Structure and functional characterization of pyruvate decarboxylase from Gluconacetobacter diazotrophicus

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2014-11-05 DOI:10.1186/s12900-014-0021-1
Leonardo J van Zyl, Wolf-Dieter Schubert, Marla I Tuffin, Don A Cowan
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引用次数: 18

Abstract

Bacterial pyruvate decarboxylases (PDC) are rare. Their role in ethanol production and in bacterially mediated ethanologenic processes has, however, ensured a continued and growing interest. PDCs from Zymomonas mobilis (ZmPDC), Zymobacter palmae (ZpPDC) and Sarcina ventriculi (SvPDC) have been characterized and ZmPDC has been produced successfully in a range of heterologous hosts. PDCs from the Acetobacteraceae and their role in metabolism have not been characterized to the same extent. Examples include Gluconobacter oxydans (GoPDC), G. diazotrophicus (GdPDC) and Acetobacter pasteutrianus (ApPDC). All of these organisms are of commercial importance.

This study reports the kinetic characterization and the crystal structure of a PDC from Gluconacetobacter diazotrophicus (GdPDC). Enzyme kinetic analysis indicates a high affinity for pyruvate (K M 0.06 mM at pH 5), high catalytic efficiencies (1.3 ? 106 M?1?s?1 at pH 5), pHopt of 5.5 and Topt at 45°C. The enzyme is not thermostable (T? of 18 minutes at 60°C) and the calculated number of bonds between monomers and dimers do not give clear indications for the relatively lower thermostability compared to other PDCs. The structure is highly similar to those described for Z. mobilis (ZmPDC) and A. pasteurianus PDC (ApPDC) with a rmsd value of 0.57 ? for Cα when comparing GdPDC to that of ApPDC. Indole-3-pyruvate does not serve as a substrate for the enzyme. Structural differences occur in two loci, involving the regions Thr341 to Thr352 and Asn499 to Asp503.

This is the first study of the PDC from G. diazotrophicus (PAL5) and lays the groundwork for future research into its role in this endosymbiont. The crystal structure of GdPDC indicates the enzyme to be evolutionarily closely related to homologues from Z. mobilis and A. pasteurianus and suggests strong selective pressure to keep the enzyme characteristics in a narrow range. The pH optimum together with reduced thermostability likely reflect the host organisms niche and conditions under which these properties have been naturally selected for. The lack of activity on indole-3-pyruvate excludes this decarboxylase as the enzyme responsible for indole acetic acid production in G. diazotrophicus.

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重氮营养菌丙酮酸脱羧酶的结构与功能研究
细菌丙酮酸脱羧酶(PDC)是罕见的。然而,它们在乙醇生产和细菌介导的乙醇生产过程中的作用确保了持续和日益增长的兴趣。对活动单胞菌(ZmPDC)、棕榈发酵杆菌(ZpPDC)和脑室Sarcina ventricular (SvPDC)的PDCs进行了鉴定,并在多种异源寄主中成功制备了ZmPDC。来自醋酸杆菌科的PDCs及其在代谢中的作用尚未得到相同程度的表征。例子包括氧化葡萄杆菌(GoPDC)、重氮营养菌(GdPDC)和巴氏醋酸杆菌(ApPDC)。所有这些生物都具有重要的商业价值。本文报道了重氮养糖醋杆菌(GdPDC)的PDC的动力学表征和晶体结构。酶动力学分析表明,该酶对丙酮酸具有较高的亲和力(pH 5时K - M为0.06 mM),催化效率高(1.3 ?s 106 M ? ? ?1在pH 5时),pHopt为5.5,Topt在45°C时。这种酶不耐热(T?在60°C下加热18分钟),计算出的单体和二聚体之间的键数并不能明确表明与其他PDCs相比,它的热稳定性相对较低。该结构与Z. mobilis (ZmPDC)和a . pasteuranus PDC (ApPDC)的结构高度相似,rmsd值为0.57 ?为Cα,比较GdPDC与ApPDC。吲哚-3-丙酮酸不作为酶的底物。两个基因座存在结构差异,涉及Thr341至Thr352和Asn499至Asp503区域。本研究首次对重氮营养菌(G. diazotrophicus, PAL5)的PDC进行了研究,为进一步研究其在重氮营养菌中的作用奠定了基础。GdPDC的晶体结构表明,该酶在进化上与Z. mobilis和a . pasteuranus的同源物密切相关,表明有很强的选择压力将酶的特性保持在一个狭窄的范围内。最佳pH值和降低的热稳定性可能反映了宿主生物的生态位和这些特性被自然选择的条件。缺乏吲哚-3-丙酮酸活性排除了这种脱羧酶作为重氮营养菌中产生吲哚乙酸的酶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
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0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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