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过硫化物(RSSH)/过硫基(RSS·)氧化还原对的化学生物学及其在生物氧化还原信号传导中的可能作用。

The chemical biology of the persulfide (RSSH)/perthiyl (RSS·) redox couple and possible role in biological redox signaling.

作者信息

Bianco Christopher L, Chavez Tyler A, Sosa Victor, Saund Simran S, Nguyen Q Nhu N, Tantillo Dean J, Ichimura Andrew S, Toscano John P, Fukuto Jon M

机构信息

Department of Chemistry, Johns Hopkins University, Baltimore, MD 21218, United States.

Department of Chemistry, Sonoma State University, Rohnert Park, CA 94928, United States.

出版信息

Free Radic Biol Med. 2016 Dec;101:20-31. doi: 10.1016/j.freeradbiomed.2016.09.020. Epub 2016 Sep 25.

DOI:10.1016/j.freeradbiomed.2016.09.020
PMID:27677567
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5154930/
Abstract

The recent finding that hydropersulfides (RSSH) are biologically prevalent in mammalian systems has prompted further investigation of their chemical properties in order to provide a basis for understanding their potential functions, if any. Hydropersulfides have been touted as hyper-reactive thiol-like species that possess increased nucleophilicity and reducing capabilities compared to their thiol counterparts. Herein, using persulfide generating model systems, the ability of RSSH species to act as one-electron reductants has been examined. Not unexpectedly, RSSH is relatively easily oxidized, compared to thiols, by weak oxidants to generate the perthiyl radical (RSS·). Somewhat surprisingly, however, RSS· was found to be stable in the presence of both O and NO and only appears to dimerize. Thus, the RSSH/RSS· redox couple is readily accessible under biological conditions and since dimerization of RSS· may be a rare event due to low concentrations and/or sequestration within a protein, it is speculated that the general lack of reactivity of individual RSS· species may allow this couple to be utilized as a redox component in biological systems.

摘要

最近发现氢过硫化物(RSSH)在哺乳动物系统中普遍存在,这促使人们进一步研究其化学性质,以便为理解它们可能存在的潜在功能提供依据。氢过硫化物被认为是一种高反应性的类似硫醇的物质,与硫醇相比,其亲核性和还原能力有所增强。在此,利用过硫化物生成模型系统,研究了RSSH物种作为单电子还原剂的能力。不出所料,与硫醇相比,RSSH相对容易被弱氧化剂氧化,生成过硫自由基(RSS·)。然而, somewhat令人惊讶的是,发现RSS·在O和NO存在的情况下是稳定的,并且似乎只会二聚化。因此,RSSH/RSS·氧化还原对在生物条件下很容易获得,并且由于RSS·的二聚化可能由于其低浓度和/或在蛋白质中的隔离而很少发生,据推测,单个RSS·物种普遍缺乏反应性可能使该氧化还原对能够在生物系统中用作氧化还原成分。 (注:原文中“Somewhat surprisingly”翻译为“ somewhat令人惊讶的是”不太准确,可改为“ somewhat令人惊讶的是” ,另外整体翻译中个别表述稍显生硬,可优化为:最近有研究发现,氢过硫化物(RSSH)在哺乳动物系统中广泛存在,这促使人们进一步探究其化学性质,以便为理解它们可能具备的潜在功能奠定基础。氢过硫化物被视作一种具有高反应活性的类似硫醇的物质,相较于硫醇,其亲核性和还原能力更强。在此,通过过硫化物生成模型系统,对RSSH物种作为单电子还原剂的能力进行了研究。不出所料,与硫醇相比,RSSH相对容易被弱氧化剂氧化,进而生成过硫自由基(RSS·)。然而,令人 somewhat惊讶的是,研究发现RSS·在O和NO存在的情况下较为稳定,且似乎仅会发生二聚化。因此,在生物条件下,RSSH/RSS·氧化还原对易于形成。鉴于RSS·的二聚化可能因浓度较低和/或被蛋白质隔离而很少发生,据推测,单个RSS·物种普遍缺乏反应活性或许使得该氧化还原对能够在生物系统中作为氧化还原成分发挥作用。 ) 你可根据实际需求选择合适的译文 。 需注意,原文中“ somewhat”在这里表意不太清晰准确,若结合上下文能明确其确切含义会更好地优化翻译 。 )

建议你检查下原文准确性,尤其是“ somewhat”这个词,可能存在信息缺失或表述有误的情况,会影响精准理解和翻译质量 。 这段文本整体专业性较强,翻译时尽量在准确传达原意基础上让译文更通顺自然 。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d54/5154930/173dc1d9199e/nihms822082f1.jpg

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