The identity of the active site of oxalate decarboxylase and the importance of the stability of active-site lid conformations

活动站点 化学 草酸盐 立体化学 突变体 结合位点 格式化 活动中心 动力学 催化作用 生物化学 无机化学 基因 物理 量子力学
作者
Victoria J. Just,Matthew Burrell,Laura Bowater,Iain McRobbie,C.E.M. Stevenson,David M. Lawson,Stephen Bornemann
出处
期刊:Biochemical Journal [Portland Press]
卷期号:407 (3): 397-406 被引量:40
标识
DOI:10.1042/bj20070708
摘要

Oxalate decarboxylase (EC 4.1.1.2) catalyses the conversion of oxalate into carbon dioxide and formate. It requires manganese and, uniquely, dioxygen for catalysis. It forms a homohexamer and each subunit contains two similar, but distinct, manganese sites termed sites 1 and 2. There is kinetic evidence that only site 1 is catalytically active and that site 2 is purely structural. However, the kinetics of enzymes with mutations in site 2 are often ambiguous and all mutant kinetics have been interpreted without structural information. Nine new site-directed mutants have been generated and four mutant crystal structures have now been solved. Most mutants targeted (i) the flexibility (T165P), (ii) favoured conformation (S161A, S164A, D297A or H299A) or (iii) presence (Δ162–163 or Δ162–164) of a lid associated with site 1. The kinetics of these mutants were consistent with only site 1 being catalytically active. This was particularly striking with D297A and H299A because they disrupted hydrogen bonds between the lid and a neighbouring subunit only when in the open conformation and were distant from site 2. These observations also provided the first evidence that the flexibility and stability of lid conformations are important in catalysis. The deletion of the lid to mimic the plant oxalate oxidase led to a loss of decarboxylase activity, but only a slight elevation in the oxalate oxidase side reaction, implying other changes are required to afford a reaction specificity switch. The four mutant crystal structures (R92A, E162A, Δ162–163 and S161A) strongly support the hypothesis that site 2 is purely structural.
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