Sulfur incorporation into biomolecules: recent advances.

IF 6.2 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Shramana Chatterjee, Robert P Hausinger
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引用次数: 2

Abstract

Sulfur is an essential element for a variety of cellular constituents in all living organisms and adds considerable functionality to a wide range of biomolecules. The pathways for incorporating sulfur into central metabolites of the cell such as cysteine, methionine, cystathionine, and homocysteine have long been established. Furthermore, the importance of persulfide intermediates during the biosynthesis of thionucleotide-containing tRNAs, iron-sulfur clusters, thiamin diphosphate, and the molybdenum cofactor are well known. This review briefly surveys these topics while emphasizing more recent aspects of sulfur metabolism that involve unconventional biosynthetic pathways. Sacrificial sulfur transfers from protein cysteinyl side chains to precursors of thiamin and the nickel-pincer nucleotide (NPN) cofactor are described. Newer aspects of synthesis for lipoic acid, biotin, and other compounds are summarized, focusing on the requisite iron-sulfur cluster destruction. Sulfur transfers by using a noncore sulfide ligand bound to a [4Fe-4S] cluster are highlighted for generating certain thioamides and for alternative biosynthetic pathways of thionucleotides and the NPN cofactor. Thioamide formation by activating an amide oxygen atom via phosphorylation also is illustrated. The discussion of these topics stresses the chemical reaction mechanisms of the transformations and generally avoids comments on the gene/protein nomenclature or the sources of the enzymes. This work sets the stage for future efforts to decipher the diverse mechanisms of sulfur incorporation into biological molecules.

硫与生物分子的结合:最新进展。
硫是所有生物体中各种细胞成分的必需元素,并为广泛的生物分子增加了相当大的功能。将硫纳入细胞中心代谢物(如半胱氨酸、蛋氨酸、半胱甘氨酸和同型半胱氨酸)的途径早已确立。此外,过硫中间体在含硫核苷酸的trna、铁硫簇、硫胺二磷酸和钼辅助因子的生物合成中的重要性是众所周知的。本文简要综述了这些主题,同时强调了涉及非常规生物合成途径的硫代谢的最新方面。牺牲硫从蛋白质半胱氨酸侧链转移到硫胺素和镍钳核苷酸(NPN)辅因子的前体。综述了硫辛酸、生物素和其他化合物合成的最新进展,重点介绍了铁硫团簇破坏的必要条件。利用与[4Fe-4S]簇结合的非核硫化物配体进行硫转移,可以生成某些硫酰胺,也可以替代硫核苷酸和NPN辅因子的生物合成途径。还说明了通过磷酸化激活酰胺氧原子形成硫酰胺。这些主题的讨论强调转化的化学反应机制,一般避免评论基因/蛋白质的命名法或酶的来源。这项工作为未来破译硫与生物分子结合的不同机制奠定了基础。
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
CiteScore
14.90
自引率
0.00%
发文量
6
期刊介绍: As the discipline of biochemistry and molecular biology have greatly advanced in the last quarter century, significant contributions have been made towards the advancement of general medicine, genetics, immunology, developmental biology, and biophysics. Investigators in a wide range of disciplines increasingly require an appreciation of the significance of current biochemical and molecular biology advances while, members of the biochemical and molecular biology community itself seek concise information on advances in areas remote from their own specialties. Critical Reviews in Biochemistry and Molecular Biology believes that well-written review articles prove an effective device for the integration and meaningful comprehension of vast, often contradictory, literature. Review articles also provide an opportunity for creative scholarship by synthesizing known facts, fruitful hypotheses, and new concepts. Accordingly, Critical Reviews in Biochemistry and Molecular Biology publishes high-quality reviews that organize, evaluate, and present the current status of high-impact, current issues in the area of biochemistry and molecular biology. Topics are selected on the advice of an advisory board of outstanding scientists, who also suggest authors of special competence. The topics chosen are sufficiently broad to interest a wide audience of readers, yet focused enough to be within the competence of a single author. Authors are chosen based on their activity in the field and their proven ability to produce a well-written publication.
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