ABCD1 p.Arg152Pro
| Predicted by SNAP2: | A: D (85%), C: D (91%), D: D (95%), E: D (91%), F: D (91%), G: D (91%), H: D (85%), I: D (91%), K: D (75%), L: D (91%), M: D (91%), N: D (85%), P: D (95%), Q: D (85%), S: D (75%), T: D (80%), V: D (91%), W: D (95%), Y: D (91%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: N, L: D, M: D, N: D, P: D, Q: D, S: D, T: D, V: D, W: D, Y: D, |
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[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
297 In case different missense mutations were found in a single amino acid residue, like R152S, R152C, R152P, and R152L, only one was counted.
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ABCD1 p.Arg152Pro 11748843:297:99
status: NEW[hide] Spectrum of mutations in the gene encoding the adr... Am J Hum Genet. 1995 Jan;56(1):44-50. Ligtenberg MJ, Kemp S, Sarde CO, van Geel BM, Kleijer WJ, Barth PG, Mandel JL, van Oost BA, Bolhuis PA
Spectrum of mutations in the gene encoding the adrenoleukodystrophy protein.
Am J Hum Genet. 1995 Jan;56(1):44-50., [PMID:7825602]
Abstract [show]
X-linked adrenoleukodystrophy (ALD) has been associated with mutations in a gene encoding an ATP-binding transporter, which is located in the peroxisomal membrane. Deficiency of the gene leads to impaired peroxisomal beta-oxidation. Systematic analysis of the open reading frame of the ALD gene, using reverse transcriptase-PCR, followed by direct sequencing, revealed mutations in all 28 unrelated kindreds analyzed. No entire gene deletions or drastic promoter mutations were detected. In only one kindred did the mutation involve multiple exons. The other mutations were small alterations leading to missense (13 of 28) or nonsense mutations, a single amino acid deletion, frameshifts, or splice acceptor-site defects. Mutations affecting a single amino acid were concentrated in the region between the third and fourth putative transmembrane domains and in the ATP-binding domain. Mutations were detected in all investigated ALD kindreds, suggesting that this gene is the only gene responsible for X-linked ALD. This overview of mutations is useful in the determination of structurally and functionally important regions and provides an efficient screening strategy for identification of mutations in the ALD gene.
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85 The mutation T1045C created a novel HpaII site, which was confirmed Table 2 Mutations in the Putative ALD Gene in Patients Studied Genomic- Kindred Type of Mutation and Amino Acid Genomic-PCR Mutation Reference cDNA Alterationa Alterationb Exonc Primers Detectiond Phenotype' Number Missense: C696Tf ................ R104C (R) 1 303F + 821R 303F, 821R AMN 17 G832A ................ S149N (N) 1 702F + 1145R 702F, 931R AMN 8 G841C ................ R152P (K) 1 702F + 1145R 702F, 931R ChALD 27 G874Af ................ R163H (R) 1 702F + 931R 702F, 931R SympCar 14 G966C ................ D194H (D) 1 685F + 1145R 914F, 1145R ChALD 12 T1045C ................ L220P (L) 1 914F + 1145R HpaII AMN 7 G1182A ................. G266R (G) 1 702F + 1231R 914F,1231R AMN 24 G1552A ................. R389H (R) 3 1479F + 1861R 1479F,1752R AMN 20 (2X): G2211A................. E609K(E) 8 544F*+ 1078R*h 544F*, 876R* AMN 13,18 A2212G ................ E609G (E) 8 544F*+ 1078R*h 544F*, 876R* ChALD 5 C2235Tf................ R617C (R) 8 544F* + 2742R 544F*, 876R* ChALD 23 C2364Tf................ R660W (R) 9 544F* + 2742R 2312F, 1078R* AMN 21 Amino acid deletion: del 2355-2357 ........... del 1657(V) 9 849F* + 2478Rh 2312F,1078R* ChALD 6 Nonsense: C783Tf ................ Q133h 1 702F + 931R 702F, 931R ChALD 26 G797A ................ W137h 1 685F +1145R 702F,931R ChALD 10 C855T ................ Q157h 1 702F + 1145R 702F,931R AMN 9 C929A ................ Y181h 1 702F + 1145R HpaIl ChALD 15 Frameshift: delC442 ................ A19> 1 303F + 821R 303F,593R ChALD 2 del C663 ................ G92> 1 303F + 840R 576F, 821R ChALD 22 dell71-1178 ........... F261> 1 702F + 1231R 914F,1231R ChALD 28 (4X): del 1801-1802 ........... E471> 5 1781F + 1861R Polyacrylamide gel ChALD, AMN 3,4,16,25 alt 1989-2377 ........... P534> 6-9 1890F +2669R 1890F,1078R* AMN 11 Splice defect: de12021-2054 ........... R545> SA 7 1880F +2132R 1880F,2114R ChALD 1 ins 8 bp 2251f ............ R622> SA 9 849F* + 1078R*h 849F*, 1078R* AMN 19 a Nucleotide numbers refer to Mosser et al. (1993), EMBL database Z21876.
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ABCD1 p.Arg152Pro 7825602:85:450
status: NEW