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细菌ApbC能够结合并有效转移铁硫簇。

Bacterial ApbC can bind and effectively transfer iron-sulfur clusters.

作者信息

Boyd Jeffrey M, Pierik Antonio J, Netz Daili J A, Lill Roland, Downs Diana M

机构信息

Department of Bacteriology, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

Biochemistry. 2008 Aug 5;47(31):8195-202. doi: 10.1021/bi800551y. Epub 2008 Jul 11.

DOI:10.1021/bi800551y
PMID:18616280
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2562686/
Abstract

The metabolism of iron-sulfur ([Fe-S]) clusters requires a complex set of machinery that is still being defined. Mutants of Salmonella enterica lacking apbC have nutritional and biochemical properties indicative of defects in [Fe-S] cluster metabolism. ApbC is a 40.8 kDa homodimeric ATPase and as purified contains little iron and no acid-labile sulfide. An [Fe-S] cluster was reconstituted on ApbC, generating a protein that bound 2 mol of Fe and 2 mol of S (2-) per ApbC monomer and had a UV-visible absorption spectrum similar to known [4Fe-4S] cluster proteins. Holo-ApbC could rapidly and effectively activate Saccharomyces cerevisiae apo-isopropylmalate isolomerase (Leu1) in vitro, a process known to require the transfer of a [4Fe-4S] cluster. Maximum activation was achieved with 2 mol of ApbC per 1 mol of apo-Leu1. This article describes the first biochemical activity of ApbC in the context of [Fe-S] cluster metabolism. The data herein support a model in which ApbC coordinates an [4Fe-4S] cluster across its dimer interface and can transfer this cluster to an apoprotein acting as an [Fe-S] cluster scaffold protein, a function recently deduced for its eukaryotic homologues.

摘要

铁硫([Fe-S])簇的代谢需要一套复杂的机制,目前仍在确定之中。缺乏apbC的肠炎沙门氏菌突变体具有营养和生化特性,表明其在[Fe-S]簇代谢方面存在缺陷。ApbC是一种40.8 kDa的同二聚体ATP酶,纯化后的ApbC含铁量很少且不含酸不稳定硫化物。在ApbC上重建了一个[Fe-S]簇,生成的蛋白质每个ApbC单体结合2摩尔铁和2摩尔S(2-),其紫外可见吸收光谱与已知的[4Fe-4S]簇蛋白相似。全酶形式的ApbC能够在体外快速有效地激活酿酒酵母脱辅基异丁基苹果酸异构酶(Leu1),这一过程已知需要转移一个[4Fe-4S]簇。每1摩尔脱辅基Leu1使用2摩尔ApbC时可实现最大激活。本文描述了ApbC在[Fe-S]簇代谢背景下的首个生化活性。本文的数据支持这样一个模型:ApbC通过其二聚体界面协调一个[4Fe-4S]簇,并能将该簇转移到作为[Fe-S]簇支架蛋白的脱辅基蛋白上,这是最近为其真核同源物推断出的一种功能。

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本文引用的文献

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The iron-sulphur protein Ind1 is required for effective complex I assembly.铁硫蛋白Ind1是有效组装复合体I所必需的。
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Salmonella enterica requires ApbC function for growth on tricarballylate: evidence of functional redundancy between ApbC and IscU.肠炎沙门氏菌在三羧基丙酸上生长需要ApbC功能:ApbC与IscU之间功能冗余的证据。
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