On the effect of alkaline pH and cofactor availability in the conformational and oligomeric state of Escherichia coli glutamate decarboxylase

Fabio Giovannercole, C. Mérigoux, C. Zamparelli, D. Verzili, G. Grassini, Malcolm Buckle, P. Vachette, D. Biase
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引用次数: 4

Abstract

Escherichia coli glutamate decarboxylase (EcGad) is a homohexameric pyridoxal 5'-phosphate (PLP)-dependent enzyme. It is the structural component of the major acid resistance system that protects E. coli from strong acid stress (pH < 3), typically encountered in the mammalian gastrointestinal tract. In fact EcGad consumes one proton/catalytic cycle while yielding γ-aminobutyrate and carbon dioxide from the decarboxylation of l-glutamate. Two isoforms of Gad occur in E. coli (GadA and GadB) that are 99% identical in sequence. GadB is the most intensively investigated. Prompted by the observation that some transcriptomic and proteomic studies show EcGad to be expressed in conditions far from acidic, we investigated the structural organization of EcGadB in solution in the pH range 7.5-8.6. Small angle X-ray scattering, combined with size exclusion chromatography, and analytical ultracentrifugation analysis show that the compact and entangled EcGadB hexameric structure undergoes dissociation into dimers as pH alkalinizes. When PLP is not present, the dimeric species is the most abundant in solution, though evidence for the occurrence of a likely tetrameric species was also obtained. Trp fluorescence emission spectra as well as limited proteolysis studies suggest that PLP plays a key role in the acquisition of a folding necessary for the canonical catalytic activity.
碱性pH和辅助因子可用性对大肠杆菌谷氨酸脱羧酶构象和寡聚状态的影响
大肠杆菌谷氨酸脱羧酶(EcGad)是一种同源六聚体吡哆醛5'-磷酸(PLP)依赖性酶。它是主要抗酸系统的结构组成部分,保护大肠杆菌免受强酸应激(pH < 3),通常在哺乳动物胃肠道中遇到。事实上,EcGad消耗一个质子/催化循环,同时从l-谷氨酸脱羧产生γ-氨基丁酸盐和二氧化碳。大肠杆菌中存在两种Gad亚型(GadA和GadB),它们的序列99%相同。GadB是研究最深入的。由于一些转录组学和蛋白质组学研究表明EcGadB在远离酸性的条件下表达,我们研究了EcGadB在pH范围为7.5-8.6的溶液中的结构组织。小角度x射线散射,结合粒径排除层析和分析性超离心分析表明,紧凑和纠缠的EcGadB六聚体结构随着pH碱化而解离成二聚体。当PLP不存在时,溶液中的二聚体物种是最丰富的,尽管也获得了可能发生四聚体物种的证据。色氨酸荧光发射光谱以及有限的蛋白质水解研究表明,PLP在获得典型催化活性所需的折叠中起着关键作用。
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