Computational evaluation of relevant species in inorganic sulfur biochemistry

IF 2.9 Q3 CHEMISTRY, PHYSICAL Electronic Structure Pub Date : 2022-12-06 DOI:10.1088/2516-1075/aca945
Juan Cruz Palermo, Jonathan A Córdova, J. Semelak, L. Capece, S. Bari, D. Estrin
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引用次数: 4

Abstract

The role of inorganic sulfur species in biological systems has gained considerable interest since the recognition of sulfanes, particularly dihydrogen sulfide or sulfane, H2S, disulfane, HSSH, trisulfane, HSSSH, and their conjugate bases, as endogenous species and mediators of signaling functions in different tissues. The one-electron oxidation of H2S/HS− has been assigned as the onset of signaling processes or oxidative detoxification mechanisms. These varied sulfur containing inorganic species are, together with organic counterparts, reunited as reactive sulfur species (RSS). In order to shed light on this rich and still not completely explored chemistry, we have performed electronic structure calculations at different levels of theory, to provide estimations and the molecular basis of the pKa values of the polysulfides HSSH and HSSSH and of the radical HS•. In addition, we also reported the characterization of selected inorganic RSS including both radical and non-radical species with different protonation states with the intention of assisting the interpretation of chemical/biochemical experiments involving these species.
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无机硫生物化学中相关物质的计算评价
无机硫在生物系统中的作用已经引起了相当大的兴趣,因为认识到磺胺类,特别是硫化氢二氢或磺胺、H2S、二磺酸、HSSH、三磺酸、HSSSH及其共轭碱,作为内源物种和不同组织信号功能的介质。H2S/HS−的单电子氧化被认为是信号过程或氧化解毒机制的开始。这些不同的含硫无机种类,与有机对应物一起,重新结合为活性硫种类(RSS)。为了揭示这种丰富而尚未完全探索的化学,我们在不同的理论水平上进行了电子结构计算,以提供多硫化物HSSH和HSSSH以及自由基HS•的pKa值的估计和分子基础。此外,我们还报道了选择性无机RSS的表征,包括具有不同质子化状态的自由基和非自由基物种,旨在帮助解释涉及这些物种的化学/生化实验。
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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