Asp263 错义变异会破坏人磷酸葡糖变位酶 1 的活性部位。

Asp263 missense variants perturb the active site of human phosphoglucomutase 1.

机构信息

Biochemistry Department, University of Missouri, Columbia, MO, USA.

出版信息

FEBS J. 2017 Mar;284(6):937-947. doi: 10.1111/febs.14025. Epub 2017 Feb 10.

DOI:10.1111/febs.14025

PMID:28117557

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5802412/

Abstract

UNLABELLED

The enzyme phosphoglucomutase 1 (PGM1) plays a central role in glucose homeostasis. Clinical studies have identified mutations in human PGM1 as the cause of PGM1 deficiency, an inherited metabolic disease. One residue, Asp263, has two known variants associated with disease: D263G and D263Y. Biochemical studies have shown that these mutants are soluble and well folded, but have significant catalytic impairment. To better understand this catalytic defect, we determined crystal structures of these two missense variants, both of which reveal a similar and indirect structural change due to the loss of a conserved salt bridge between Asp263 and Arg293. The arginine reorients into the active site, making interactions with residues responsible for substrate binding. Biochemical studies also show that the catalytic phosphoserine of the missense variants is more stable to hydrolysis relative to wild-type enzyme. The structural perturbation resulting from mutation of this single amino acid reveals the molecular mechanism underlying PGM1 deficiency in these missense variants.

DATABASE

Structural data are available in the PDB under the accession numbers 5JN5 and 5TR2.

摘要

未标记

磷酸葡萄糖变位酶 1（PGM1）在葡萄糖稳态中起着核心作用。临床研究已经确定人类 PGM1 中的突变是 PGM1 缺乏症（一种遗传性代谢疾病）的原因。一个残基，天冬氨酸 263，有两个与疾病相关的已知变体：D263G 和 D263Y。生化研究表明，这些突变体是可溶的且折叠良好的，但催化活性显著受损。为了更好地理解这种催化缺陷，我们确定了这两种错义变体的晶体结构，它们都由于天冬氨酸 263 和精氨酸 293 之间保守盐桥的丢失而导致类似的间接结构变化。精氨酸重新定向到活性部位，与负责底物结合的残基相互作用。生化研究还表明，与野生型酶相比，错义变体的催化磷酸丝氨酸对水解更稳定。由于单个氨基酸的突变而产生的结构扰动揭示了这些错义变体中 PGM1 缺乏症的分子机制。

数据库

结构数据可在 PDB 中以 5JN5 和 5TR2 的条目号获得。

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