Department of Biochemistry, Biophysics and Molecular Biology, Iowa State University, Ames, IA 50011, USA.
J Bacteriol. 2010 Oct;192(19):5071-80. doi: 10.1128/JB.00575-10. Epub 2010 Jul 23.
Salmonella enterica degrades 1,2-propanediol (1,2-PD) in a coenzyme B12 (adenosylcobalamin, AdoCbl)-dependent fashion. Salmonella obtains AdoCbl by assimilation of complex precursors, such as vitamin B12 and hydroxocobalamin. Assimilation of these compounds requires reduction of their central cobalt atom from Co3+ to Co2+ to Co+, followed by adenosylation to AdoCbl. In this work, the His6-tagged PduS cobalamin reductase from S. enterica was produced at high levels in Escherichia coli, purified, and characterized. The anaerobically purified enzyme reduced cob(III)alamin to cob(II)alamin at a rate of 42.3±3.2 μmol min(-1) mg(-1), and it reduced cob(II)alamin to cob(I)alamin at a rate of 54.5±4.2 nmol min(-1) mg(-1) protein. The apparent Km values of PduS-His6 were 10.1±0.7 μM for NADH and 67.5±8.2 μM for hydroxocobalamin in cob(III)alamin reduction. The apparent Km values for cob(II)alamin reduction were 27.5±2.4 μM with NADH as the substrate and 72.4±9.5 μM with cob(II)alamin as the substrate. High-performance liquid chromatography (HPLC) and mass spectrometry (MS) indicated that each monomer of PduS contained one molecule of noncovalently bound flavin mononucleotide (FMN). Genetic studies showed that a pduS deletion decreased the growth rate of Salmonella on 1,2-PD, supporting a role in cobalamin reduction in vivo. Further studies demonstrated that the PduS protein is a component of the Pdu microcompartments (MCPs) used for 1,2-PD degradation and that it interacts with the PduO adenosyltransferase, which catalyzes the terminal step of AdoCbl synthesis. These studies further characterize PduS, an unusual MCP-associated cobalamin reductase, and, in conjunction with prior results, indicate that the Pdu MCP encapsulates a complete cobalamin assimilation system.
肠炎沙门氏菌以辅酶 B12(腺苷钴胺素,AdoCbl)依赖性的方式降解 1,2-丙二醇(1,2-PD)。肠炎沙门氏菌通过同化复杂前体(如维生素 B12 和羟钴胺素)来获取 AdoCbl。这些化合物的同化需要将其中心钴原子从 Co3+还原为 Co2+至 Co+,然后腺苷化形成 AdoCbl。在这项工作中,从肠炎沙门氏菌中生产了高表达的 His6 标记的 PduS 钴胺素还原酶,并对其进行了纯化和表征。在厌氧条件下纯化的酶以 42.3±3.2 μmol min(-1) mg(-1)的速率将 cob(III)alamin 还原为 cob(II)alamin,以 54.5±4.2 nmol min(-1) mg(-1)蛋白的速率将 cob(II)alamin 还原为 cob(I)alamin。PduS-His6 的表观 Km 值分别为 10.1±0.7 μM 和 67.5±8.2 μM,用于 cob(III)alamin 还原时的 NADH 和羟钴胺素。以 NADH 为底物时 cob(II)alamin 还原的表观 Km 值为 27.5±2.4 μM,以 cob(II)alamin 为底物时为 72.4±9.5 μM。高效液相色谱(HPLC)和质谱(MS)表明,PduS 的每个单体都含有一个非共价结合的黄素单核苷酸(FMN)分子。遗传研究表明,pduS 缺失降低了沙门氏菌在 1,2-PD 上的生长速度,支持其在体内还原钴胺素的作用。进一步的研究表明,PduS 蛋白是用于 1,2-PD 降解的 Pdu 微区室(MCPs)的组成部分,并且与 PduO 腺苷转移酶相互作用,后者催化 AdoCbl 合成的末端步骤。这些研究进一步描述了 PduS,一种不寻常的与 MCP 相关的钴胺素还原酶,并且与先前的结果一起表明,Pdu MCP 封装了一个完整的钴胺素同化系统。