 2588G3C and a complex allele, [W1408R; R1640W].
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ABCA4 p.Arg1640Trp 11687513:7:116
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8 RP-affected individuals AR682-04 and-05 were compound heterozygous for the complex allele [W1408R; R1640W] and the missense mutation V767D.
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ABCA4 p.Arg1640Trp 11687513:8:99
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10 In vitro analysis of ABCR protein with the mutations W1408R and R1640W showed a moderate effect of these individual mutations on expression and ATP-binding; the complex allele [W1408R; R1640W] caused a severe reduction in protein expression.
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ABCA4 p.Arg1640Trp 11687513:10:64
status: NEW
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ABCA4 p.Arg1640Trp 11687513:10:185
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14 These studies of the complex allele W1408R; R1640W suggest a synergistic effect of the individual mutations.
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ABCA4 p.Arg1640Trp 11687513:14:44
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46 Oligos corresponding to each mutation were: V767D, GTC TGG CAG CAG CCT GTA GTG GTG ACA TCT ATT TCA C; W1408R, GAC CCT TCA CCC CCG GAT ATA TGG GCA G; R1640W, CAA CGC CAT CTT ATG GGC CAG CCT GCC (mutant nucleotide positions are in bold type).
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ABCA4 p.Arg1640Trp 11687513:46:149
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76 Sequencing of STGD1-affected proband AR682-03 revealed three ABCR mutations: the transition 4222T3C that encodes the missense substitution W1408R, the transition 4918C3T that results in the missense substitution R1640W, and the transversion 2588G3C that gives rise to equal amounts of proteins with either a deletion of glycine at residue 863 or the missense substitution G863A (Fig. 2, Table 1).10,15,16 Sequencing of her RP-affected paternal grandmother, AR682-04, also revealed three ABCR mutations: the missense substitutions W1408R and R1640W and a transversion 2300T3A that encodes the missense substitution V767D (Fig. 2, Table 1).17 Direct DNA sequencing of all members of pedigree AR682 for the exons corresponding to these mutations revealed segregation of the mutation 2588G3C from the maternal lineage and the complex allele [W1408R; R1640W] from the paternal lineage; the mutation V767D was identified only in the two RP-affected individuals (Fig. 2).
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ABCA4 p.Arg1640Trp 11687513:76:212
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ABCA4 p.Arg1640Trp 11687513:76:541
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ABCA4 p.Arg1640Trp 11687513:76:846
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80 Biochemical Analysis of Recombinant ABCR Plasmid constructs encoding recombinant ABCR proteins bearing the missense mutations V767D, W1408R, and R1640W, and the complex allele [W1408R; R1640W] were transiently transfected into HEK 293T cells.
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ABCA4 p.Arg1640Trp 11687513:80:145
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ABCA4 p.Arg1640Trp 11687513:80:185
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88 Western blot analysis of proteins from cells transfected with the V767D or [W1408R; R1640W] mutation-bearing constructs showed very little, if any, protein (Fig. 4).
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ABCA4 p.Arg1640Trp 11687513:88:44
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ABCA4 p.Arg1640Trp 11687513:88:84
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89 In contrast, proteins bearing the W1408R or R1640W mutations appeared to have mild or moderate defects in expression or stability (Fig. 4).
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ABCA4 p.Arg1640Trp 11687513:89:44
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91 Recombinant ABCR bearing the V767D or [W1408R; R1640W] mutations showed no labeling with azido-ATP, even when fivefold total protein was used in the assay (Fig. 4 and data not shown).
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ABCA4 p.Arg1640Trp 11687513:91:36
status: NEW
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ABCA4 p.Arg1640Trp 11687513:91:47
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92 The recombinant protein bearing the R1640W mutation had a moderate effect on ATP labeling, with approximately 55% of wild-type activity.
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ABCA4 p.Arg1640Trp 11687513:92:36
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102 ABCR Alterations in Patients with Stargardt Disease and Retinitis Pigmentosa Exon Nucleotide Amino Acid AR682-03 AR682-04 3 302ϩ26 A/A A/G 10 1268G 3 A H423R A/A A/G 1356ϩ11delG 6G/6G 6G/7G 15 2300T 3 A V767D T/T T/A 17 2588G 3 C G863A G/C G/G 19 2828G 3 A R943Q G/A G/G 24 3523-30 A/T A/T 28 4203C 3 A P1401P C/A C/C 4222T 3 C W1408R C/T C/T 33 4667ϩ48 C/T T/T 35 4918C 3 T R1640W C/T C/T 40 5585-70 C/T T/T 5603A 3 T N1868I A/T A/A 5682G 3 C L1894L G/C G/G Mutations are indicated in bold.
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ABCA4 p.Arg1640Trp 11687513:102:393
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115 The 2588G3C alteration in STGD1 patient AR682-03 has been observed previously in 26 unrelated patients with STGD1 and has been classified as a mild mutant allele based on its association with later onset disease and its pairing with presumed severe alleles in patients with STGD1.10,15,19 In addition, we observed the polymorphism 2828G3A in cis to the 2588G3C alteration, consistent with linkage disequilibrium between these two alterations, as reported previously.15,19 The effects of the mutation 2588G3C have been studied by Sun et al.,12 who report a moderate reduction in expression of the G863A mutant protein and a modest reduction in ATP-binding for the G863del variant of the 2588G3C mutation.
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ABCA4 p.Arg1640Trp 11687513:115:95
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:115:215
status: NEW
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116 In individual AR682-03, the combination of the 2588G3C allele with the complex allele [W1408R; R1640W] resulted in STGD1 with onset of visual symptoms at age 15 years, consistent with classification of the [W1408R; R1640W] allele as moderate to severe.
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ABCA4 p.Arg1640Trp 11687513:116:75
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:116:95
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:116:215
status: NEW
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117 RP-affected individuals AR682-04 and -05 carry the complex allele [W1408R; R1640W] in trans to the missense allele V767D.
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ABCA4 p.Arg1640Trp 11687513:117:75
status: NEW
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121 ATP labeling and Western blot analysis of recombinant ABCR bearing the mutations V767D or [W1408R; R1640W] showed that these mutant proteins are not efficiently expressed in our transient transfection system, despite expression of substantial amounts of mRNA (Figs.
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ABCA4 p.Arg1640Trp 11687513:121:93
status: NEW
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123 Based on our new observations, we predict that both RP-associated alleles V767D and [W1408R; R1640W] represent severe mutations that result in little or no ABCR activity.
X
ABCA4 p.Arg1640Trp 11687513:123:93
status: NEW
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126 However, the alterations W1408R and R1640W are each predicted to affect the first intradiscal loop, which has no known function.22 Of interest, the mutation V767D was reported in combination with the mutation 250delCAAA (a frameshift mutation that is a presumed null allele) in a patient with STGD1 with onset at age 8 years.17 That this patient (now 24 years old) has an ABCR genotype predicted to be equal to or more severe than that of our patient with advanced RP suggests a potential role for environmental or modifier gene effects.
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ABCA4 p.Arg1640Trp 11687513:126:36
status: NEW
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127 The effects of the W1408R mutation on ABCR expression and ATP binding are consistent with the classification of this as a mild to moderate mutation.
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ABCA4 p.Arg1640Trp 11687513:127:16
status: NEW
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129 Analysis of the R1640W mutation revealed a reduction in both expression (ϳ65% wild-type) and ATP-binding capacity (ϳ60% wild-type).
X
ABCA4 p.Arg1640Trp 11687513:129:16
status: NEW
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130 Furthermore, our analysis of the mutations W1408R and R1640W alone and in combination suggest that the null effects of the complex allele [W1408R; R1640W] are due to a combination of the two alterations, and are more severe than either mutation alone (Fig. 4).
X
ABCA4 p.Arg1640Trp 11687513:130:54
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:130:147
status: NEW
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139 Biochemical analysis of recombinant ABCR bearing these mutations confirmed that the RP-associated missense mutations are null, and further demonstrated that the effects of the complex allele W1408R; R1640W are more severe than a simple additive effect of the two constituent mutations.
X
ABCA4 p.Arg1640Trp 11687513:139:199
status: NEW
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45 Oligos corresponding to each mutation were: V767D, GTC TGG CAG CAG CCT GTA GTG GTG ACA TCT ATT TCA C; W1408R, GAC CCT TCA CCC CCG GAT ATA TGG GCA G; R1640W, CAA CGC CAT CTT ATG GGC CAG CCT GCC (mutant nucleotide positions are in bold type).
X
ABCA4 p.Arg1640Trp 11687513:45:149
status: NEW
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75 Sequencing of STGD1-affected proband AR682-03 revealed three ABCR mutations: the transition 4222T3C that encodes the missense substitution W1408R, the transition 4918C3T that results in the missense substitution R1640W, and the transversion 2588G3C that gives rise to equal amounts of proteins with either a deletion of glycine at residue 863 or the missense substitution G863A (Fig. 2, Table 1).10,15,16 Sequencing of her RP-affected paternal grandmother, AR682-04, also revealed three ABCR mutations: the missense substitutions W1408R and R1640W and a transversion 2300T3A that encodes the missense substitution V767D (Fig. 2, Table 1).17 Direct DNA sequencing of all members of pedigree AR682 for the exons corresponding to these mutations revealed segregation of the mutation 2588G3C from the maternal lineage and the complex allele [W1408R; R1640W] from the paternal lineage; the mutation V767D was identified only in the two RP-affected individuals (Fig. 2).
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ABCA4 p.Arg1640Trp 11687513:75:212
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:75:541
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:75:846
status: NEW
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79 Biochemical Analysis of Recombinant ABCR Plasmid constructs encoding recombinant ABCR proteins bearing the missense mutations V767D, W1408R, and R1640W, and the complex allele [W1408R; R1640W] were transiently transfected into HEK 293T cells.
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ABCA4 p.Arg1640Trp 11687513:79:145
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:79:185
status: NEW
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87 Western blot analysis of proteins from cells transfected with the V767D or [W1408R; R1640W] mutation-bearing constructs showed very little, if any, protein (Fig. 4).
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ABCA4 p.Arg1640Trp 11687513:87:84
status: NEW
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90 Recombinant ABCR bearing the V767D or [W1408R; R1640W] mutations showed no labeling with azido-ATP, even when fivefold total protein was used in the assay (Fig. 4 and data not shown).
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ABCA4 p.Arg1640Trp 11687513:90:47
status: NEW
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101 ABCR Alterations in Patients with Stargardt Disease and Retinitis Pigmentosa Exon Nucleotide Amino Acid AR682-03 AR682-04 3 302af9;26 A/A A/G 10 1268G 3 A H423R A/A A/G 1356af9;11delG 6G/6G 6G/7G 15 2300T 3 A V767D T/T T/A 17 2588G 3 C G863A G/C G/G 19 2828G 3 A R943Q G/A G/G 24 3523-30 A/T A/T 28 4203C 3 A P1401P C/A C/C 4222T 3 C W1408R C/T C/T 33 4667af9;48 C/T T/T 35 4918C 3 T R1640W C/T C/T 40 5585-70 C/T T/T 5603A 3 T N1868I A/T A/A 5682G 3 C L1894L G/C G/G Mutations are indicated in bold.
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ABCA4 p.Arg1640Trp 11687513:101:393
status: NEW
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120 ATP labeling and Western blot analysis of recombinant ABCR bearing the mutations V767D or [W1408R; R1640W] showed that these mutant proteins are not efficiently expressed in our transient transfection system, despite expression of substantial amounts of mRNA (Figs. 3, 4).
X
ABCA4 p.Arg1640Trp 11687513:120:99
status: NEW
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124 However, the alterations W1408R and R1640W are each predicted to affect the first intradiscal loop, which has no known function.22 Of interest, the mutation V767D was reported in combination with the mutation 250delCAAA (a frameshift mutation that is a presumed null allele) in a patient with STGD1 with onset at age 8 years.17 That this patient (now 24 years old) has an ABCR genotype predicted to be equal to or more severe than that of our patient with advanced RP suggests a potential role for environmental or modifier gene effects.
X
ABCA4 p.Arg1640Trp 11687513:124:36
status: NEW
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128 Furthermore, our analysis of the mutations W1408R and R1640W alone and in combination suggest that the null effects of the complex allele [W1408R; R1640W] are due to a combination of the two alterations, and are more severe than either mutation alone (Fig. 4).
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ABCA4 p.Arg1640Trp 11687513:128:54
status: NEW
X
ABCA4 p.Arg1640Trp 11687513:128:147
status: NEW
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136 Biochemical analysis of recombinant ABCR bearing these mutations confirmed that the RP-associated missense mutations are null, and further demonstrated that the effects of the complex allele W1408R; R1640W are more severe than a simple additive effect of the two constituent mutations.
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ABCA4 p.Arg1640Trp 11687513:136:199
status: NEW
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PMID: 11527935 [PubMed] Briggs CE et al: "Mutations in ABCR (ABCA4) in patients with Stargardt macular degeneration or cone-rod degeneration."
No. Sentence Comment
89 ABCR Sequence Changes Found in 118 Patients with Stargardt and 8 with CRD Patient ID Mutations (Amino Acid Based) Sequence Change (Nucleotide Based) Het/Hom Other Sequence Changes 21 Null Mutations 071-004 Met1Val ATG 3 GTC Het None 035-002* Ser84(insCAAA)30 251ins4 Het IVS36 ϩ 1G 3 A 034-039 Ser84(insCAAA)30 251ins4 Het Gly1961Glu 032-018 Arg152Ter23 CGA 3 TGA Het Arg2107Cys 032-005 Ala222(del13bp) 666del13 [AAAGACGGTGCGC] Het None 032-039 Ala222(del13bp) 666del13 [AAAGACGGTGCGC] Het None 032-060 [Ser278(delT); Arg1300Gln] [832delT; CGA 3 CAA] Het Pro1486Leu 032-066* Lys356Ter AAG 3 TAG Het Gln1513(insC) 032-072 - IVS13 ϩ 2T 3 C Het Val77Glu 032-073 Arg681Ter21 CGA 3 TGA Het Leu1388Pro 034-016 Ser1071(insGT)31 3212insGT Het None 032-065 Ser1071(insGT)31 3212insGT Het None 035-003 Ile1114(delC)5 3340delC Het Pro1380Leu 007-014* - IVS26 ϩ 1G 3 A Het Asn1345(insCA) 007-014* Asn1345(insCA) 4034insCA Het IVS26 ϩ 1G 3 A 032-066* Gln1513(insC) 4538insC Het Lys356Ter 032-010 Gln1513(insC) 4538insC Het None 032-024 Pro1570(delC)16 4710delC Het Gly1961Glu 032-016 Thr1721 (delAC) delete AC @ nt 5161 Het Thr1525Met 035-002* - IVS36 ϩ 1G 3 A23 Het Ser84(insCAAA) 034-031 Leu1741(del11) 5194del11 [GTGGTGGGCAT] Het Gly1961Glu 032-051 Trp1772Ter TGG 3 TGA Het None 032-022 - IVS41-2delA Het Gly1961Glu 032-081* Val1973(delG) 5917delG Hom None 034-017 Gly2100(delG) 6300delG Het Gly1961Glu 55 Missense and One In-Frame Deletion 032-020 Cys54Tyr15 TGC 3 TAC Het Gly863Ala 035-012 Cys54Tyr15 TGC 3 TAC Het Arg1108Cys 071-007 Cys54Tyr15 TGC 3 TAC Het Val935Ala 071-003 Asn58Lys AAC 3 AAG Het Leu1201Arg 032-069 Ala60Val15 GCG 3 GTG Het None 032-028 Gly65Glu16 GGA 3 GAA Het None 032-072 Val77Glu GTG 3 CAG Het IVS13 ϩ 2T 3 C 034-013 Gln190His CAG 3 CAC Het Gly1961Glu 032-076 Leu244Pro CTG 3 CCG Hom None 032-012 Pro309Arg CCA 3 CGA Het Arg1300Gln 032-054 Phe525Cys TTT 3 TGT Het Ile1846Thr 032-046 Arg537Cys CGT 3 TGT Het Val989Ala 034-038 Arg537Cys CGT 3 TGT Het Gly863Ala 032-095 Leu541Pro18 CTA 3 CCA Het None 034-022 Leu541Pro18 CTA 3 CCA Het Leu2027Phe 035-001 Leu541Pro18 CTA 3 CCA Het None 032-009 Leu541Pro18 CTA 3 CCA Het None 032-023 [Leu541Pro18 ; Ala1038Val27 ] [CTA 3 CCA; GCC 3 GTC] Het Gly863Ala 034-035 [Leu541Pro18 ; Ala1038Val27 ] [CTA 3 CCA; GCC 3 GTC] Het Gly863Ala 032-011 Ala549Pro GCC 3 CCC Het Gly1961Glu 032-044 Gly550Arg GGA 3 AGA Het None 032-085 Arg602Gln CGG 3 CAG Het Val643Met 032-090 Gly607Arg GGG 3 AGG Het Leu2027Phe 032-085 Val643Met GTG 3 ATG Het Arg602Gln 032-042 Val767Asp30 GTC 3 GAG Het Pro1486Leu 071-006 Val767Asp30 GTC 3 GAG Het Ile1562Thr 032-014 Leu797Pro CTG 3 CCG Het Pro1486Leu 032-038 Trp821Arg18 TGG 3 AGG Het None 034-045 Ile824Thr ATC 3 ACC Het Gly1961Glu 032-056 Gly863Ala5 GGA 3 GCA Het None 032-091 Gly863Ala5 GGA 3 GCA Het None 032-020 Gly863Ala5 GGA 3 GCA Het Cys54Tyr 032-023 Gly863Ala5 GGA 3 GCA Het [Leu541Pro; Ala1038Val] 034-011 Gly863Ala5 GGA 3 GCA Het Cys1488Arg 034-015 Gly863Ala5 GGA 3 GCA Het Thr1525Met 034-035 Gly863Ala5 GGA 3 GCA Het [Leu541Pro; Ala1038Val] 034-036 Gly863Ala5 GGA 3 GCA Het Cys2150Arg 034-038 Gly863Ala5 GGA 3 GCA Het Arg537Cys 071-007 Val935Ala GTA 3 GCA Het Cys54Tyr 032-043 Arg943Trp CGG 3 TGG Het Arg1108Leu 032-046 Val989Ala GTT 3 GCT Het Arg537Cys 071-005 Arg1108Cys18 CGC 3 TGC Het None Patient ID Mutations (Amino Acid Based) Sequence Change (Nucleotide Based) Het/Hom Other Sequence Changes 035-012 Arg1108Cys18 CGC 3 TGC Het Cys54Tyr 032-043 Arg1108Leu5 CGC 3 CTC Het Arg943Trp 032-097 Glu1122Lys18 GAG 3 AAG Het None 035-019 Glu1122Lys18 GAG 3 AAG Het None 071-003 Leu1201Arg15 CTG 3 CGG Het Asn58Lys 032-012 Arg1300Gln CGA 3 CAA Het Pro309Arg 032-068 Arg1300Gln CGA 3 CAA Het None 032-013 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 032-015 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 032-027 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 071-001 Pro1380Leu15 CCG 3 CTG Hom None 034-020 Pro1380Leu15 CCG 3 CTG Het Leu2027Phe 034-028 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 034-044 Pro1380Leu15 CCG 3 CTG Het Leu2027Phe 034-048 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 035-003 Pro1380Leu15 CCG 3 CTG Het Ile1114(delC) 032-073 Leu1388Pro CTG 3 CCG Het Arg681Ter 034-040 Trp1408Arg15 TGG 3 CGG Het Arg1640Trp 035-013 Trp1408Arg15 TGG 3 CGG Het Arg1640Trp 032-060 Pro1486Leu20 CCA 3 CTA Het [Ser278(delT); Arg1300Gln] 032-014 Pro1486Leu20 CCA 3 CTA Het Leu797Pro 032-025 Pro1486Leu20 CCA 3 CTA Het Asp1531Asn 032-042 Pro1486Leu20 CCA 3 CTA Het Val767Asp 034-011 Cys1488Arg15 TGC 3 CGC Het Gly863Ala 032-034 Cys1490Tyr15 TGC 3 TAC Het Ile1846Thr 032-084 Thr1525Met15 ACG 3 ATG Het Arg2139Trp 032-016 Thr1525Met15 ACG 3 ATG Het Thr1721(delAC) 032-021 Thr1525Met15 ACG 3 ATG Het None 032-041 Thr1525Met15 ACG 3 ATG Het None 034-015 Thr1525Met15 ACG 3 ATG Het Gly863Ala 032-049 Asp1531Asn15 GAC 3 AAC Het Gly1961Glu 034-019 Asp1531Asn15 GAC 3 AAC Het None 032-025 Asp1531Asn15 GAC 3 AAC Het Pro1846Leu 071-006 Ile1562Thr27 ATT 3 ACT Het Val767Asp 034-040 Arg1640Trp18 CGG 3 TGG Het Trp1408Arg 035-013 Arg1640Trp18 CGG 3 TGG Het Trp1408Arg 032-030* Arg1640Gln CGG 3 CAG Hom None 032-019 Pro1776Leu CCC 3 CTC Het Gly1961Glu 032-034 Ile1846Thr21 ATT 3 ACT Het Cys1490Tyr 032-054 Ile1846Thr21 ATT 3 ACT Het Phe525Cys 032-011 Gly1961Glu27 GGA 3 GAA Het Ala549Pro 032-013 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-015 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-019 Gly1961Glu27 GGA 3 GAA Het Pro1776Leu 032-022 Gly1961Glu27 GGA 3 GAA Het IVS41-2delA 032-024 Gly1961Glu27 GGA 3 GAA Het Pro1570(delC) 032-027 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-040 Gly1961Glu27 GGA 3 GAA Het None 032-049 Gly1961Glu27 GGA 3 GAA Het Asp1531Asn 034-013 Gly1961Glu27 GGA 3 GAA Het Gln190His 034-017 Gly1961Glu27 GGA 3 GAA Het Gly2100(delG) 034-021 Gly1961Glu27 GGA 3 GAA Het None 034-025 Gly1961Glu27 GGA 3 GAA Het None 034-028 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 034-031 Gly1961Glu27 GGA 3 GAA Het Leu1741(del11) 034-033 Gly1961Glu27 GGA 3 GAA Het None 034-039 Gly1961Glu27 GGA 3 GAA Het Ser84(insCAAA) 032-050 Gly1961Glu27 GGA 3 GAA Het None 034-045 Gly1961Glu27 GGA 3 GAA Het Ile824Thr 034-048 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-003 Gly1977Ser15 GGC 3 AGC Het Leu2027Phe 032-003 Leu2027Phe5 CTC 3 TTC Het Gly1977Ser 032-090 Leu2027Phe5 CTC 3 TTC Het Gly607Arg 034-006 Leu2027Phe5 CTC 3 TTC Het None 034-020 Leu2027Phe5 CTC 3 TTC Het Pro1380Leu 034-022 Leu2027Phe5 CTC 3 TTC Het Leu541Pro 034-044 Leu2027Phe5 CTC 3 TTC Het Pro1380Leu 035-011 Leu2027Phe5 CTC 3 TTC Het None 032-063 Arg2030Gln15 CGA 3 CAA Het None 032-093 Arg2030Gln15 CGA 3 CAA Het None 2232 Briggs et al. IOVS, September 2001, Vol. 42, No.
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ABCA4 p.Arg1640Trp 11527935:89:4207
status: NEW
X
ABCA4 p.Arg1640Trp 11527935:89:4253
status: NEW
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88 ABCR Sequence Changes Found in 118 Patients with Stargardt and 8 with CRD Patient ID Mutations (Amino Acid Based) Sequence Change (Nucleotide Based) Het/Hom Other Sequence Changes 21 Null Mutations 071-004 Met1Val ATG 3 GTC Het None 035-002* Ser84(insCAAA)30 251ins4 Het IVS36 af9; 1G 3 A 034-039 Ser84(insCAAA)30 251ins4 Het Gly1961Glu 032-018 Arg152Ter23 CGA 3 TGA Het Arg2107Cys 032-005 Ala222(del13bp) 666del13 [AAAGACGGTGCGC] Het None 032-039 Ala222(del13bp) 666del13 [AAAGACGGTGCGC] Het None 032-060 [Ser278(delT); Arg1300Gln] [832delT; CGA 3 CAA] Het Pro1486Leu 032-066* Lys356Ter AAG 3 TAG Het Gln1513(insC) 032-072 - IVS13 af9; 2T 3 C Het Val77Glu 032-073 Arg681Ter21 CGA 3 TGA Het Leu1388Pro 034-016 Ser1071(insGT)31 3212insGT Het None 032-065 Ser1071(insGT)31 3212insGT Het None 035-003 Ile1114(delC)5 3340delC Het Pro1380Leu 007-014* - IVS26 af9; 1G 3 A Het Asn1345(insCA) 007-014* Asn1345(insCA) 4034insCA Het IVS26 af9; 1G 3 A 032-066* Gln1513(insC) 4538insC Het Lys356Ter 032-010 Gln1513(insC) 4538insC Het None 032-024 Pro1570(delC)16 4710delC Het Gly1961Glu 032-016 Thr1721 (delAC) delete AC @ nt 5161 Het Thr1525Met 035-002* - IVS36 af9; 1G 3 A23 Het Ser84(insCAAA) 034-031 Leu1741(del11) 5194del11 [GTGGTGGGCAT] Het Gly1961Glu 032-051 Trp1772Ter TGG 3 TGA Het None 032-022 - IVS41-2delA Het Gly1961Glu 032-081* Val1973(delG) 5917delG Hom None 034-017 Gly2100(delG) 6300delG Het Gly1961Glu 55 Missense and One In-Frame Deletion 032-020 Cys54Tyr15 TGC 3 TAC Het Gly863Ala 035-012 Cys54Tyr15 TGC 3 TAC Het Arg1108Cys 071-007 Cys54Tyr15 TGC 3 TAC Het Val935Ala 071-003 Asn58Lys AAC 3 AAG Het Leu1201Arg 032-069 Ala60Val15 GCG 3 GTG Het None 032-028 Gly65Glu16 GGA 3 GAA Het None 032-072 Val77Glu GTG 3 CAG Het IVS13 af9; 2T 3 C 034-013 Gln190His CAG 3 CAC Het Gly1961Glu 032-076 Leu244Pro CTG 3 CCG Hom None 032-012 Pro309Arg CCA 3 CGA Het Arg1300Gln 032-054 Phe525Cys TTT 3 TGT Het Ile1846Thr 032-046 Arg537Cys CGT 3 TGT Het Val989Ala 034-038 Arg537Cys CGT 3 TGT Het Gly863Ala 032-095 Leu541Pro18 CTA 3 CCA Het None 034-022 Leu541Pro18 CTA 3 CCA Het Leu2027Phe 035-001 Leu541Pro18 CTA 3 CCA Het None 032-009 Leu541Pro18 CTA 3 CCA Het None 032-023 [Leu541Pro18 ; Ala1038Val27 ] [CTA 3 CCA; GCC 3 GTC] Het Gly863Ala 034-035 [Leu541Pro18 ; Ala1038Val27 ] [CTA 3 CCA; GCC 3 GTC] Het Gly863Ala 032-011 Ala549Pro GCC 3 CCC Het Gly1961Glu 032-044 Gly550Arg GGA 3 AGA Het None 032-085 Arg602Gln CGG 3 CAG Het Val643Met 032-090 Gly607Arg GGG 3 AGG Het Leu2027Phe 032-085 Val643Met GTG 3 ATG Het Arg602Gln 032-042 Val767Asp30 GTC 3 GAG Het Pro1486Leu 071-006 Val767Asp30 GTC 3 GAG Het Ile1562Thr 032-014 Leu797Pro CTG 3 CCG Het Pro1486Leu 032-038 Trp821Arg18 TGG 3 AGG Het None 034-045 Ile824Thr ATC 3 ACC Het Gly1961Glu 032-056 Gly863Ala5 GGA 3 GCA Het None 032-091 Gly863Ala5 GGA 3 GCA Het None 032-020 Gly863Ala5 GGA 3 GCA Het Cys54Tyr 032-023 Gly863Ala5 GGA 3 GCA Het [Leu541Pro; Ala1038Val] 034-011 Gly863Ala5 GGA 3 GCA Het Cys1488Arg 034-015 Gly863Ala5 GGA 3 GCA Het Thr1525Met 034-035 Gly863Ala5 GGA 3 GCA Het [Leu541Pro; Ala1038Val] 034-036 Gly863Ala5 GGA 3 GCA Het Cys2150Arg 034-038 Gly863Ala5 GGA 3 GCA Het Arg537Cys 071-007 Val935Ala GTA 3 GCA Het Cys54Tyr 032-043 Arg943Trp CGG 3 TGG Het Arg1108Leu 032-046 Val989Ala GTT 3 GCT Het Arg537Cys 071-005 Arg1108Cys18 CGC 3 TGC Het None IOVS, September 2001, Vol. 42, No. 10 ABCR in Stargardt Macular Degeneration Patient ID Mutations (Amino Acid Based) Sequence Change (Nucleotide Based) Het/Hom Other Sequence Changes 035-012 Arg1108Cys18 CGC 3 TGC Het Cys54Tyr 032-043 Arg1108Leu5 CGC 3 CTC Het Arg943Trp 032-097 Glu1122Lys18 GAG 3 AAG Het None 035-019 Glu1122Lys18 GAG 3 AAG Het None 071-003 Leu1201Arg15 CTG 3 CGG Het Asn58Lys 032-012 Arg1300Gln CGA 3 CAA Het Pro309Arg 032-068 Arg1300Gln CGA 3 CAA Het None 032-013 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 032-015 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 032-027 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 071-001 Pro1380Leu15 CCG 3 CTG Hom None 034-020 Pro1380Leu15 CCG 3 CTG Het Leu2027Phe 034-028 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 034-044 Pro1380Leu15 CCG 3 CTG Het Leu2027Phe 034-048 Pro1380Leu15 CCG 3 CTG Het Gly1961Glu 035-003 Pro1380Leu15 CCG 3 CTG Het Ile1114(delC) 032-073 Leu1388Pro CTG 3 CCG Het Arg681Ter 034-040 Trp1408Arg15 TGG 3 CGG Het Arg1640Trp 035-013 Trp1408Arg15 TGG 3 CGG Het Arg1640Trp 032-060 Pro1486Leu20 CCA 3 CTA Het [Ser278(delT); Arg1300Gln] 032-014 Pro1486Leu20 CCA 3 CTA Het Leu797Pro 032-025 Pro1486Leu20 CCA 3 CTA Het Asp1531Asn 032-042 Pro1486Leu20 CCA 3 CTA Het Val767Asp 034-011 Cys1488Arg15 TGC 3 CGC Het Gly863Ala 032-034 Cys1490Tyr15 TGC 3 TAC Het Ile1846Thr 032-084 Thr1525Met15 ACG 3 ATG Het Arg2139Trp 032-016 Thr1525Met15 ACG 3 ATG Het Thr1721(delAC) 032-021 Thr1525Met15 ACG 3 ATG Het None 032-041 Thr1525Met15 ACG 3 ATG Het None 034-015 Thr1525Met15 ACG 3 ATG Het Gly863Ala 032-049 Asp1531Asn15 GAC 3 AAC Het Gly1961Glu 034-019 Asp1531Asn15 GAC 3 AAC Het None 032-025 Asp1531Asn15 GAC 3 AAC Het Pro1846Leu 071-006 Ile1562Thr27 ATT 3 ACT Het Val767Asp 034-040 Arg1640Trp18 CGG 3 TGG Het Trp1408Arg 035-013 Arg1640Trp18 CGG 3 TGG Het Trp1408Arg 032-030* Arg1640Gln CGG 3 CAG Hom None 032-019 Pro1776Leu CCC 3 CTC Het Gly1961Glu 032-034 Ile1846Thr21 ATT 3 ACT Het Cys1490Tyr 032-054 Ile1846Thr21 ATT 3 ACT Het Phe525Cys 032-011 Gly1961Glu27 GGA 3 GAA Het Ala549Pro 032-013 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-015 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-019 Gly1961Glu27 GGA 3 GAA Het Pro1776Leu 032-022 Gly1961Glu27 GGA 3 GAA Het IVS41-2delA 032-024 Gly1961Glu27 GGA 3 GAA Het Pro1570(delC) 032-027 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-040 Gly1961Glu27 GGA 3 GAA Het None 032-049 Gly1961Glu27 GGA 3 GAA Het Asp1531Asn 034-013 Gly1961Glu27 GGA 3 GAA Het Gln190His 034-017 Gly1961Glu27 GGA 3 GAA Het Gly2100(delG) 034-021 Gly1961Glu27 GGA 3 GAA Het None 034-025 Gly1961Glu27 GGA 3 GAA Het None 034-028 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 034-031 Gly1961Glu27 GGA 3 GAA Het Leu1741(del11) 034-033 Gly1961Glu27 GGA 3 GAA Het None 034-039 Gly1961Glu27 GGA 3 GAA Het Ser84(insCAAA) 032-050 Gly1961Glu27 GGA 3 GAA Het None 034-045 Gly1961Glu27 GGA 3 GAA Het Ile824Thr 034-048 Gly1961Glu27 GGA 3 GAA Het Pro1380Leu 032-003 Gly1977Ser15 GGC 3 AGC Het Leu2027Phe 032-003 Leu2027Phe5 CTC 3 TTC Het Gly1977Ser 032-090 Leu2027Phe5 CTC 3 TTC Het Gly607Arg 034-006 Leu2027Phe5 CTC 3 TTC Het None 034-020 Leu2027Phe5 CTC 3 TTC Het Pro1380Leu 034-022 Leu2027Phe5 CTC 3 TTC Het Leu541Pro 034-044 Leu2027Phe5 CTC 3 TTC Het Pro1380Leu 035-011 Leu2027Phe5 CTC 3 TTC Het None 032-063 Arg2030Gln15 CGA 3 CAA Het None 032-093 Arg2030Gln15 CGA 3 CAA Het None 2232 Briggs et al. IOVS, September 2001, Vol. 42, No. 10 TABLE 1 (continued).
X
ABCA4 p.Arg1640Trp 11527935:88:4285
status: NEW
X
ABCA4 p.Arg1640Trp 11527935:88:4331
status: NEW
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PMID: 11328725 [PubMed] Webster AR et al: "An analysis of allelic variation in the ABCA4 gene."
No. Sentence Comment
102 Thirty-Three Truncated and 98 Amino Acid-Changing Variants in the ABCA4 Gene Exon Nucleotide Change Effect (A) (B) AMD (n ‫؍‬ 182) Control (n ‫؍‬ 96) STGD (n ‫؍‬ 374) Allele Prevalence 2 106delT FS NS 0 0 1 Ͻ0.01 2 160 ϩ 1g 3 a Splice site NS 0 0 1 Ͻ0.01 3 161G 3 A Cys54Tyr NS 0 0 6 Ͻ0.01 3 179C 3 T Ala60Val NS 0 0 2 Ͻ0.01 3 194G 3 A Gly65Glu NS 0 0 2 Ͻ0.01 3 223T 3 G Cys75Gly NS 0 0 2 Ͻ0.01 3 247delCAAA FS NS 0 0 2 Ͻ0.01 3 298C 3 T Ser100Pro NS 0 0 1 Ͻ0.01 5 454C 3 T Arg152Stop NS 0 0 2 Ͻ0.01 6 574G 3 A Ala192Thr NS 0 0 1 Ͻ0.01 6 618C 3 G Ser206Arg NS 0 0 3 Ͻ0.01 6 634C 3 T Arg212Cys 0.02 Yes 0 0 7 0.01 6 635G 3 A Arg212His NS 2 2 6 0.01 6 658C 3 T Arg220Cys NS 0 0 2 Ͻ0.01 6 661delG FS NS 0 0 1 Ͻ0.01 666delAAAGACGGTGC 6 GC FS NS 0 0 1 Ͻ0.01 6 746A 3 C Asp249Gly NS 0 0 1 Ͻ0.01 8 899C 3 A Thr300Asn NS 0 0 1 Ͻ0.01 8 997C 3 T Arg333Trp NS 0 0 1 Ͻ0.01 9 1140T 3 A Asn380Lys NS 0 0 1 Ͻ0.01 9 1222C 3 T Arg408Stop NS 0 0 1 Ͻ0.01 10 1268A 3 G His423Arg NS 1 0 7 0.01 10 1335C 3 G Ser445Arg NS 0 0 1 Ͻ0.01 10 1344delG FS NS 0 0 1 Ͻ0.01 11 1411G 3 A Glu471Lys NS 0 0 3 Ͻ0.01 11 1513delATCAC FS NS 0 0 1 Ͻ0.01 12 1622T 3 C Leu541Pro 0.001 Yes 0 0 11 0.01 13 1804C 3 T Arg602Trp NS 0 0 3 Ͻ0.01 13 1805G 3 A Arg602Gln NS 0 0 1 Ͻ0.01 13 1819G 3 T Gly607Trp NS 0 0 1 Ͻ0.01 13 1823T 3 A Phe608Ile NS 0 0 1 Ͻ0.01 13 1927G 3 A Val643Met NS 0 0 1 Ͻ0.01 14 1989G 3 T Trp663Stop NS 0 0 1 Ͻ0.01 14 2005delAT FS NS 0 0 3 Ͻ0.01 14 2041C 3 T Arg681Stop NS 0 0 2 Ͻ0.01 14 2147C 3 T Thr716Met NS 0 0 1 Ͻ0.01 15 2291G 3 A Cys764Tyr NS 0 0 1 Ͻ0.01 15 2294G 3 A Ser765Asn NS 0 0 1 Ͻ0.01 15 2300T 3 A Val767Asp NS 0 0 2 Ͻ0.01 16 2385del16bp FS NS 0 0 1 Ͻ0.01 16 2453G 3 A Gly818Glu NS 0 0 1 Ͻ0.01 16 2461T 3 A Trp821Arg NS 0 0 1 Ͻ0.01 16 2546T 3 C Val849Ala NS 0 0 4 Ͻ0.01 16 2552G 3 A Gly851Asp NS 0 0 1 Ͻ0.01 16 2560G 3 A Ala854Thr NS 0 0 1 Ͻ0.01 17 2588G 3 C Gly863Ala 0.0006 No 2 2 28 0.02 17 2617T 3 C Phe873Leu NS 0 0 1 Ͻ0.01 18 2690C 3 T Thr897Ile NS 0 0 1 Ͻ0.01 18 2701A 3 G Thr901Ala NS 0 1 0 Ͻ0.01 18 2703A 3 G Thr901Arg NS 0 0 2 Ͻ0.01 19 2828G 3 A Arg943Gln NS 20 13 37 0.05 19 2883delC FS NS 0 0 1 Ͻ0.01 20 2894A 3 G Asn965Ser NS 0 0 3 Ͻ0.01 19 2912C 3 A Thr971Asn NS 0 0 1 Ͻ0.01 19 2915C 3 A Thr972Asn NS 0 0 1 Ͻ0.01 20 2920T 3 C Ser974Pro NS 0 0 1 Ͻ0.01 20 2966T 3 C Val989Ala NS 0 0 2 Ͻ0.01 20 2977del8bp FS NS 0 0 1 Ͻ0.01 20 3041T 3 G Leu1014Arg NS 0 0 1 Ͻ0.01 21 3055A 3 G Thr1019Ala NS 0 0 1 Ͻ0.01 21 3064G 3 A Glu1022Lys NS 0 0 1 Ͻ0.01 21 3091A 3 G Lys1031Glu NS 0 0 1 Ͻ0.01 21 3113G 3 T Ala1038Val 0.001 Yes 1 0 17 0.01 22 3205insAA FS NS 0 0 1 Ͻ0.01 22 3261G 3 A Glu1087Lys NS 0 0 2 Ͻ0.01 22 3322C 3 T Arg1108Cys 0.04 Yes 0 0 6 Ͻ0.01 22 3323G 3 A Arg1108His NS 0 0 1 Ͻ0.01 23 3364G 3 A Glu1122Lys NS 0 0 1 Ͻ0.01 (continues) Exon Nucleotide Change Effect (A) (B) AMD (n ‫؍‬ 182) Control (n ‫؍‬ 96) STGD (n ‫؍‬ 374) Allele Prevalence 23 3386G 3 T Arg1129Leu NS 0 0 3 Ͻ0.01 24 3531C 3 A Cys1158Stop NS 0 0 1 Ͻ0.01 25 3749T 3 C Leu1250Pro NS 0 0 1 Ͻ0.01 26 3835delGATTCT FS NS 0 0 1 Ͻ0.01 27 3940C 3 A Pro1314Thr NS 0 1 0 Ͻ0.01 28 4139C 3 T Pro1380Leu 0.001 Yes 0 0 10 0.01 28 4222T 3 C Trp1408Arg NS 0 0 2 Ͻ0.01 28 4223G 3 T Trp1408Leu NS 0 0 2 Ͻ0.01 28 4234C 3 T Gln1412stop NS 0 0 1 Ͻ0.01 29 4297G 3 A Val1433Ile NS 1 0 0 Ͻ0.01 29 4319T 3 C Phe1440Ser NS 0 0 1 Ͻ0.01 30 4353 - 1g 3 t Splice site NS 0 0 1 Ͻ0.01 30 4457C 3 T Pro1486Leu NS 0 0 1 Ͻ0.01 30 4462T 3 C Cys1488Arg NS 0 0 3 Ͻ0.01 30 4463G 3 T Cys1488Phe NS 0 0 2 Ͻ0.01 30 4469G 3 A Cys1490Tyr NS 0 0 3 Ͻ0.01 30 4531insC FS NS 0 0 2 Ͻ0.01 32 4538A 3 G Gln1513Arg NS 0 0 1 Ͻ0.01 30 4539 ϩ 1g 3 t Splice site NS 0 0 1 Ͻ0.01 31 4574T 3 C Leu1525Pro NS 0 0 1 Ͻ0.01 33 4733delGTTT FS NS 0 0 1 Ͻ0.01 4859delATAACAinsTCC 35 T FS NS 0 0 1 Ͻ0.01 36 4909G 3 A Ala1637Thr NS 0 0 1 Ͻ0.01 35 4918C 3 T Arg1640Trp NS 0 0 1 Ͻ0.01 35 4919G 3 A Arg1640Gln NS 0 0 1 Ͻ0.01 35 4954T 3 G Tyr1652Asp NS 0 0 1 Ͻ0.01 36 5077G 3 A Val1693Ile NS 0 0 1 Ͻ0.01 36 5186T 3 C Leu1729Pro NS 0 0 2 Ͻ0.01 36 5206T 3 C Ser1736Pro NS 0 0 1 Ͻ0.01 36 5212del11bp FS NS 0 0 1 Ͻ0.01 37 5225delTGGTGGTGGGC FS NS 0 0 1 Ͻ0.01 del LPA 37 5278del9bp 1760 NS 0 0 1 Ͻ0.01 37 5288delG FS NS 0 0 1 Ͻ0.01 38 5395A 3 G Asn1799Asp NS 0 0 1 Ͻ0.01 38 5451T 3 G Asp1817Glu NS 1 0 4 Ͻ0.01 39 5584 ϩ 5g 3 a Splice site 0.02 Yes 0 0 6 Ͻ0.01 40 5603A 3 T Asn1868Ile 0.0006 No 20 7 79 0.08 40 5651T 3 A Val1884GLu NS 0 0 1 Ͻ0.01 40 5657G 3 A Gly1886Glu NS 0 0 1 Ͻ0.01 40 5687T 3 A Val1896Asp NS 0 0 1 Ͻ0.01 40 5693G 3 A Arg1898His NS 0 0 1 Ͻ0.01 40 5714 ϩ 5g 3 a Splice site NS 0 0 1 Ͻ0.01 42 5843CA 3 TG Pro1948Leu NS 11 7 28 0.04 42 5882G 3 A Gly1961Glu Ͻ0.0001 Yes 1 0 43 0.03 43 5908C 3 T Leu1970Phe NS 1 0 1 Ͻ0.01 43 5917delG FS NS 0 0 1 Ͻ0.01 44 6079C 3 T Leu2027Phe 0.01 Yes 0 0 9 0.01 44 6088C 3 T Arg2030Stop NS 0 0 2 Ͻ0.01 44 6089G 3 A Arg2030Gln NS 0 0 1 Ͻ0.01 44 6112A 3 T Arg2038Trp NS 0 0 1 Ͻ0.01 45 6148A 3 C Val2050Leu NS 1 0 0 Ͻ0.01 46 6212A 3 T Tyr2071Phe NS 0 0 1 Ͻ0.01 45 6229C 3 T Arg2077Trp NS 0 0 2 Ͻ0.01 46 6320G 3 A Arg2107His 0.01 Yes 0 0 10 0.01 46 6383A 3 G His2128Arg NS 0 0 1 Ͻ0.01 47 6446G 3 T Arg2149Leu NS 0 0 1 Ͻ0.01 47 6449G 3 A Cys2150Tyr NS 0 0 5 Ͻ0.01 48 6529G 3 A Asp2177Asn NS 2 0 0 Ͻ0.01 48 6686T 3 C Leu2229Pro NS 0 0 1 Ͻ0.01 48 6707delTCACACAG FS NS 0 0 1 Ͻ0.01 48 6729 ϩ 1g 3 a Splice site NS 0 0 1 Ͻ0.01 49 6764G 3 T Ser2255Ile 0.009 No 16 4 54 0.06 49 6788G 3 T Arg2263Leu NS 0 0 1 Ͻ0.01 (A) The probability under the null hypothesis of similar prevalence of each variant in Stargardt (STGD) compared with non-STGD alleles (two-tailed Fisher`s exact test); (B) compatability of the variant existing in a ratio of 100:1 in STGD to control alleles, calculated using the binomial distribution.
X
ABCA4 p.Arg1640Trp 11328725:102:4381
status: NEW
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103 Thirty-Three Truncated and 98 Amino Acid-Changing Variants in the ABCA4 Gene Exon Nucleotide Change Effect (A) (B) AMD (n d1d; 182) Control (n d1d; 96) STGD (n d1d; 374) Allele Prevalence 2 106delT FS NS 0 0 1 b0d;0.01 2 160 af9; 1g 3 a Splice site NS 0 0 1 b0d;0.01 3 161G 3 A Cys54Tyr NS 0 0 6 b0d;0.01 3 179C 3 T Ala60Val NS 0 0 2 b0d;0.01 3 194G 3 A Gly65Glu NS 0 0 2 b0d;0.01 3 223T 3 G Cys75Gly NS 0 0 2 b0d;0.01 3 247delCAAA FS NS 0 0 2 b0d;0.01 3 298C 3 T Ser100Pro NS 0 0 1 b0d;0.01 5 454C 3 T Arg152Stop NS 0 0 2 b0d;0.01 6 574G 3 A Ala192Thr NS 0 0 1 b0d;0.01 6 618C 3 G Ser206Arg NS 0 0 3 b0d;0.01 6 634C 3 T Arg212Cys 0.02 Yes 0 0 7 0.01 6 635G 3 A Arg212His NS 2 2 6 0.01 6 658C 3 T Arg220Cys NS 0 0 2 b0d;0.01 6 661delG FS NS 0 0 1 b0d;0.01 666delAAAGACGGTGC 6 GC FS NS 0 0 1 b0d;0.01 6 746A 3 C Asp249Gly NS 0 0 1 b0d;0.01 8 899C 3 A Thr300Asn NS 0 0 1 b0d;0.01 8 997C 3 T Arg333Trp NS 0 0 1 b0d;0.01 9 1140T 3 A Asn380Lys NS 0 0 1 b0d;0.01 9 1222C 3 T Arg408Stop NS 0 0 1 b0d;0.01 10 1268A 3 G His423Arg NS 1 0 7 0.01 10 1335C 3 G Ser445Arg NS 0 0 1 b0d;0.01 10 1344delG FS NS 0 0 1 b0d;0.01 11 1411G 3 A Glu471Lys NS 0 0 3 b0d;0.01 11 1513delATCAC FS NS 0 0 1 b0d;0.01 12 1622T 3 C Leu541Pro 0.001 Yes 0 0 11 0.01 13 1804C 3 T Arg602Trp NS 0 0 3 b0d;0.01 13 1805G 3 A Arg602Gln NS 0 0 1 b0d;0.01 13 1819G 3 T Gly607Trp NS 0 0 1 b0d;0.01 13 1823T 3 A Phe608Ile NS 0 0 1 b0d;0.01 13 1927G 3 A Val643Met NS 0 0 1 b0d;0.01 14 1989G 3 T Trp663Stop NS 0 0 1 b0d;0.01 14 2005delAT FS NS 0 0 3 b0d;0.01 14 2041C 3 T Arg681Stop NS 0 0 2 b0d;0.01 14 2147C 3 T Thr716Met NS 0 0 1 b0d;0.01 15 2291G 3 A Cys764Tyr NS 0 0 1 b0d;0.01 15 2294G 3 A Ser765Asn NS 0 0 1 b0d;0.01 15 2300T 3 A Val767Asp NS 0 0 2 b0d;0.01 16 2385del16bp FS NS 0 0 1 b0d;0.01 16 2453G 3 A Gly818Glu NS 0 0 1 b0d;0.01 16 2461T 3 A Trp821Arg NS 0 0 1 b0d;0.01 16 2546T 3 C Val849Ala NS 0 0 4 b0d;0.01 16 2552G 3 A Gly851Asp NS 0 0 1 b0d;0.01 16 2560G 3 A Ala854Thr NS 0 0 1 b0d;0.01 17 2588G 3 C Gly863Ala 0.0006 No 2 2 28 0.02 17 2617T 3 C Phe873Leu NS 0 0 1 b0d;0.01 18 2690C 3 T Thr897Ile NS 0 0 1 b0d;0.01 18 2701A 3 G Thr901Ala NS 0 1 0 b0d;0.01 18 2703A 3 G Thr901Arg NS 0 0 2 b0d;0.01 19 2828G 3 A Arg943Gln NS 20 13 37 0.05 19 2883delC FS NS 0 0 1 b0d;0.01 20 2894A 3 G Asn965Ser NS 0 0 3 b0d;0.01 19 2912C 3 A Thr971Asn NS 0 0 1 b0d;0.01 19 2915C 3 A Thr972Asn NS 0 0 1 b0d;0.01 20 2920T 3 C Ser974Pro NS 0 0 1 b0d;0.01 20 2966T 3 C Val989Ala NS 0 0 2 b0d;0.01 20 2977del8bp FS NS 0 0 1 b0d;0.01 20 3041T 3 G Leu1014Arg NS 0 0 1 b0d;0.01 21 3055A 3 G Thr1019Ala NS 0 0 1 b0d;0.01 21 3064G 3 A Glu1022Lys NS 0 0 1 b0d;0.01 21 3091A 3 G Lys1031Glu NS 0 0 1 b0d;0.01 21 3113G 3 T Ala1038Val 0.001 Yes 1 0 17 0.01 22 3205insAA FS NS 0 0 1 b0d;0.01 22 3261G 3 A Glu1087Lys NS 0 0 2 b0d;0.01 22 3322C 3 T Arg1108Cys 0.04 Yes 0 0 6 b0d;0.01 22 3323G 3 A Arg1108His NS 0 0 1 b0d;0.01 23 3364G 3 A Glu1122Lys NS 0 0 1 b0d;0.01 (continues) Exon Nucleotide Change Effect (A) (B) AMD (n d1d; 182) Control (n d1d; 96) STGD (n d1d; 374) Allele Prevalence 23 3386G 3 T Arg1129Leu NS 0 0 3 b0d;0.01 24 3531C 3 A Cys1158Stop NS 0 0 1 b0d;0.01 25 3749T 3 C Leu1250Pro NS 0 0 1 b0d;0.01 26 3835delGATTCT FS NS 0 0 1 b0d;0.01 27 3940C 3 A Pro1314Thr NS 0 1 0 b0d;0.01 28 4139C 3 T Pro1380Leu 0.001 Yes 0 0 10 0.01 28 4222T 3 C Trp1408Arg NS 0 0 2 b0d;0.01 28 4223G 3 T Trp1408Leu NS 0 0 2 b0d;0.01 28 4234C 3 T Gln1412stop NS 0 0 1 b0d;0.01 29 4297G 3 A Val1433Ile NS 1 0 0 b0d;0.01 29 4319T 3 C Phe1440Ser NS 0 0 1 b0d;0.01 30 4353 afa; 1g 3 t Splice site NS 0 0 1 b0d;0.01 30 4457C 3 T Pro1486Leu NS 0 0 1 b0d;0.01 30 4462T 3 C Cys1488Arg NS 0 0 3 b0d;0.01 30 4463G 3 T Cys1488Phe NS 0 0 2 b0d;0.01 30 4469G 3 A Cys1490Tyr NS 0 0 3 b0d;0.01 30 4531insC FS NS 0 0 2 b0d;0.01 32 4538A 3 G Gln1513Arg NS 0 0 1 b0d;0.01 30 4539 af9; 1g 3 t Splice site NS 0 0 1 b0d;0.01 31 4574T 3 C Leu1525Pro NS 0 0 1 b0d;0.01 33 4733delGTTT FS NS 0 0 1 b0d;0.01 4859delATAACAinsTCC 35 T FS NS 0 0 1 b0d;0.01 36 4909G 3 A Ala1637Thr NS 0 0 1 b0d;0.01 35 4918C 3 T Arg1640Trp NS 0 0 1 b0d;0.01 35 4919G 3 A Arg1640Gln NS 0 0 1 b0d;0.01 35 4954T 3 G Tyr1652Asp NS 0 0 1 b0d;0.01 36 5077G 3 A Val1693Ile NS 0 0 1 b0d;0.01 36 5186T 3 C Leu1729Pro NS 0 0 2 b0d;0.01 36 5206T 3 C Ser1736Pro NS 0 0 1 b0d;0.01 36 5212del11bp FS NS 0 0 1 b0d;0.01 37 5225delTGGTGGTGGGC FS NS 0 0 1 b0d;0.01 del LPA 37 5278del9bp 1760 NS 0 0 1 b0d;0.01 37 5288delG FS NS 0 0 1 b0d;0.01 38 5395A 3 G Asn1799Asp NS 0 0 1 b0d;0.01 38 5451T 3 G Asp1817Glu NS 1 0 4 b0d;0.01 39 5584 af9; 5g 3 a Splice site 0.02 Yes 0 0 6 b0d;0.01 40 5603A 3 T Asn1868Ile 0.0006 No 20 7 79 0.08 40 5651T 3 A Val1884GLu NS 0 0 1 b0d;0.01 40 5657G 3 A Gly1886Glu NS 0 0 1 b0d;0.01 40 5687T 3 A Val1896Asp NS 0 0 1 b0d;0.01 40 5693G 3 A Arg1898His NS 0 0 1 b0d;0.01 40 5714 af9; 5g 3 a Splice site NS 0 0 1 b0d;0.01 42 5843CA 3 TG Pro1948Leu NS 11 7 28 0.04 42 5882G 3 A Gly1961Glu b0d;0.0001 Yes 1 0 43 0.03 43 5908C 3 T Leu1970Phe NS 1 0 1 b0d;0.01 43 5917delG FS NS 0 0 1 b0d;0.01 44 6079C 3 T Leu2027Phe 0.01 Yes 0 0 9 0.01 44 6088C 3 T Arg2030Stop NS 0 0 2 b0d;0.01 44 6089G 3 A Arg2030Gln NS 0 0 1 b0d;0.01 44 6112A 3 T Arg2038Trp NS 0 0 1 b0d;0.01 45 6148A 3 C Val2050Leu NS 1 0 0 b0d;0.01 46 6212A 3 T Tyr2071Phe NS 0 0 1 b0d;0.01 45 6229C 3 T Arg2077Trp NS 0 0 2 b0d;0.01 46 6320G 3 A Arg2107His 0.01 Yes 0 0 10 0.01 46 6383A 3 G His2128Arg NS 0 0 1 b0d;0.01 47 6446G 3 T Arg2149Leu NS 0 0 1 b0d;0.01 47 6449G 3 A Cys2150Tyr NS 0 0 5 b0d;0.01 48 6529G 3 A Asp2177Asn NS 2 0 0 b0d;0.01 48 6686T 3 C Leu2229Pro NS 0 0 1 b0d;0.01 48 6707delTCACACAG FS NS 0 0 1 b0d;0.01 48 6729 af9; 1g 3 a Splice site NS 0 0 1 b0d;0.01 49 6764G 3 T Ser2255Ile 0.009 No 16 4 54 0.06 49 6788G 3 T Arg2263Leu NS 0 0 1 b0d;0.01 (A) The probability under the null hypothesis of similar prevalence of each variant in Stargardt (STGD) compared with non-STGD alleles (two-tailed Fisher`s exact test); (B) compatability of the variant existing in a ratio of 100:1 in STGD to control alleles, calculated using the binomial distribution.
X
ABCA4 p.Arg1640Trp 11328725:103:4291
status: NEW
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PMID: 10634594 [PubMed] Papaioannou M et al: "An analysis of ABCR mutations in British patients with recessive retinal dystrophies."
No. Sentence Comment
45 Neither of these putative TABLE 1. List of Mutations Found in 70 Patients of British Origin Nucleotide Change Amino Acid Change No. of Patients (/70) Phenotype No. of Controls (/96) G161A Cys-54-Tyr 1 STG/FFM NF A286G Asn-96-Asp 1 STG/FFM NF A286C Asn-96-His 1 STG/FFM NF A466G Ile-156-Val 1 STG/FFM NF C1220T Ala-407-Val 6 STG/FFM, arCRD NF T1271C Val-424-Ala 2 STG/FFM, arRP NF C1335G Ser-445-Arg 1 STG/FFM NF C1804T Arg-602-Trp 1 STG/FFM NF C2337A Cys-779-Ter 1 STG/FFM NF *G2588C Gly-863-Ala 5 STG/FFM 2/176 3392delC 1147 Ter 1 STG/FFM NF T4286C Val-1429-Ala 1 STG/FFM NF 4774-2A3C Splice acceptor 2 STG/FFM NF †C4918T Arg-1640-Trp 1 STG/FFM NF C5107G Gln-1703-Lys 1 STG/FFM NF 5161delAC Frameshift 1 STG/FFM NF C5337G Tyr-1779-Ter 1 STG/FFM NF C6088T Arg-2030-Ter 1 arCRD NF 6282ϩ7G3A Splice donor 1 STG/FFM NF G6449A Cys-2150-Tyr 2 arCRD NF A6479G Lys-2160-Arg 1 STG/FFM NF * Independently reported by Allikmets et al.6 † Independently reported by Rozet et al.8 NF, not found in 96 ethnically matched control individuals.
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ABCA4 p.Arg1640Trp 10634594:45:630
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PMID: 23499370 [PubMed] Fujinami K et al: "A longitudinal study of stargardt disease: clinical and electrophysiologic assessment, progression, and genotype correlations."
No. Sentence Comment
89 Clinical Data and Molecular Genetic Status of 59 Patients With Stargardt Disease Pt Onset (y) Age (y) logMAR VA Variants Identifieda BL FU BL FU 1 16 17 26 0.0/1.0 0.0/0.48 c.768G>T / p.Gly863Ala / p.Arg943Gln 2 15 17 25 0.78/0.78 1.0/1.0 p. Arg1443His 3 11 18 27 0.78/1.0 1.0/1.0 p.Trp439* / p.Gly863Ala / p.Leu1970Phe 4 19 21 32 0.78/0.78 1.0/1.0 p.Leu2027Phe 5 10 22 30 0.48/0.48 1.0/0.78 p.Gly863Ala / p.Arg943Gln / c.5461-10 T>C 6 18 26 37 0.78/1.0 1.0/1.0 p.Pro1380Phe 7 25 28 40 0.78/1.0 1.3/0.78 ND 8 24 29 38 1.0/0.78 1.0/1.0 p.Phe418Ser / p.Leu2027Phe 9 24 31 44 1.0/1.0 1.3/1.0 c.4253&#fe;5 G>T / p.Gly1507Arg 10 26 32 44 0.78/0.78 1.0/1.0 p.Cys1490Tyr / p.Arg2030Gln 11 31 34 46 0.18/0.3 0.6/0.7 ND 12 17 35 47 1.0/1.0 1.0/1.0 p.Asn96His 13 23 35 45 1.0/0.3 1.0/0.48 p.Gly1513Profs*1554 14 33 37 48 0.18/1.48 1.0/1.3 ND 15 38 40 51 0.18/0.78 1.0/1.0 p.Arg2107His 16 42 43 53 0.0/0.0 1.0/1.0 ND 17 22 48 59 1.0/1.0 1.0/1.0 p.Cys54Tyr 18 20 49 59 1.0/0.6 1.0/1.0 p.Pro1380Leu / p.Gly1961Glu 19 35 50 61 1.0/0.3 1.0/1.0 p.Arg1108Cys 20 25 56 67 1.3/0.18 1.0/1.0 p.Trp439* / p.Gly863Ala 21 48 59 71 1.0/0.78 1.0/1.0 p. Ile156 Val / p. Cys1455Arg / p. Phe1839Ser 22 21 22 31 0.3/1.0 1.0/1.0 p.Arg2107His 23 21 23 33 1.0/1.0 1.0/1.0 p.Gly863Ala 24 48 64 73 0.0/1.0 0.18/3.0 p.Tyr1652* 25 17 19 29 0.78/0.3 1.0/1.0 c.5461-10 T>C 26 17 21 33 1.0/0.78 1.0/1.0 ND 27 27 53 66 1.78/1.78 1.3/1.0 p.Ser1071Cysfs*1084 28 5 14 21 0.78/0.78 1.0/1.0 p.Arg408* / p.Val675lle 29 9 15 27 1.08/1.08 1.0/1.0 p.Cys2150Tyr 30 14 24 32 1.0/0.78 1.0/1.0 ND 31 18 28 39 1.0/1.0 1.0/1.0 p.Gly863Ala / p.Arg1108Cys / p.Arg943Gln 32 14 29 37 1.0/1.0 1.0/1.0 p.Arg653Cys / p.Arg2030Gln 33 19 29 40 1.0/1.0 1.0/1.08 ND 34 34 40 49 0.3/0.48 1.0/1.0 p.Gly863Ala / p.Glu1087Lys 35 25 43 54 1.0/1.0 1.0/1.0 p.Cys54Tyr / p.Gly863Ala 36 38 60 69 1.0/1.0 1.3/1.08 p.Val931Met / c.5461-10 T>C 37 10 11 20 1.0/0.78 1.3/1.3 p.Pro1380Leu 38 10 15 23 1.0/1.0 1.3/1.3 p.Ser1071Cysfs*1084 / p.Pro1380Leu 39 24 25 38 1.56/0.3 2.0/2.0 c.5461-10 T>C / c.5714&#fe;5 G>A 40 18 26 36 1.3/1.3 2.0/1.3 ND 41 32 33 45 0.48/0.48 1.0/1.0 ND 42 32 35 46 1.3/0.0 3.0/1.0 p.Cys54Tyr 43 30 35 45 0.48/0.48 2.0/1.3 ND 44 15 41 49 1.3/1.3 2.0/1.3 p.Asn965Ser 45 8 8 20 0.78/0.78 1.0/1.0 p.Thr1019Met 46 10 11 23 1.0/1.0 1.0/1.0 p.Thr1019Met 47 8 12 24 2.0/1.56 1.78/1.48 p.Cys2150Tyr 48 17 18 26 1.0/0.78 1.3/1.0 c.5461-10 T>C / p.Leu2027Phe 49 8 21 33 1.3/1.3 2.0/2.0 p.Asp574Aspfs*582 50 8 27 39 2.0/1.56 1.78/1.48 c.5461-10 T>C 51 24 31 43 1.18/1.18 1.08/1.3 p.Arg1640Trp / p.Leu2027Phe Continued on next page respective electrophysiologic traces appear in Figure 2.
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ABCA4 p.Arg1640Trp 23499370:89:2513
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PMID: 23769331 [PubMed] Fujinami K et al: "The clinical effect of homozygous ABCA4 alleles in 18 patients."
No. Sentence Comment
7 Results: Eleven disease-associated homozygous ABCA4 alleles were identified, including 1 frame shift, 2 stops, 1 intronic variant causing splice-site alteration, 2 complex missense variants, and 5 missense variants: p.Glu905fsX916, p.Arg1300X, p.Gln2220X, c.4253&#fe;4 C>T, p.Leu541Pro and p.Ala1038Val (homozygosity for complex allele), p.Val931Met and p.Arg1705Gln (complex allele), p.Arg212Cys, p.Cys1488Arg, p.Arg1640Trp, p.Gly1961Glu, and p.Leu2027Phe.
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ABCA4 p.Arg1640Trp 23769331:7:414
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10 Two patients with homozygous missense variants (p.Leu541Pro and p.Ala1038Val [complex], and p.Arg1640Trp) presented with a severe phenotype.
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ABCA4 p.Arg1640Trp 23769331:10:94
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60 Sex Ethnicity Consanguinity Age at Onset (yrs) Age (yrs) Duration of Disease (yrs) LogMAR VA Fundus Appearance AF Pattern ERG Group OCT Central Foveal Thickness (mm) Mutation Status RE LE RE LE 1 1 M S Asian Yes (1st cousin) 11 33 22 1.0 1.0 2 2 1 64 69 c.634 C>T, p.Arg212Cys 2 1 F S Asian Yes (1st cousin) 11 36 25 1.0 1.0 2 2 3 31 41 c.634 C>T, p.Arg212Cys 3* 2 M European No 3 8 5 1.2 1.2 2 2 3y 41 36 c.1622 T>C, p.Leu541Pro / c.3113 C>T, p.Ala1038Val 4 3 F S Asian Yes (2nd cousin once removed) 5 8 3 1.0 1.0 2 2 3 NA NA c.2713delG, p.Glu905fsX916 5 4 M S Asian Yes (unknown) 10 25 15 1.0 1.08 2 2 3 64 60 c.2791 G>A, p.Val931Met / c.5114 G>A, p.Arg1705Gln 6 5 M S Asian Yes (1st cousin) 10 30 20 1.0 1.0 2 2 3 NA NA c.4462 T>C, p.Cys1488Arg 7 5 F S Asian Yes (1st cousin) 10 22 12 2.0 1.0 2 2 3 NA NA c.4462 T>C, p.Cys1488Arg 8 6 M ME Asian Yes (1st cousin) 30 36 6 1.08 2.0 3 3 3 103 95 c.4918 C>T, p.Arg1640Trp 9 7 F S Asian Yes (2nd cousin) 19 27 8 1.78 2.0 1 2 1 128 90 c.5882 G>A, p.Gly1961Glu 10 7 M S Asian Yes (2nd cousin) 30 34 4 0.48 0.48 1 2 1 NA NA c.5882 G>A, p.Gly1961Glu 11 8 F S Asian Yes (1st cousin) 17 26 9 0.78 0.78 1 1 1 54 47 c.5882 G>A, p.Gly1961Glu 12 9 F European No 44 44 0 0.18 0.0 2 2 1 NA NA c.6079 C>T, p.Leu2027Phe 13 10 M ME Asian Yes (1st cousin) 5 11 6 1.3 1.0 3 2 3 62 68 c.3898 C>T, p.Arg1300X 14 11 M S Asian Yes (unknown) 8 11 3 1.0 1.0 2 2 3 NA NA c.4253&#fe;4 C>T 15 12 M S Asian Yes (1st cousin) 9 48 39 3.0 3.0 3 NA 3 NA NA c.6658 C>T, p.Gln2220X 16 13 M S Asian Yes (uncle and niece) 4 7 3 1.08 1.08 1 NA 3 NA NA c.6658 C>T, p.Gln2220X 17 13 M S Asian Yes (uncle and niece) 6 8 2 1.08 1.0 1 NA 3 NA NA c.6658 C>T, p.Gln2220X 18 13 M S Asian Yes (1st cousin) 17 25 8 1.78 1.78 3 NA 3 NA NA c.6658 C>T, p.Gln2220X AF &#bc; autofluorescence; ERG &#bc; electroretinography; F &#bc; female; FM No.
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ABCA4 p.Arg1640Trp 23769331:60:909
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101 Patient 8, homozygous for p.Arg1640Trp, had severe disease but of adult onset: visual acuity Figure 4.
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ABCA4 p.Arg1640Trp 23769331:101:28
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121 These findings are similar to genetically identical patients reported by Wiszniewski et al.22 A very severe phenotype also was observed in patient 8 (p.Arg1640Trp), in keeping with the severe findings of genetically identical subjects, homozygous for p.Arg1640Trp, in a previous report by Briggs et al.10 In contrast, patients with homozygous null variants consistently showed a very severe phenotype: 6 of 7 had early-onset disease (<10 years), and all 7 had electrophysiologic evidence of generalized rod and cone system dysfunction.
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ABCA4 p.Arg1640Trp 23769331:121:152
status: NEW
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ABCA4 p.Arg1640Trp 23769331:121:253
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PMID: 23953153 [PubMed] Fujinami K et al: "Clinical and molecular analysis of Stargardt disease with preserved foveal structure and function."
No. Sentence Comment
47 6089 G>A, p.Arg2030Gln/c.6118 C>T, p.Arg2040*] 8 39 44 0.1 0.1 4 297 230 U 3 A A NA NA [c.71 G>A, p.Arg24His/c.4577 C>T, p. Thr1526Met] 9 35* 35 0.18 0.18 2 142 154 3 ND ND NA NA [c.658 C>T, p.p.Arg220Cys/c.2588 G>C, p. Gly863Ala] 10 45 54 0.48 0.18 1 102 116 3 ND A NA NA [c.1957 C>T, p.Arg653Cys/c.5693 G>A, p.Arg1898His] 11 43 43 0.1 0 2 170 185 1 A A 2 2 [c.2588 G>C, p. Gly863Ala/c.4139 C>T, p.Ala1038Val] 12 36** 38 0.3 0 1 220 212 U 1 A A 1 1 [c.4139 C>T, p.Ala1038Val/c.4594 G>T, p.Asp1532Asn] 13 62 68 0.1 0.48 1 196 189 U 1 N N 2 2 [c.4222 T>C, p.Trp1408Arg/c.4918 C>T, p.Arg1640Trp] 14 36 44 0.48 0.48 3 79 89 1 A A NA NA [c.4222 T>C, p.Trp1408Arg/c.4918 C>T, p.Arg1640Trp] 15 46* 46 0.1 0.1 3 NA NA 1 A A NA NA [c.4469 G>A, p.Cys1490Tyr/c.
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ABCA4 p.Arg1640Trp 23953153:47:586
status: NEW
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ABCA4 p.Arg1640Trp 23953153:47:677
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127 2588G>C, p.Gly863Ala 4 Het Allikmets46 Intol. 0.01 PRD 0.996 No change 68/13006 db SNP (rs76157638) 21 c.3113C>T, p.Ala1038Val 1 Het Webster53 Tol. NA Benign 0.014 Donor 43.5 70 New site (&#fe;61.72) 22/13006 db SNP (rs61751374) 24 c.3602T>G, p.Leu1201Arg 2 Het Lewis48 Tol. NA Benign 0.052 Donor 61.3 74 New site (&#fe;20.08) 416/13006 db SNP (rs61750126) 27 c.3898C>T, p.Arg1300* 1 Het Rivera49 NA NA ND 28 c.4139C>T, p.Pro1380Leu 2 Het Lewis48 Intol. 0.01 Benign 0.377 No change 2/13006 db SNP (rs61750130) 28 c.4222 T>C, p.Trp1408Arg 2 Het Lewis48 Tol. NA PRD 0.845 No change ND dbSNP (rs61750135) 29 c.4319T>C, p.Phe1440Ser 1 Het Lewis48 Tol. NA PRD 0.744 No change ND dbSNP (rs61750141) 30 c.4469G>A, p.Cys1490Tyr 1 Het Webster53 Intol. 0.03 PRD 0.994 No change ND dbSNP (rs61751402) 31 c.4577C>T, p.Thr1526Met 1 Het Lewis48 Intol. 0.00 PRD 0.91 No change ND db SNP (rs61750152) 31 c.4594G>T, p.Asp1532Asn 3 Het Lewis48 Tol. NA PRD 0.853 No change ND 33 c.4685T>C, p.Ile1562Thr 1 Het Allikmets46 Tol. NA Benign 0.034 No change 18/13006 db SNP (rs1762111) 35 c.4956T>G, p.Tyr1652* 1 Het Fumagalli52 NA NA Acceptor 43 72 New site (&#fe;67.36) ND 35 c.4918C>T, p.Arg1640Trp 2 Het Rozet47 Intol. 0.00 PRD 1 No change ND dbSNP (rs61751404) 35 c.4926C>G, p.Ser1642Arg 1 Het Birch50 Tol. 0.68 Benign 0.116 No change ND db SNP (rs61753017) Int 35 c.5018&#fe;2T>C, Splice site 1 Het Fumagalli52 NA NA Donor 81.2 54 WT site broken (33.07) ND Int 38 c.5461-10T>C 3 Het Briggs50 NA NA No change 3/13006 db SNP (rs1800728) 40 c.5693G>A, p.Arg1898His 2 Het Allikmets46 NA Benign 0.00 No change 25/13006 db SNP (rs1800552) 42 c.5882G>A, p.Gly1961Glu 1 Het Allikmets46 Tol. 0.18 PRD 1 No change 41/13006 db SNP (rs1800553) 44 c.6079C>T, p.Leu2027Phe 4 Homo Lewis48 Intol. 0.02 PRD 0.999 No change 4/13006 db SNP (rs61751408) 44 c.6089G>A, p.Arg2030Gln 4 Het Lewis48 Tol. NA PRD 0.995 No change 8/13006 db SNP (rs61750641) 44 c.6118C>T, p.Arg2040* 1 Het Rosenberg54 NA NA ND 46 c.6320G>A, p.Arg2107His 1 Het Fishman8 Intol. 0.00 PRD 0.996 No change 91/13006 db SNP (rs62642564) EVS &#bc; Exome Variant Server; HSF &#bc; Human Splicing Finder program; Hum var score &#bc; Human var score; Int &#bc; intron; Intol &#bc; intolerant; Mt CV &#bc; mutant consensus value; NA &#bc; not applicable; ND &#bc; not detected; PRD &#bc; probably damaging; Pred. &#bc; prediction; SIFT &#bc; Sorting Intolerant from Tolerance program; Tol. &#bc; tolerant; Wt CV &#bc; wild-type consensus value.
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ABCA4 p.Arg1640Trp 23953153:127:1166
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142 Allele Frequencies of 72 ABCA4 Variants Identified in a Comparison Groupa With the Typical Stargardt Disease (140 Patients Without Evidence of Foveal Sparing on Autofluorescence Imaging) (Continued) Exon Nucleotide Substitution and Amino Acid Change Number of Alleles Allele Frequency Int 33 c.4773&#fe;48C>T 1 0.36% 34 c.4793C>A, p.Ala1598Asp 1 0.36% 35 c.c.4918C>T, p.Arg1640Trp 1 0.36% Int 35 c.5018&#fe;2T>C, Splice site 2 0.71% 36 c.5114G>A, p.Arg1705Gln 2 0.71% 37 c.5222_5233delTGGTGGTGGGC, p.Lys1741Hisfs 1 0.36% 37 c.5281_5289delCTT CCT GCC, p.Pro1761_Leu1763del 2 0.71% Int 38 c.5461-10T>C 23 8.21% Int 39 c.5585-1G>A, Splice site 1 0.36% Int 40 c.5714&#fe;5G>A, Splice site 5 1.79% 42 c.5882G>A, p.Gly1961Glu 17 6.07% 43 c.5908C>T, p.Leu1970Phe 2 0.71% 43 c.5917delG, p.Val1973* 1 0.36% 44 c.6079C>T, p.Leu2027Phe 10 3.57% 44 c.6089G>A, p.Arg2030Gln 3 1.07% 44 c.6118C>T, p.Arg2040* 1 0.36% 45 c.6148G>C, p.Val2050Leu 3 1.43% 46 c.6286G>A, p.Glu2096Lys 1 0.36% 46 c.6320G>A, p.Arg2107His 4 1.43% 47 c.6445C>T, p.Arg2149* 1 0.36% 47 c.6449G>A, p.Cys2150Tyr 3 1.07% 48 c.6658C>T, p.Gln2220* 3 1.07% 48 c.6709_6710insG, p.Thr2237Serfs 1 0.36% Int &#bc; Intron.
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ABCA4 p.Arg1640Trp 23953153:142:370
status: NEW
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PMID: 24071957 [PubMed] Duncker T et al: "Distinct characteristics of inferonasal fundus autofluorescence patterns in stargardt disease and retinitis pigmentosa."
No. Sentence Comment
51 Summary of Demographic, Clinical, and Genetic Data Patient Condition ABCA4 Mutations Sex Age, y Eye Iris Color Race/Ethnicity BCVA Snellen (logMAR) P1 STGD1 p.P1380L, p.G1961E M 12 OS Blue White 20/100 (0.70) P2 STGD1 p.P1380L, p.G1961E F 17 OS Brown White 20/150 (0.88) P3 STGD1 p.Q1003X, p.G1961E M 25 OS Brown White 20/40 (0.30) P4 STGD1 p.C54Y F 48 OD Blue White 20/30 (0.20) P5 STGD1 p.R2077W F 52 OD Blue White 20/40 (0.30) P6 STGD1 p.[L541P;A1038V] M 13 OS Brown White 20/150 (0.88) P7 STGD1 p.T972N, p.L2027F F 14 OS Blue White 20/80 (0.60) P8 STGD1 c.4537_4538insC, p.V1686M M 49 OS Brown White 20/50 (0.40) P9 STGD1 p.R1108H, p.P1380L M 50 OS Blue White 20/200 (1.00) P10 STGD1 c.5714&#fe;5G>A F 34 OD Blue White 20/200 (1.00) P11 STGD1 p.Q636H, p.G1961E M 46 OD Brown Indian 20/400 (1.30) P12 STGD1 c.5461-10T>C M 35 OD Brown Black 20/400 (1.30) P13 STGD1 p.R1640W F 20 OD Brown Black 20/125 (0.80) P14 STGD1 p.R290W M 47 OS Brown White 20/40 (0.30) P15 STGD1 p.A1773V, p.G1961E M 18 OD Brown White 20/150 (0.88) P16 AD RP p.T17M* F 23 OD Brown Hispanic 20/30 (0.20) P17 AD RP N/A M 39 OS Brown White 20/20 (0.00) P18 AR RP N/A M 50 OS Green White 20/20 (0.00) AD, autosomal dominant; AR, autosomal recessive; BCVA, best corrected visual acuity; F, female; logMAR, logarithm of the minimum angle of resolution; M, male; N/A, not available.
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ABCA4 p.Arg1640Trp 24071957:51:869
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PMID: 24677105 [PubMed] Burke TR et al: "Quantitative fundus autofluorescence in recessive Stargardt disease."
No. Sentence Comment
48 Four other mutations were found in two to four patients: R1640W (four patients from three families); Y1557C (two patients from one family); G851D (two patients from one family); and R2030Q (two patients from two families).
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ABCA4 p.Arg1640Trp 24677105:48:57
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81 [L541P; A1038V]; p.R1640W 911 3.3 11.2 F 10 4 1.00 1.00 II - p.
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ABCA4 p.Arg1640Trp 24677105:81:19
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82 [L541P; A1038V]; p.R1640W 850 4.4 12 F 27 9 1.30 1.00 - III p.P1380L; p.P1380L 577 4.8 13 F 39 8 0.12 0.00 - I c.250_251insCAAA 616 2.3 14 M 23 4 0.88 0.60 - II p.C54Y 535 5.1 15.1 M 49 17 1.00 0.88 I I p.Y1557C 646 604 4.1 3.9 15.2 M 46 7 0.10 0.48 I I p.Y1557C 456 508 2.6 2.3 16.1 F 27 14 0.88 0.88 III III p.L2027F; p.G851D 448 459 6.0 6.3 16.2 F 29 19 1.30 1.18 III III p.L2027F; p.G851D 538 569 7.4 7.9 17 M 22 18 1.30 1.00 III III p.P1380L; p.R2030Q 434 411 5.7 6.0 18 M 37 16 0.70 0.70 I I p.G1961E; p.G1961E 281 279 2.6 2.2 19 F 33 5 0.88 0.70 I I p.G1961E; c.4540-2A > G 412 420 2.5 2.8 20 F 26 12 0.60 0.60 - I p.G1961E; p.
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ABCA4 p.Arg1640Trp 24677105:82:19
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83 [L541P; A1038V] 398 2.4 21 F 45 31 0.88 0.88 I I p.R1640W 647 613 2.6 2.8 22 M 43 7 1.00 0.00 - III p.A1773V; p.G1591G 640 6.9 23 F 41 1 0.10 CF II II p.P1486L; p.A1598D 613 572 6.0 6.5 24 F 19 4 0.60 0.70 I - p.G1961E; p.P1380L 368 2.4 25 F 23 4 0.88 0.80 - I p.
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ABCA4 p.Arg1640Trp 24677105:83:51
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85 [L541P; A1038V]; p.L2027F 733 749 3.9 4.0 36 F 20 7 0.88 1.00 II II p.R1640W 571 552 3.4 3.8 37 F 12 3 0.80 0.80 I I p.R1108C; p.Q1412* 536 501 1.7 1.7 * All subjects were white, except for patients 10, 22, and 36 who were Indian, Hispanic, and black, respectively.
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ABCA4 p.Arg1640Trp 24677105:85:70
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180 The mutations were confirmed in six or more patients (G1961E, L541P/A1038V, L2027F, and P1380L) or in two to four patients (R1640W, Y1557C, G851D, and R2030Q).
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ABCA4 p.Arg1640Trp 24677105:180:124
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PMID: 25082885 [PubMed] Alapati A et al: "Molecular diagnostic testing by eyeGENE: analysis of patients with hereditary retinal dystrophy phenotypes involving central vision loss."
No. Sentence Comment
39 Mutations and Unknown Variants Detected in Patients With Central Vision Loss Patient Gene Exon DNA Change Protein Change Genotype Result PolyPhen Description PolyPhen Score Molecular Diagnosis Late-onset retinal degeneration NA CTRP5 NA NA NA NA NA NA Sorsby fundus dystrophy Patient 1 TIMP3 1 c.113C>G p.Ser38Cys Het vAR/us Probably damaging 1 Positive Patient 2 TIMP3 1 c.113C>G p.Ser38Cys Het vAR/us Probably damaging 1 Positive Patient 3 TIMP3 5 c.610A>T p.Ser204Cys Het Mut Positive Doyne honeycomb dystrophy Patient 1 EFEMP1 9 c.1033C>T p.Arg345Trp Het Mut Positive Patient 2 EFEMP1 9 c.1033C>T p.Arg345Trp Het Mut Positive Patient 3 EFEMP1 IVS10 c.IVS10-14C>T None Het vAR/us NA NA Unconfirmed Best macular dystrophy Patient 1 BEST1 2 c.28G>A p.Ala10Thr Het Mut Positive Patient 2 BEST1 2 c.47C>T p.Ser16Phe Het Mut Positive Patient 3 BEST1 2 c.72G>T p.Trp24Cys Het Mut Positive Patient 4 BEST1 3 c.240C>A p.Phe80Leu Het Mut Positive Patient 5 BEST1 3 c.240C>A p.Phe80Leu Het Mut Positive Patient 6 BEST1 4 c.248G>C p.Gly83Ala Het vAR/us Probably damaging 1 Positive Patient 7 BEST1 4 c.277T>C p.Trp93Arg Het vAR/us Probably damaging 1 Positive Patient 8 BEST1 4 c.279G>C p.Trp93Cys Het Mut Positive Patient 9 BEST1 6 c.652C>T p.Arg218Cys Het Mut Positive Patient 10 BEST1 6 c.652C>T p.Arg218Cys Het Mut Positive Patient 11 BEST1 6 c.680A>G p.Tyr227Cys Het Mut Positive Patient 12 BEST1 6 c.741G>A p.Arg218His Het Mut Positive Patient 13 BEST1 6 c.741G>A p.Arg218His Het Mut Positive Patient 14 BEST1 7 c.727G>A p.Ala243Thr Het Mut Positive Patient 15 BEST1 7 c.727G>A p.Ala243Thr Het Mut Positive Patient 16 BEST1 7 c.728C>T p.Ala243Val Het Mut Positive Patient 17 BEST1 7 c.728C>T p.Ala243Val Het Mut Positive Patient 18 BEST1 8 c.880C>T p.Leu294Phe Het vAR/us Probably damaging 1 Positive Patient 19 BEST1 8 c.887A>G p.Asn296Ser Het Mut Positive Patient 20 BEST1 8 c.903T>G p.Asp301Glu Het Mut Positive Patient 21 BEST1 8 c.903T>G p.Asp301Glu Het Mut Positive Patient 22 BEST1 8 c.910G>A p.Asp304Asn Het Mut Positive Patient 23 BEST1 8 c.925T>C p.Trp309Arg Het vAR/us Probably damaging 1 Positive Patient 24 BEST1 8 c.929T>C p.Ile310Thr Het Mut Positive Patient 25, case 3 BEST1 4 c.250T>G p.Phe84Val Het vAR/us Probably damaging 1 Positive Pattern dystrophy Patient 1 ABCA4 6 c.634C>T p.Arg212Cys Het Mut Positive ABCA4 30 c.4469G>A p.Cys1490Tyr Het Mut Patient 2 ABCA4 17 c.2588G>C p.Gly863Ala Het Mut Unconfirmed Patient 3 ABCA4 IVS26 c.3862&#fe;3A>G Abnormal splicing Het vAR/us Unconfirmed Patient 4 PRPH2 1 c.271T>A p.Tyr91Asn Het vAR/us Probably damaging 0.909 Positive PRPH2 1 c.310-313del(AT) p.Ile104Val Het Mut Patient 5, case 6 PRPH2 1 c.422A>G p.Tyr141Cys Het Mut Positive Patient 6 PRPH2 1 c.422A>G p.Tyr141Cys Het Mut Positive Patient 7 PRPH2 1 c.515G>A p.Arg172Gln Het Mut Positive Patient 8 PRPH2 2 c.583C>T p.Arg195Stop Het Mut Positive Patient 9 PRPH2 2 c.629C>G p.Pro210Arg Het Mut Positive Patient 10 PRPH2 2 c.635G>C p.Ser212Thr Het Mut Positive Patient 11 PRPH2 2 c.683C>T p.Thr228Ile Het Mut Positive Patient 12 PRPH2 2 c.708C>G p.Tyr236Stop Het Mut Positive Patient 13, case 4 PRPH2 IVS2 c.828&#fe;3A>T Splice Het Mut Positive TABLE 2. Continued Patient Gene Exon DNA Change Protein Change Genotype Result PolyPhen Description PolyPhen Score Molecular Diagnosis Patient 14 PRPH2 IVS2 c.828&#fe;3A>T Splice Het Mut Positive Patient 15 PRPH2 IVS2 c.828&#fe;3A>T Splice Het Mut Positive Patient 16 PRPH2 IVS2 c.828&#fe;3A>T Splice Het Mut Positive Patient 17, case 2 ABCA4 IVS38 c.5461-10T>C None Het Mut Unconfirmed Patient 18 PRPH2 2 c.584G>A p.Arg195Gln Het vAR/us Probably damaging 1 Positive Cone-rod dystrophy Patient 1, dominant GUCY2D 13 c.2512C>T p.Arg838Cys Het Mut Positive Patient 2, dominant GUCY2D 13 c.2513G>A p.Arg838His Het Mut Positive Patient 3, dominant GUCY2D 13 c.2513G>A p.Arg838His Het Mut Positive Patient 4, dominant GUCY2D 13 c.2513G>A p.Arg838His Het Mut Positive Patient 5, dominant GUCY2D 13 c.2513G>A p.Arg838His Het Mut Positive CRX 3 c.607T>C p.Ser213Pro Het vAR/us Probably damaging 0.999 Patient 6, recessive ABCA4 2 c.156T>G p.His52Gln Het vAR/us Probably damaging 0.998 Positive ABCA4 3 c.161G>A p.Cys54Tyr Het Mut ABCA4 28 c.4169T>C p.Leu1390Pro Het Mut Patient 7, recessive ABCA4 16 c.2385C>T p.Ser795Arg Het vAR/us Probably damaging 0.99 Positive ABCA4 IVS40 c.5714&#fe;5G>A Splice Het Mut Patient 8, recessive ABCA4 42 c.5882G>A p.Gly1961Glu Het Mut Positive ABCA4 45 c.6221G>T p.Gly2074Val Het vAR/us Probably damaging 1 Patient 9, recessive ABCA4 IVS42 c.5898&#fe;1G<A Splice Het Mut Positive ABCA4 IVS42 c.5899-2delA Splice Het Mut Patient 10, recessive ABCA4 5 c.559C>T p.Arg187Cys Het Mut Positive ABCA4 40 c.5645T>C p.Met1882Thr Het Mut Patient 11, recessive ABCA4 6 c.768G>T p.Val256Val (abnlspl) Het Mut Positive ABCA4 31 c.4577C>T p.Thr1526Met Het Mut Patient 12, recessive ABCA4 12 c.1622T>C p.Leu541Pro Het Mut Positive ABCA4 21 c.3113C>T p.Ala1038Val Het Mut ABCA4 12 c.1622T>C p.Leu541Pro Hom Mut ABCA4 21 c.3113C>T p.Ala1038Val Hom Mut ABCA4 22 c.3322C>T p.Arg1108Cys Het Mut Patient 13, recessive ABCA4 12 c.1622T>C p.Leu541Pro Hom Mut Positive ABCA4 21 c.3113C>T p.Ala1038Val Hom Mut Patient 14, recessive ABCA4 13 c.1927G>A p.Val643Met Het Mut Positive ABCA4 24 c.3602T>G p.Leu1201Arg Het Mut ABCA4 36 c.5186T>C p.Leu1729Pro Het Mut Patient 15, recessive ABCA4 23 c.3364G>A p.Glu1122Lys Het Mut Positive ABCA4 48 c.6529G>A p.Asp2177Asn Het Mut Patient 16, recessive ABCA4 35 c.4918C>T p.Arg1640Trp Het Mut Positive ABCA4 28 c.4222T>C p.Trp1408Arg Het Mut Patient 17, recessive ABCA4 11 c.1532G>A p.Arg511His Het Mut Unconfirmed Patient 18, recessive ABCA4 27 c.3899G>A p.Arg1300Gln Het vAR/us Benign 0.143 Unconfirmed Patient 19, recessive ABCA4 13 c.1933G>A p.Asp645Asn Het Mut Unconfirmed Patient 20, recessive ABCA4 35 c.4918C>T p.Arg1640Trp Het Mut Unconfirmed Patient 21, recessive ABCA4 IVS7 c.859-9T>C Unknown Hom vAR/us NA NA Unconfirmed Molecular Diagnostic Testing by eyeGENE IOVS j September 2014 j Vol. 55 j No. 9 j were screened for the p.Arg838His mutation in GUCY2D, and mutations in the CRX, ELOVL4, PRPH2, and/or ABCA4 genes.
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ABCA4 p.Arg1640Trp 25082885:39:5478
status: NEW
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ABCA4 p.Arg1640Trp 25082885:39:5825
status: NEW
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116 Mutations or Unknown Variants Detected in Patients With Central Vision Loss Gene Exon DNA Change Protein Change Genotype Result PolyPhen Description PolyPhen Score Frequency* Variant ID Late-onset retinal degeneration CTRP5 NA NA NA NA NA NA NA NA NA Sorsby fundus dystrophy TIMP3 1 c.113C>G p.Ser38Cys Het vAR/us Probably damaging 1 2 TIMP3 5 c.610A>T p.Ser204Cys Het Mut 1 CM941325/ rs137853298 Doyne honeycomb dystrophy EFEMP1 9 c.1033C>T p.Arg345Trp Het Mut 2 CM990504 EFEMP1 IVS10 c.IVS10-14C>T None Het vAR/us NA NA 1 Best macular dystrophy BEST1 2 c.28G>A p.Ala10Thr Het Mut 1 CM982017 BEST1 2 c.47C>T p.Ser16Phe Het Mut 1 CM010520 BEST1 2 c.72G>T p.Trp24Cys Het Mut 1 CM982018 BEST1 3 c.240C>A p.Phe80Leu Het Mut 2 CM004423 BEST1 4 c.248G>C p.Gly83Ala Het vAR/us Probably damaging 1 1 BEST1 4 c.277T>C p.Trp93Arg Het vAR/us Probably damaging 1 1 BEST1 4 c.279G>C p.Trp93Cys Het Mut 1 rs28940273/ CM982021 BEST1 6 c.652C>T p.Arg218Cys Het Mut 2 CM982023 BEST1 6 c.680A>G p.Tyr227Cys Het Mut 1 CM982024 BEST1 6 c.741G>A p.Arg218His Het Mut 2 CM003486 BEST1 7 c.727G>A p.Ala243Thr Het Mut 2 CM004434 BEST1 7 c.728C>T p.Ala243Val Het Mut 2 rs28940570/ CM00841 BEST1 8 c.880C>T p.Leu294Phe Het vAR/us Probably damaging 1 1 BEST1 8 c.887A>G p.Asn296Ser Het Mut 1 CM010524 BEST1 8 c.903T>G p.Asp301Glu Het Mut 2 CM991243 BEST1 8 c.910G>A p.Asp304Asn Het Mut 1 CM024219 BEST1 8 c.925T>C p.Trp309Arg Het vAR/us Probably damaging 1 1 BEST1 8 c.929T>C p.Ile310Thr Het Mut 1 CM000843 BEST1 4 c.250T>G p.Phe84Val Het vAR/us Probably damaging 1 1 Pattern dystrophy ABCA4 6 c.634C>T p.Arg212Cys Het Mut 1 rs61750200 ABCA4 17 c.2588G>C p.Gly863Ala Het Mut 1 CM970003/ rs76157638 ABCA4 IVS26 c.3862&#fe;3A>G Abnormal splicing Het vAR/us 1 NA ABCA4 30 c.4469G>A p.Cys1490Tyr Het Mut 1 CM990056/ rs61751402 ABCA4 IVS38 c.5461-10T>C None Het Mut 1 CS057513 PRPH2 1 c.271T>A p.Tyr91Asn Het vAR/us Probably damaging .909 1 PRPH2 1 c.310-313del(AT) p.Ile104Val Het Mut 1 NA/Deletion PRPH2 1 c.422A>G p.Tyr141Cys Het Mut 2 CM010125/ rs61755781 PRPH2 1 c.515G>A p.Arg172Gln Het Mut 1 CM930637/ rs61755792 PRPH2 2 c.583C>T p.Arg195Stop Het Mut 1 CM032999 PRPH2 2 c.629C>G p.Pro210Arg Het Mut 1 CM941210 PRPH2 2 c.635G>C p.Ser212Thr Het Mut 1 CM971289/ rs61755801 PRPH2 2 c.683C>T p.Thr228Ile Het Mut 1 TMP_ESP_6_ 42672248 PRPH2 2 c.708C>G p.Tyr236Stop Het Mut 1 rs61755813 PRPH2 IVS2 c.828&#fe;3A>T Splice Het Mut 4 CS010139 PRPH2 2 c.584G>A p.Arg195Gln Het vAR/us Probably damaging 1 1 TABLE 3. Continued Gene Exon DNA Change Protein Change Genotype Result PolyPhen Description PolyPhen Score Frequency* Variant ID Cone-rod dystrophy ABCA4 2 c.156T>G p.His52Gln Het vAR/us Probably damaging 0.998 1 ABCA4 3 c.161G>A p.Cys54Tyr Het Mut 1 CM990012/ rs150774447 ABCA4 28 c.4169T>C p.Leu1390Pro Het Mut 1 CM014810/ rs61752430 ABCA4 16 c.2385C>T p.Ser795Arg Het vAR/us Probably damaging 0.99 1 ABCA4 IVS40 c.5714&#fe;5G>A Splice Het Mut 1 CS982057 ABCA4 27 c.3899G>A p.Arg1300Gln Het vAR/us Benign 0.143 1 ABCA4 32 c.4661A>G p.Glu1554Gly Het vAR/us Benign 0.326 1 ABCA4 30 c.4383G>A p.Trp1461Stop Het Mut 1 Stop/NA ABCA4 IVS38 c.5461-10T>C None Het Mut NA NA 2 CS057513 ABCA4 22 c.3259G>A p.Glu1087Lys Het Mut 1 CM970008/ rs61751398 ABCA4 42 c.5882G>A p.Gly1961Glu Het Mut 2 CM970016/ rs1800553 ABCA4 45 c.6221G>T p.Gly2074Val Het vAR/us Probably damaging 1 1 ABCA4 IVS42 c.5898&#fe;1G<A Splice Het Mut 1 CS011524 ABCA4 IVS42 c.5899-2delA Splice Het Mut 1 rs3112831 CRX 3 c.607T>C p.Ser213Pro Het vAR/us Probably damaging 0.999 1 ABCA4 5 c.559C>T p.Arg187Cys Het Mut 1 COSM913472 ABCA4 40 c.5645T>C p.Met1882Thr Het Mut 1 rs4147830 ABCA4 6 c.768G>T p.Val256Val (abnlspl) Het Mut 1 CM990057/ rs61750152 ABCA4 31 c.4577C>T p.Thr1526Met Het Mut 1 rs62645944 ABCA4 11 c.1532G>A p.Arg511His Het Mut 1 rs140482171 ABCA4 12 c.1622T>C p.Leu541Pro Het Mut 1 CM990022/ rs61751392 ABCA4 21 c.3113C>T p.Ala1038Val Het Mut 1 CM970006/ rs61751374 ABCA4 12 c.1622T>C p.Leu541Pro Hom Mut 2 CM990022/ rs61751392 ABCA4 21 c.3113C>T p.Ala1038Val Hom Mut 2 CM970006/ rs61751374 ABCA4 22 c.3322C>T p.Arg1108Cys Het Mut 1 CM990039/ rs61750120 ABCA4 13 c.1927G>A p.Val643Met Het Mut 1 CM014293/ rs61749417/ rs143548435 ABCA4 24 c.3602T>G p.Leu1201Arg Het Mut 1 CM990042/ rs61750126 ABCA4 36 c.5186T>C p.Leu1729Pro Het Mut 1 CM990062/ rs61750567 ABCA4 13 c.1933G>A p.Asp645Asn Het Mut 1 rs617494181933 ABCA4 23 c.3364G>A p.Glu1122Lys Het Mut 1 CM990041 ABCA4 48 c.6529G>A p.Asp2177Asn Het Mut 1 CM970023/ rs1800555 ABCA4 35 c.4918C>T p.Arg1640Trp Het Mut 2 CM983728/ rs61751404 ABCA4 28 c.4222T>C p.Trp1408Arg Het Mut 1 CM990048/ rs61750135 GUCY2D 13 c.2512C>T p.Arg838Cys Het Mut 1 rs61750172 GUCY2D 13 c.2513G>A p.Arg838His Het Mut 5 CM012606/ rs61750173 ABCA4 IVS7 c.859-9T>C Unknown Hom vAR/us NA NA 1 ABCA4 42 c.5882G>A p.Gly1961Glu Hom Mut 1 CM970016/ rs1800553 ABCA4 43 c.5917delG Deletion Hom Mut 1 RISN_ABCR: c.5917delG Molecular Diagnostic Testing by eyeGENE IOVS j September 2014 j Vol. 55 j No. 9 j Six patients with late-onset retinal pathology and drusen had well-characterized clinical data.
X
ABCA4 p.Arg1640Trp 25082885:116:4491
status: NEW
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PMID: 25139735 [PubMed] Lee W et al: "The external limiting membrane in early-onset Stargardt disease."
No. Sentence Comment
90 [L541P;A1038V] p.R1640W P14 12 Caucasian 20/200 (1.00) 20/200 (1.00) 2 2 Late 6 p.
X
ABCA4 p.Arg1640Trp 25139735:90:17
status: NEW
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91 [L541P;A1038V] p.R1640W P15 16 Caucasian 20/200 (1.00) 20/200 (1.00) 2 n/a Mid-late 8 p.K346T p.T1117I P16 9 Caucasian 20/150 (0.88) 20/150 (0.88) 1 n/a 1 p.P1380L p.G1961E P17 18 Caucasian 20/40 (0.30) 20/150 (0.88) 1 1 Early 3 p.P1380L p.G1961E P18ߥ 18 Caucasian 20/150 (0.88) 20/150 (0.88) 2 1 Late 4 p.
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ABCA4 p.Arg1640Trp 25139735:91:17
status: NEW
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93 [W1408R;R1640W] P20 18 African American 20/125 (0.80) 20/50 (0.40) 2 2 Mid 5 p.R1640W ND P21 12 Caucasian 20/50 (0.40) 20/50 (0.40) 1 1 6 p.W821R p.C2150Y P22 17 Indian 20/40 (0.30) 20/100 (0.70) 1 n/a Mid 3 p.G1961E c.6729&#fe;4_&#fe;18del P23 10 Indian 20/400 (1.30) 20/400 (1.30) 2 2 Early 3 c.885delC p.R537C P24 19 Caucasian 20/20 (0.00) 20/20 (0.00) 1 n/a ND p.G863A c.5898&#fe;1G>A P25 16 Middle Eastern 20/80 (0.60) 20/100 (0.70) 1 1 4 p.A1773V p.G1961E P26 17 Caucasian 20/150 (0.88) 20/200 (1.00) 1 1 2 p.K1547* p.R2030Q ND, not determined; n/a, not available.
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ABCA4 p.Arg1640Trp 25139735:93:79
status: NEW
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