参与细菌生物素合成途径的 BioZ 酶的生化和结构特征。

Biochemical and structural characterization of the BioZ enzyme engaged in bacterial biotin synthesis pathway.

机构信息

Laboratory of Innate Immune Biology of Fujian Province, Provincial University Key Laboratory of Cellular Stress Response and Metabolic Regulation, Biomedical Research Center of South China, Key Laboratory of OptoElectronic Science and Technology for Medicine of the Ministry of Education, College of Life Sciences, Fujian Normal University, Fuzhou, Fujian, China.

Department of Pathogen Biology & Microbiology and General Intensive Care Unit of Second Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, Zhejiang, China.

出版信息

Nat Commun. 2021 Apr 6;12(1):2056. doi: 10.1038/s41467-021-22360-4.

DOI:10.1038/s41467-021-22360-4

PMID:33824341

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8024396/

Abstract

Biotin is an essential micro-nutrient across the three domains of life. The paradigm earlier step of biotin synthesis denotes "BioC-BioH" pathway in Escherichia coli. Here we report that BioZ bypasses the canonical route to begin biotin synthesis. In addition to its origin of Rhizobiales, protein phylogeny infers that BioZ is domesticated to gain an atypical role of β-ketoacyl-ACP synthase III. Genetic and biochemical characterization demonstrates that BioZ catalyzes the condensation of glutaryl-CoA (or ACP) with malonyl-ACP to give 5'-keto-pimeloyl ACP. This intermediate proceeds via type II fatty acid synthesis (FAS II) pathway, to initiate the formation of pimeloyl-ACP, a precursor of biotin synthesis. To further explore molecular basis of BioZ activity, we determine the crystal structure of Agrobacterium tumefaciens BioZ at 1.99 Å, of which the catalytic triad and the substrate-loading tunnel are functionally defined. In particular, we localize that three residues (S84, R147, and S287) at the distant bottom of the tunnel might neutralize the charge of free C-carboxyl group of the primer glutaryl-CoA. Taken together, this study provides molecular insights into the BioZ biotin synthesis pathway.

摘要

生物素是生命三界中必不可少的微量营养素。生物素合成的早期典范步骤表示大肠杆菌中的“BioC-BioH”途径。在这里，我们报告说 BioZ 绕过了经典途径开始生物素合成。除了其根瘤菌的起源外，蛋白质系统发育推断 BioZ 被驯化以获得β-酮酰-ACP 合酶 III 的非典型作用。遗传和生化特征表明，BioZ 催化谷氨酰辅酶 A（或 ACP）与丙二酰-ACP 的缩合反应，生成 5'-酮-壬酰-ACP。该中间体通过 II 型脂肪酸合成（FAS II）途径进行，以开始生物素合成的前体壬酰-ACP 的形成。为了进一步探索 BioZ 活性的分子基础，我们确定了 1.99 Å 的根瘤农杆菌 BioZ 的晶体结构，其中功能定义了催化三联体和底物加载隧道。特别是，我们定位到隧道底部远处的三个残基（S84、R147 和 S287）可能中和引物谷氨酰辅酶 A 的游离 C-羧基的电荷。总之，这项研究为 BioZ 生物素合成途径提供了分子见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e6f/8024396/5fedcca857bd/41467_2021_22360_Fig1_HTML.jpg

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参与细菌生物素合成途径的 BioZ 酶的生化和结构特征。

Biochemical and structural characterization of the BioZ enzyme engaged in bacterial biotin synthesis pathway.

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