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Literature DB >> 26680199

A protein trisulfide couples dissimilatory sulfate reduction to energy conservation.

André A Santos¹, Sofia S Venceslau¹, Fabian Grein¹, William D Leavitt², Christiane Dahl³, David T Johnston², Inês A C Pereira⁴.

Abstract

Microbial sulfate reduction has governed Earth's biogeochemical sulfur cycle for at least 2.5 billion years. However, the enzymatic mechanisms behind this pathway are incompletely understood, particularly for the reduction of sulfite-a key intermediate in the pathway. This critical reaction is performed by DsrAB, a widespread enzyme also involved in other dissimilatory sulfur metabolisms. Using in vitro assays with an archaeal DsrAB, supported with genetic experiments in a bacterial system, we show that the product of sulfite reduction by DsrAB is a protein-based trisulfide, in which a sulfite-derived sulfur is bridging two conserved cysteines of DsrC. Physiological studies also reveal that sulfate reduction rates are determined by cellular levels of DsrC. Dissimilatory sulfate reduction couples the four-electron reduction of the DsrC trisulfide to energy conservation.

Entities: Chemical Gene

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Year: 2015 PMID： 26680199 DOI： 10.1126/science.aad3558

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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