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ITPA(肌苷三磷酸焦磷酸酶):从核苷酸池的监测到人类疾病和药物遗传学。

ITPA (inosine triphosphate pyrophosphatase): from surveillance of nucleotide pools to human disease and pharmacogenetics.

机构信息

The Eppley Institute for Research in Cancer and Allied Diseases, University of Nebraska Medical Center, Omaha, NE 68198, USA.

The Eppley Institute for Research in Cancer and Allied Diseases, University of Nebraska Medical Center, Omaha, NE 68198, USA; Department of Biochemistry and Molecular Biology, University of Nebraska Medical Center, USA; Department of Pathology and Microbiology, University of Nebraska Medical Center, USA; Department of Genetics, St-Petersburg University, St-Petersburg, 199034, Russia.

出版信息

Mutat Res. 2013 Oct-Dec;753(2):131-146. doi: 10.1016/j.mrrev.2013.08.001. Epub 2013 Aug 19.

DOI:10.1016/j.mrrev.2013.08.001
PMID:23969025
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3827912/
Abstract

Cellular nucleotide pools are often contaminated by base analog nucleotides which interfere with a plethora of biological reactions, from DNA and RNA synthesis to cellular signaling. An evolutionarily conserved inosine triphosphate pyrophosphatase (ITPA) removes the non-canonical purine (d)NTPs inosine triphosphate and xanthosine triphosphate by hydrolyzing them into their monophosphate form and pyrophosphate. Mutations in the ITPA orthologs in model organisms lead to genetic instability and, in mice, to severe developmental anomalies. In humans there is genetic polymorphism in ITPA. One allele leads to a proline to threonine substitution at amino acid 32 and causes varying degrees of ITPA deficiency in tissues and plays a role in patients' response to drugs. Structural analysis of this mutant protein reveals that the protein is destabilized by the formation of a cavity in its hydrophobic core. The Pro32Thr allele is thought to cause the observed dominant negative effect because the resulting active enzyme monomer targets both homo- and heterodimers to degradation.

摘要

细胞核苷酸池经常受到碱基类似物核苷酸的污染,这些核苷酸会干扰从 DNA 和 RNA 合成到细胞信号传递等多种生物反应。一种进化上保守的肌苷三磷酸焦磷酸酶 (ITPA) 通过将非典型嘌呤 (d)NTPs 肌苷三磷酸和黄苷三磷酸水解成单磷酸形式和焦磷酸来去除它们。模型生物中 ITPA 同源物的突变导致遗传不稳定性,并且在小鼠中导致严重的发育异常。在人类中,ITPA 存在遗传多态性。一个等位基因导致氨基酸 32 处脯氨酸到苏氨酸的取代,并导致组织中 ITPA 缺乏的不同程度,并且在患者对药物的反应中起作用。对这种突变蛋白的结构分析表明,该蛋白的疏水性核心形成空腔使其不稳定。假定 Pro32Thr 等位基因导致观察到的显性负效应,因为产生的活性酶单体将同源和异源二聚体靶向降解。

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Inosine triphosphate pyrophosphohydrolase (ITPA) polymorphic sequence variants in adult hematological malignancy patients and possible association with mitochondrial DNA defects.成人血液恶性肿瘤患者中肌苷三磷酸焦磷酸水解酶(ITPA)多态性序列变异体与线粒体 DNA 缺陷的可能相关性。
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The human ITPA polymorphic variant P32T is destabilized by the unpacking of the hydrophobic core.人类 ITPA 多态性变体 P32T 由于疏水性核心的展开而不稳定。
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Endonuclease V: an unusual enzyme for repair of DNA deamination.内切核酸酶 V:一种用于修复 DNA 脱氨的非寻常酶。
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Defects in purine nucleotide metabolism lead to substantial incorporation of xanthine and hypoxanthine into DNA and RNA.嘌呤核苷酸代谢缺陷可导致大量黄嘌呤和次黄嘌呤掺入 DNA 和 RNA。
Proc Natl Acad Sci U S A. 2012 Feb 14;109(7):2319-24. doi: 10.1073/pnas.1118455109. Epub 2012 Jan 30.
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