巨大芽孢杆菌胆色素原脱氨酶活性位点突变体中结构域运动的结构研究

Structural studies of domain movement in active-site mutants of porphobilinogen deaminase from Bacillus megaterium.

作者信息

Guo Jingxu, Erskine Peter, Coker Alun R, Wood Steve P, Cooper Jonathan B

机构信息

Division of Medicine, University College London, Gower Street, London WC1E 6BT, England.

出版信息

Acta Crystallogr F Struct Biol Commun. 2017 Nov 1;73(Pt 11):612-620. doi: 10.1107/S2053230X17015436. Epub 2017 Oct 30.

DOI:10.1107/S2053230X17015436

PMID:29095155

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5683031/

Abstract

The enzyme porphobilinogen deaminase (PBGD) is one of the key enzymes in tetrapyrrole biosynthesis. It catalyses the formation of a linear tetrapyrrole from four molecules of the substrate porphobilinogen (PBG). It has a dipyrromethane cofactor (DPM) in the active site which is covalently linked to a conserved cysteine residue through a thioether bridge. The substrate molecules are linked to the cofactor in a stepwise head-to-tail manner during the reaction, which is catalysed by a conserved aspartate residue: Asp82 in the B. megaterium enzyme. Three mutations have been made affecting Asp82 (D82A, D82E and D82N) and their crystal structures have been determined at resolutions of 2.7, 1.8 and 1.9 Å, respectively. These structures reveal that whilst the D82E mutant possesses the DPM cofactor, in the D82N and D82A mutants the cofactor is likely to be missing, incompletely assembled or disordered. Comparison of the mutant PBGD structures with that of the wild-type enzyme shows that there are significant domain movements and suggests that the enzyme adopts open' and closed' conformations, potentially in response to substrate binding.

摘要

胆色素原脱氨酶（PBGD）是四吡咯生物合成中的关键酶之一。它催化由四个底物胆色素原（PBG）分子形成线性四吡咯。其活性位点含有一个二吡咯甲烷辅因子（DPM），该辅因子通过硫醚桥与一个保守的半胱氨酸残基共价连接。在反应过程中，底物分子以逐步首尾相连的方式与辅因子相连，该反应由一个保守的天冬氨酸残基催化：巨大芽孢杆菌酶中的Asp82。已对影响Asp82的三个突变体（D82A, D82E和D82N）进行了研究，并分别以2.7 Å、1.8 Å和1.9 Å的分辨率测定了它们的晶体结构。这些结构表明，虽然D82E突变体具有DPM辅因子，但在D82N和D82A突变体中，辅因子可能缺失、组装不完全或无序。将突变体PBGD结构与野生型酶的结构进行比较表明，存在明显的结构域移动，这表明该酶可能会根据底物结合情况采取“开放”和“闭合”构象。

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