来自沙门氏菌的 ApbE 蛋白与 FAD 的结合:一类新的 FAD 结合蛋白。
FAD binding by ApbE protein from Salmonella enterica: a new class of FAD-binding proteins.
机构信息
Department of Bacteriology, University of Wisconsin, Madison, WI 53706, USA.
出版信息
J Bacteriol. 2011 Feb;193(4):887-95. doi: 10.1128/JB.00730-10. Epub 2010 Dec 10.
Abstract
The periplasmic protein ApbE was identified through the analysis of several mutants defective in thiamine biosynthesis and was implicated as having a role in iron-sulfur cluster biosynthesis or repair. While mutations in apbE cause decreased activity of several iron-sulfur enzymes in vivo, the specific role of ApbE remains unknown. Members of the AbpE family include NosX and RnfF, which have been implicated in oxidation-reduction associated with nitrous oxide and nitrogen metabolism, respectively. In this work, we show that ApbE binds one FAD molecule per monomeric unit. The structure of ApbE in the presence of bound FAD reveals a new FAD-binding motif. Protein variants that are nonfunctional in vivo were generated by random and targeted mutagenesis. Each variant was substituted in the environment of the FAD and analyzed for FAD binding after reconstitution. The variant that altered a key tyrosine residue involved in FAD binding prevented reconstitution of the protein.
摘要
周质蛋白 ApbE 通过对几种在硫胺素生物合成中缺陷的突变体的分析而被鉴定,并被认为在铁硫簇生物合成或修复中具有作用。虽然 apbE 突变导致体内几种铁硫酶的活性降低,但 ApbE 的具体作用仍然未知。AbpE 家族的成员包括 NosX 和 RnfF,它们分别与与一氧化二氮和氮代谢相关的氧化还原作用有关。在这项工作中,我们表明 ApbE 每个单体结合一个 FAD 分子。结合 FAD 的 ApbE 的结构揭示了一个新的 FAD 结合基序。通过随机和靶向诱变生成了在体内无功能的蛋白质变体。每个变体都在 FAD 的环境中取代,并在重组后分析 FAD 结合。改变 FAD 结合关键酪氨酸残基的变体阻止了蛋白质的重组。
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