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以单体作为活性物种的寡聚化状态决定了UDP-葡萄糖焦磷酸化酶的催化效率。

Oligomerization status, with the monomer as active species, defines catalytic efficiency of UDP-glucose pyrophosphorylase.

作者信息

Martz Françoise, Wilczynska Malgorzata, Kleczkowski Leszek A

机构信息

Umeå Plant Science Center, Department of Plant Physiology, Umeå University, 901 87 Umeå, Sweden.

出版信息

Biochem J. 2002 Oct 1;367(Pt 1):295-300. doi: 10.1042/BJ20020772.

DOI:10.1042/BJ20020772
PMID:12088504
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1222863/
Abstract

Barley UDP-glucose pyrophosphorylase (UGPase), a key enzyme for the synthesis of sucrose, cellulose and other saccharides, was expressed in Escherichia coli and purified. Using both native electrophoresis and gel filtration, the recombinant and crude leaf UGPase proteins were found to exist as a mixture of monomers, dimers and higher-order polymers. In order to understand the molecular basis for the oligomerization of UGPase, a conserved Cys residue was replaced (C99S mutant) and several amino acids were substituted (LIV to NIN, KK to LL and LLL to NNN) in a conserved hydrophobic domain (amino acids 117-138). The C99S mutant had about half the V (max) of the wild-type and a 12-fold higher K (m) for PP(i), whereas NIN and LL mutations lowered the V (max) by 12- and 2-fold, respectively, with relatively small effects on substrate K (m) values (the NNN mutant was insoluble/inactive). The NIN mutation resulted in a low-activity oligomerized enzyme form, with very little monomer formation. Activity staining on native PAGE gels as well as gel-filtration studies demonstrated that the monomer was the sole enzymically active form. Possible implications of the oligomerization status of UGPase for post-translational regulation of the enzyme are discussed.

摘要

大麦UDP - 葡萄糖焦磷酸化酶(UGPase)是蔗糖、纤维素和其他糖类合成的关键酶,在大肠杆菌中表达并纯化。通过天然电泳和凝胶过滤发现,重组UGPase蛋白和粗提叶UGPase蛋白均以单体、二聚体和高阶聚合物的混合物形式存在。为了理解UGPase寡聚化的分子基础,在一个保守的疏水区(第117 - 138位氨基酸)中替换了一个保守的半胱氨酸残基(C99S突变体),并替换了几个氨基酸(LIV替换为NIN、KK替换为LL以及LLL替换为NNN)。C99S突变体的V(max)约为野生型的一半,对PP(i)的K(m)高12倍,而NIN和LL突变分别使V(max)降低了12倍和2倍,对底物K(m)值的影响相对较小(NNN突变体不溶/无活性)。NIN突变导致形成低活性的寡聚化酶形式,几乎没有单体形成。天然PAGE凝胶上的活性染色以及凝胶过滤研究表明,单体是唯一具有酶活性的形式。文中讨论了UGPase寡聚化状态对该酶翻译后调控的可能影响。

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