将编码人天冬氨酰葡糖胺酶的结构基因定位于4号染色体长臂(4q21----4qter)。
Assignment of the structural gene encoding human aspartylglucosaminidase to the long arm of chromosome 4 (4q21----4qter).
作者信息
Aula P, Astrin K H, Francke U, Desnick R J
出版信息
Am J Hum Genet. 1984 Nov;36(6):1215-24.
Abstract
The structural gene for the human lysosomal enzyme aspartylglucosaminidase (AGA) has been assigned to chromosome 4 using somatic cell hybridization techniques. The human monomeric enzyme was detected in Chinese hamster-human cell hybrids by a thermal denaturation assay that selectively inactivated the Chinese hamster isozyme, while the thermostable human enzyme retained activity. Twenty informative hybrid clones, derived from seven independent fusions, were analyzed for the presence of human AGA activity and their human chromosomal constitutions. Without exception, the presence of human AGA in these hybrids was correlated with the presence of human chromosome 4. All other human chromosomes were excluded by discordant segregation of the human enzyme and other chromosomes. Two hybrid clones, with interspecific Chinese hamster-human chromosome translocations involving the long arm of human chromosome 4, permitted the assignment of human AGA to the region 4q21----4qter.
摘要
利用体细胞杂交技术已将人类溶酶体酶天冬氨酰葡糖胺酶(AGA)的结构基因定位于4号染色体。通过热变性分析在中国仓鼠-人类细胞杂种中检测到人类单体酶,该分析可选择性地使中国仓鼠同工酶失活,而耐热的人类酶则保留活性。对来自七个独立融合的20个信息丰富的杂种克隆进行了分析,以检测人类AGA活性及其人类染色体组成。无一例外,这些杂种中人类AGA的存在与人类4号染色体的存在相关。人类酶与其他染色体的不一致分离排除了所有其他人类染色体。两个具有涉及人类4号染色体长臂的种间中国仓鼠-人类染色体易位的杂种克隆,将人类AGA定位于4q21----4qter区域。
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