人亚砷酸盐刺激的atp酶(hASNA-I)的染色体定位和基因组结构。

B Kurdi-Haidar, D Heath, G Lennon, S B Howell
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引用次数: 3

摘要

hASNA-I是一种新的人类亚砷酸盐刺激的atp酶,被认为是大肠杆菌亚砷酸盐流出系统中atp酶成分的人类同源物。hASNA-I具有明显的生化特性和核质双重分布。免疫组化染色显示正常组织细胞中有明显的hASNA-I表达模式,乳腺癌细胞中有过表达。最近,酵母双杂交系统已经确定了hASNA-I作为金属硫蛋白II的细胞伴侣,这表明它在锌稳态和细胞解毒中起着额外的作用。本报告描述了通过体细胞杂交PCR定位人类19号染色体的hASNA-I, 19号染色体特异性cosmid克隆的分离,以及hASNA-I的基因组结构和外显子-内含子边界。我们的研究结果表明,hASNA-I编码区由4个外显子组成,在19q13.3带上跨越6 kb。这些数据将有助于对hasna - 1在人类疾病中的作用进行分子分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chromosomal localization and genomic structure of the human arsenite-stimulated ATPase (hASNA-I).

The hASNA-I is a novel human arsenite-stimulated ATPase identified as the human paralogue of the ATPase component of the arsenite efflux system in E. coli. The hASNA-I has distinct biochemical properties and a dual nuclear and cytoplasmic distribution. Immunohistochemical staining showed a distinct pattern of hASNA-I expression in cells within normal tissues, and its overexpression in breast cancer. Recently, the yeast two-hybrid system has identified hASNA-I as a cellular partner of metallothionein II suggesting an additional role in Zn homeostasis and cellular detoxification. This report describes the assignment of hASNA-I to human chromosome 19 by somatic-cell hybrid PCR mapping, the isolation of a chromosome 19-specific cosmid clone, and the genomic structure and exon-intron boundaries of hASNA-I. Our results indicate that the coding region of hASNA-I consists of 4 exons spanning 6 kb on band 19q13.3. These data will facilitate molecular analysis of the role of hASNA-I in human disease.

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