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新生嘌呤合成的中国仓鼠卵巢细胞甘氨酰胺核糖核苷酸转甲酰基酶基因中的突变。

Mutations in the Chinese hamster ovary cell GART gene of de novo purine synthesis.

作者信息

Knox Aaron J, Graham Christine, Bleskan John, Brodsky Gary, Patterson David

机构信息

Human Medical Genetics Program, University of Colorado at Denver School of Medicine, Aurora, CO, USA.

出版信息

Gene. 2009 Jan 15;429(1-2):23-30. doi: 10.1016/j.gene.2008.10.007. Epub 2008 Oct 21.

DOI:10.1016/j.gene.2008.10.007
PMID:19007868
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2643067/
Abstract

Mutations in several steps of de novo purine synthesis lead to human inborn errors of metabolism often characterized by mental retardation, hypotonia, sensorineural hearing loss, optic atrophy, and other features. In animals, the phosphoribosylglycinamide transformylase (GART) gene encodes a trifunctional protein carrying out 3 steps of de novo purine synthesis, phosphoribosylglycinamide synthase (GARS), phosphoribosylglycinamide transformylase (also abbreviated as GART), and phosphoribosylaminoimidazole synthetase (AIRS) and a smaller protein that contains only the GARS domain of GART as a functional protein. The GART gene is located on human chromosome 21 and is aberrantly regulated and overexpressed in individuals with Down syndrome (DS), and may be involved in the phenotype of DS. The GART activity of GART requires 10-formyltetrahydrofolate and has been a target for anti-cancer drugs. Thus, a considerable amount of information is available about GART, while less is known about the GARS and AIRS domains. Here we demonstrate that the amino acid residue glu75 is essential for the activity of the GARS enzyme and that the gly684 residue is essential for the activity of the AIRS enzyme by analysis of mutations in the Chinese hamster ovary (CHO-K1) cell that require purines for growth. We report the effects of these mutations on mRNA and protein content for GART and GARS. Further, we discuss the likely mechanisms by which mutations inactivating the GART protein might arise in CHO-K1 cells.

摘要

从头嘌呤合成的几个步骤中的突变会导致人类先天性代谢缺陷,其特征通常为智力发育迟缓、肌张力减退、感音神经性听力损失、视神经萎缩及其他症状。在动物中,磷酸核糖甘氨酰胺转甲酰基酶(GART)基因编码一种三功能蛋白,该蛋白执行从头嘌呤合成的3个步骤,即磷酸核糖甘氨酰胺合成酶(GARS)、磷酸核糖甘氨酰胺转甲酰基酶(也简称为GART)和磷酸核糖氨基咪唑合成酶(AIRS),以及一种仅包含GART的GARS结构域作为功能蛋白的较小蛋白。GART基因位于人类21号染色体上,在唐氏综合征(DS)患者中受到异常调控并过度表达,可能与DS的表型有关。GART的GART活性需要10-甲酰四氢叶酸,并且一直是抗癌药物的作用靶点。因此,关于GART已有大量信息,而关于GARS和AIRS结构域的了解则较少。在此,我们通过对需要嘌呤才能生长的中国仓鼠卵巢(CHO-K1)细胞中的突变进行分析,证明氨基酸残基Glu75对GARS酶的活性至关重要,而Gly684残基对AIRS酶的活性至关重要。我们报告了这些突变对GART和GARS的mRNA和蛋白质含量的影响。此外,我们讨论了CHO-K1细胞中可能导致GART蛋白失活的突变产生的机制。

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