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卡纳万病:人类天冬氨酸酰基转移酶基因(ASPA)的基因组结构、定位于17p13 - 末端以及该基因在进化过程中的保守性

Canavan disease: genomic organization and localization of human ASPA to 17p13-ter and conservation of the ASPA gene during evolution.

作者信息

Kaul R, Balamurugan K, Gao G P, Matalon R

机构信息

Research Institute, Miami Children's Hospital, Florida 33155.

出版信息

Genomics. 1994 May 15;21(2):364-70. doi: 10.1006/geno.1994.1278.

DOI:10.1006/geno.1994.1278
PMID:8088831
Abstract

Canavan disease, or spongy degeneration of the brain, is a severe leukodystrophy caused by the deficiency of aspartoacylase (ASPA). Recently, a missense mutation was identified in human ASPA coding sequence from patients with Canavan disease. The human ASPA gene has been cloned and found to span 29 kb of the genome. Human aspartoacylase is coded by six exons intervened by five introns. The exons vary from 94 (exon III) to 514 (exon VI) bases. The exon/intron splice junction sites follow the gt/ag consensus sequence rule. Southern blot analysis of genomic DNA from human/mouse somatic cell hybrid cell lines localized ASPA to human chromosome 17. The human ASPA locus was further mapped in the 17p13-ter region by fluorescence in situ hybridization. The bovine aspa gene has also been cloned, and its exon/intron organization is identical to that of the human gene. The 500-base sequence upstream of the initiator ATG codon in the human gene and that in the bovine gene are 77% identical. Human ASPA coding sequences cross-hybridize with genomic DNA from yeast, chicken, rabbit, cow, dog, mouse, rat, and monkey. The specificity of cross-species hybridization of coding sequences suggests that aspartoacylase has been conserved during evolution. It should now be possible to identify mutations in the noncoding genomic sequences that lead to Canavan disease and to study the regulation of ASPA.

摘要

卡纳万病,即脑白质海绵状变性,是一种由天冬氨酸酰基转移酶(ASPA)缺乏引起的严重脑白质营养不良症。最近,在卡纳万病患者的人类ASPA编码序列中发现了一个错义突变。人类ASPA基因已被克隆,发现其跨越基因组的29 kb。人类天冬氨酸酰基转移酶由6个外显子编码,中间间隔5个内含子。外显子的长度从94个碱基(外显子III)到514个碱基(外显子VI)不等。外显子/内含子剪接连接位点遵循gt/ag共有序列规则。对人/鼠体细胞杂交细胞系的基因组DNA进行Southern印迹分析,将ASPA定位于人类17号染色体。通过荧光原位杂交,将人类ASPA基因座进一步定位在17p13 - ter区域。牛的aspa基因也已被克隆,其外显子/内含子结构与人类基因相同。人类基因起始ATG密码子上游500个碱基的序列与牛基因的该序列有77%的同源性。人类ASPA编码序列与酵母、鸡、兔、牛、狗、小鼠、大鼠和猴的基因组DNA发生交叉杂交。编码序列跨物种杂交的特异性表明天冬氨酸酰基转移酶在进化过程中得到了保守。现在应该能够鉴定导致卡纳万病的非编码基因组序列中的突变,并研究ASPA的调控机制。

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