ABCD1 p.Tyr181Cys
| Predicted by SNAP2: | A: D (95%), C: D (95%), D: D (95%), E: D (95%), F: D (85%), G: D (95%), H: D (95%), I: D (91%), K: D (95%), L: D (95%), M: D (95%), N: D (95%), P: D (95%), Q: D (95%), R: D (95%), S: D (95%), T: D (95%), V: D (91%), W: D (95%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: D, T: D, V: D, W: D, |
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[hide] Mutational and protein analysis of patients and he... Am J Hum Genet. 1996 Jun;58(6):1135-44. Feigenbaum V, Lombard-Platet G, Guidoux S, Sarde CO, Mandel JL, Aubourg P
Mutational and protein analysis of patients and heterozygous women with X-linked adrenoleukodystrophy.
Am J Hum Genet. 1996 Jun;58(6):1135-44., [PMID:8651290]
Abstract [show]
X-linked adrenoleukodystrophy (ALD), a neurodegenerative disorder associated with impaired beta-oxidation of very-long-chain fatty acids (VLCFA), is due to mutations in a gene encoding a peroxisomal ATP-binding cassette (ABC) transporter (ALD protein [ALDP]). We analyzed the open reading frame of the ALD gene in 44 French ALD kindred by using SSCP or denaturing gradient-gel electrophoresis and studied the effect of mutations on ALDP by immunocytofluorescence and western blotting of fibroblasts and/or white blood cells. Mutations were detected in 37 of 44 kindreds and were distributed over the whole protein-coding region, with the exception of the C terminus encoded in exon 10. Except for two mutations (delAG1801 and P560L) observed four times each, nearly every ALD family has a different mutation. Twenty-four of 37 mutations were missense mutations leading to amino acid changes located in or close to putative transmembrane segments (TMS 2, 3, 4, and 5), in the EAA-like motif and in the nucleotide fold of the ATP-binding domain of ALDP. Of 38 ALD patients tested, 27 (71%) lacked ALDP immunoreactivity in their fibroblasts and/or white blood cells. More than half of missense mutations studied (11 of 21) resulted in a complete lack of ALDP immunoreactivity, and six missense mutations resulted in decreased ALDP expression. The fibroblasts and/or white blood cells of 15 of 15 heterozygous carrier from ALD kindred with no ALDP showed a mixture of positive- and negative-ALDP immunoreactivity due to X-inactivation. Since 5%-15% of heterozygous women have normal VLCFA levels, the immunodetection of ALDP in white blood cells can be applicable in a majority of ALD kindred, to identify heterozygous women, particularly when the ALD gene mutation has not yet been identified.
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76 58:1135-1144, 1996 Table 2 Mutations in the ALD Gene in Studied Patients AMINO ACID MUTATIONSb HOMOLOGUE INd KINDRED CLINICAL LOCALIZATION AMINO ACID ALDP BY NUMBER PHENOTYPEa DNA CpG Exon IN PROTEINC ALTERATION h/m ALDRP hPMP70 IF/WB' CALD, AMN CALD CALD CALD, AS AD CALD, AMN CALC AD AD AD ALMD CALD CALD, AMN CALD CALD, AMN, AD AMN ALMD CALD ALMD CALD AMN ALD AD, AMN, AS CALD, AS CALD CALD AD CALD AMN, ALMD CALD CALD AMN, ALMD CALD CALD, AMN, ALMD CALD CALD, ALMD, AS ALMD CALD AMN CALD, AMN AD AD AMN CALD G416A Ins T524 C679T C679T C700T C709G G732A A829G C840T Del TA927-28 A928G A985T A1048G DeIGC1080-81 C1174T G1266A ins C1521 1636delC DelAG 1801-02 DelAG 1801-02 DelAG 1801-02 DelAG 1801-02 ins TGG 1848 G 1920 A C1938T C1938T G1950A C2065T C2065T C2065T C2065T C2065G G 2166+1 A T2202C DelGC 2335 C2364T C2364T No mutation found No mutation found No mutation found No mutation found No mutation found No mutation found No mutation found 1 1 + 1 + 1 1 1 + 1 1 + 1 1 1 1 1 1 1 + 1 3 4 S 5 S S S 6 + 6 + 6 6 + 7 + 7 + 7 + 7 + 7 + 7 8 9 9 9 W10 X Frameshift at L46 TMS2 S98L TMS2 S98L T1OSI S108W G116R TMS3 N148S TMS3 R152C Frameshift at Y180 Y181C TMS4 D200V TMS4 D221G Frameshift at R231 P263L EAA-like A294T Frameshift at V378 Frameshift at T416 Frameshift at E471 Frameshift at E471 Frameshift at E471 Frameshift at E471 ins val 491 Walker A G512S Walker A R518W Walker A R518W G 522 W P560L P560L P560L P560L P56OR Splice at G593 Walker B S606P Frameshift at D649 R660W R660W Absent Not done S A Present S A Present T T Absent S D Decreased G T Absent N N Present R K Present Absent Y Y Not done D D Not done D D Absent Absent P R Decreased A A Not done Absent Absent Absent Absent Absent Absent Absent G G Absent R R Absent R R Decreased G E Absent P P Decreased P P Decreased P P Decreased P P Absent P P Absent Not done S S Absent Absent R R Absent R R Absent Not done Absent Absent Absent Present Absent Absent a CALD = cerebral ALD (5-15 years); AMN = adrenomyeloneuropathy; ALMD = adrenomyeloneuropathy with cerebral involvement; AD = Addison disease; AS = Asymptomatic.
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ABCD1 p.Tyr181Cys 8651290:76:1153
status: NEW147 One mutation (Y181C) was found in the loop between the third and fourth transmembrane domain, and two mutations (D200V and D221G) were found in the third transmembrane domain.
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ABCD1 p.Tyr181Cys 8651290:147:14
status: NEW171 Another possibility is that some of these mutations (in particular, Y181C, D220V, and D221G) may affect the targeting of ALDP into peroxisomal membrane.
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ABCD1 p.Tyr181Cys 8651290:171:68
status: NEW172 Missense mutations leading to a lack of ALDP included three mutations located in the ATP-binding domain (G512S, G522W, and S606P).
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ABCD1 p.Tyr181Cys 8651290:172:68
status: NEW75 58:1135-1144, 1996 Table 2 Mutations in the ALD Gene in Studied Patients AMINO ACID MUTATIONSb HOMOLOGUE INd KINDRED CLINICAL LOCALIZATION AMINO ACID ALDP BY NUMBER PHENOTYPEa DNA CpG Exon IN PROTEINC ALTERATION h/m ALDRP hPMP70 IF/WB' CALD, AMN CALD CALD CALD, AS AD CALD, AMN CALC AD AD AD ALMD CALD CALD, AMN CALD CALD, AMN, AD AMN ALMD CALD ALMD CALD AMN ALD AD, AMN, AS CALD, AS CALD CALD AD CALD AMN, ALMD CALD CALD AMN, ALMD CALD CALD, AMN, ALMD CALD CALD, ALMD, AS ALMD CALD AMN CALD, AMN AD AD AMN CALD G416A Ins T524 C679T C679T C700T C709G G732A A829G C840T Del TA927-28 A928G A985T A1048G DeIGC1080-81 C1174T G1266A ins C1521 1636delC DelAG 1801-02 DelAG 1801-02 DelAG 1801-02 DelAG 1801-02 ins TGG 1848 G 1920 A C1938T C1938T G1950A C2065T C2065T C2065T C2065T C2065G G 2166+1 A T2202C DelGC 2335 C2364T C2364T No mutation found No mutation found No mutation found No mutation found No mutation found No mutation found No mutation found 1 1 + 1 + 1 1 1 + 1 1 + 1 1 1 1 1 1 1 + 1 3 4 S 5 S S S 6 + 6 + 6 6 + 7 + 7 + 7 + 7 + 7 + 7 8 9 9 9 W10 X Frameshift at L46 TMS2 S98L TMS2 S98L T1OSI S108W G116R TMS3 N148S TMS3 R152C Frameshift at Y180 Y181C TMS4 D200V TMS4 D221G Frameshift at R231 P263L EAA-like A294T Frameshift at V378 Frameshift at T416 Frameshift at E471 Frameshift at E471 Frameshift at E471 Frameshift at E471 ins val 491 Walker A G512S Walker A R518W Walker A R518W G 522 W P560L P560L P560L P560L P56OR Splice at G593 Walker B S606P Frameshift at D649 R660W R660W Absent Not done S A Present S A Present T T Absent S D Decreased G T Absent N N Present R K Present Absent Y Y Not done D D Not done D D Absent Absent P R Decreased A A Not done Absent Absent Absent Absent Absent Absent Absent G G Absent R R Absent R R Decreased G E Absent P P Decreased P P Decreased P P Decreased P P Absent P P Absent Not done S S Absent Absent R R Absent R R Absent Not done Absent Absent Absent Present Absent Absent a CALD = cerebral ALD (5-15 years); AMN = adrenomyeloneuropathy; ALMD = adrenomyeloneuropathy with cerebral involvement; AD = Addison disease; AS = Asymptomatic.
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ABCD1 p.Tyr181Cys 8651290:75:1153
status: NEW[hide] ABCD1 mutations and the X-linked adrenoleukodystro... Hum Mutat. 2001 Dec;18(6):499-515. Kemp S, Pujol A, Waterham HR, van Geel BM, Boehm CD, Raymond GV, Cutting GR, Wanders RJ, Moser HW
ABCD1 mutations and the X-linked adrenoleukodystrophy mutation database: role in diagnosis and clinical correlations.
Hum Mutat. 2001 Dec;18(6):499-515., [PMID:11748843]
Abstract [show]
X-linked adrenoleukodystrophy (X-ALD) is caused by mutations in the ABCD1 gene, which encodes a peroxisomal ABC half-transporter (ALDP) involved in the import of very long-chain fatty acids (VLCFA) into the peroxisome. The disease is characterized by a striking and unpredictable variation in phenotypic expression. Phenotypes include the rapidly progressive childhood cerebral form (CCALD), the milder adult form, adrenomyeloneuropathy (AMN), and variants without neurologic involvement. There is no apparent correlation between genotype and phenotype. In males, unambiguous diagnosis can be achieved by demonstration of elevated levels of VLCFA in plasma. In 15 to 20% of obligate heterozygotes, however, test results are false-negative. Therefore, mutation analysis is the only reliable method for the identification of heterozygotes. Since most X-ALD kindreds have a unique mutation, a great number of mutations have been identified in the ABCD1 gene in the last seven years. In order to catalog and facilitate the analysis of these mutations, we have established a mutation database for X-ALD ( http://www.x-ald.nl). In this review we report a detailed analysis of all 406 X-ALD mutations currently included in the database. Also, we present 47 novel mutations. In addition, we review the various X-ALD phenotypes, the different diagnostic tools, and the need for extended family screening for the identification of new patients.
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No. Sentence Comment
164 X-ALD Mutations Identified in the ABCD1 Gene Allele Exon Mutation Protein Remark fs P42 1 125insC n.d. # fs P84 1 253insC n.d. # E90K 1 268G>A n.d. # S98L 1 293C>T Present S98L 1 293C>T Present R104H 1 311G>A n.d. fs A112 1 337delC Absent # R113C 1 337C>T Present # R113P 1 338G>C n.d. # Q133X 1 397C>T Absent W137X 1 411G>A Absent P143S 1 427C>T n.d. S149N 1 446G>A Present R152S 1 454C>A n.d. R152C 1 454C>T Present R152L 1 455G>T Reduced # S161P 1 481T>C n.d. # R163P 1 488G>C n.d. Y174C 1 521A>G Absent Y174C 1 521A>G n.d. Q177X 1 529C>T Absent Y181C 1 542A>G n.d. fs Y181 1 544ins8bp n.d. # Q195X 1 583C>T n.d. # T198K 1 593C>A n.d. # fs S207 1 621del664bp Absent # SV207-8insAAS 1 622-23ins9bp n.d. # K217E 1 649A>G Present # P218T 1 652C>A n.d. V224E 1 671T>G n.d. # L229P 1 686T>C n.d. L229P 1 686T>C n.d. fs S235 1 706delCGTG n.d. # W242X 1 726G>A Absent G266R 1 796G>A n.d. G266R 1 796G>A n.d. R274W, R280C 1 820C>T, 838C>T n.d. # R285P 1 854G>C n.d. S290X 1 869C>A Absent # E291del 1 871-73delGAG Absent Y296C 1 887A>G n.d. Y296C 1 887A>G n.d. fs E300 IVS1 IVS1+1g>t n.d. # fs E300 IVS1 IVS1-1g>a n.d. # S315X 2 944C>A n.d. # K336M 2 1007A>T n.d. # G343D 2 1028G>A n.d. # R401Q 3 1202G>A Present R401Q 3 1202G>A Present K407X 3 1219A>T n.d. # E427del 4 1279-81delGAA n.d. # Q430X 4 1288C>T n.d. # R464X 4 1390C>T n.d. fs E471 5 1415delAG Absent fs E471 5 1415delAG Absent fs E471 5 1415delAG Absent fs E471 5 1415delAG Absent C511X 6 1533C>A n.d. # R518Q 6 1553G>A Absent fs G528 6 1586-90del Absent # fs Y532 6 1599delG Absent # P543L 6 1628C>T Absent P543L 6 1628C>T Absent fs Q544 6 1628-34duplicated n.d. # fs R545 IVS 6 IVS6+1g>c n.d. # R554H 7 1661G>A Absent fs Q556 7 1670delTG n.d. # (continued) replaced by a pyrimidine (C or T) or vice versa, and transitions, comprising the substitution of one purine by the other, or of one pyrimidine by the other.
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ABCD1 p.Tyr181Cys 11748843:164:549
status: NEW[hide] Identification of seven novel mutations in ABCD1 b... Hum Mutat. 2005 Feb;25(2):222. Montagna G, Di Biase A, Cappa M, Melone MA, Piantadosi C, Colabianchi D, Patrono C, Attori L, Cannelli N, Cotrufo R, Salvati S, Santorelli FM
Identification of seven novel mutations in ABCD1 by a DHPLC-based assay in Italian patients with X-linked adrenoleukodystrophy.
Hum Mutat. 2005 Feb;25(2):222., [PMID:15643618]
Abstract [show]
We report the molecular findings in 14 patients (12 families) with X-linked adrenoleukodystrophy (X-ALD, MIM# 300100), a well-defined peroxisomal disorder attributed to mutations in the ABCD1 gene on chromosome Xq28. With the aims of determining the spectrum of mutations and developing an efficient molecular genetic test for analysis of at-risk women whose carrier status is unknown, and to offer molecular confirmation of their status to obligate heterozygotes, regardless of their clinical status, we carried out molecular screening by setting up a denaturing high-performance liquid chromatography (DHPLC)-based protocol. We identified eleven hemizygous base changes in ABCD1, including seven new mutations (c.145underscore;146ins4, c.264C>G, c.919C>T, c.994C>T, c.1027G>A, c.1508T>C, and c.1540A>C, resulting in the p.Pro193fs, p.Cys88Trp, p.Gln307X, p.Gln332X, p.Gly343Ser, p.Leu503Pro, and p.Ser514Arg changes, respectively). Adding new variants to the repertoire of ABCD1 mutations in X-ALD, our data provide an efficient, cost-effective, and reliable DHPLC detection protocol for mutation screening of X-ALD families.
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No. Sentence Comment
87 Additional mutations identified in this study (c. 454C>T, c.542A>G, c.1415_1416del2, and c.1661G>A, resulting respectively in the variants p.Arg152Cys, p.Tyr181Cys, p.Glu471fs, and p.Arg554His), each found in one family, have already been listed in the X-ALD mutation database (http://www.x-ald.nl).
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ABCD1 p.Tyr181Cys 15643618:87:154
status: NEW95 Summary of Mutations in ABCD1 (RefSeq: NM_000033.2) Identified in this Study ABCD1 gene cDNA level Protein level Exon 1 c.145_146ins4 p.Pro49fs Exon 1 c.264C>G p.Cys88Trp Exon 1 c. 454C>T p.Arg152Cys Exon 1 c.542A>G p.Tyr181Cys Exon 2 c.919C>T p.Gln307X Exon 2 c.994C>T p.Gln332X Exon 2 c.1027G>A p.Gly343Ser Exon 5 c.1415_1416del2 p.Glu471fs Exon 6 c.1508T>C p.Leu503Pro Exon 6 c.1540A>C p.Ser514Arg Exon 7 c.1661G>A p.Arg554His Novel variants are in bold.
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ABCD1 p.Tyr181Cys 15643618:95:218
status: NEW