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Thioester synthesis through geoelectrochemical CO2 fixation on Ni sulfides

Norio Kitadai, Ryuhei Nakamura, Masahiro Yamamoto, Satoshi Okada, Wataru Takahagi, Yuko Nakano, Yoshio Takahashi, Ken Takai, Y. Oono

2021Communications Chemistry46 citationsDOIOpen Access PDF

Abstract

Abstract A prevailing scenario of the origin of life postulates thioesters as key intermediates in protometabolism, but there is no experimental support for the prebiotic CO 2 fixation routes to thioesters. Here we demonstrate that, under a simulated geoelectrochemical condition in primordial ocean hydrothermal systems (–0.6 to –1.0 V versus the standard hydrogen electrode), nickel sulfide (NiS) gradually reduces to Ni 0 , while accumulating surface-bound carbon monoxide (CO) due to CO 2 electroreduction. The resultant partially reduced NiS realizes thioester (S-methyl thioacetate) formation from CO and methanethiol even at room temperature and neutral pH with the yield up to 35% based on CO. This thioester formation is not inhibited, or even improved, by 50:50 coprecipitation of NiS with FeS or CoS (the maximum yields; 27 or 56%, respectively). Such a simple thioester synthesis likely occurred in Hadean deep-sea vent environments, setting a stage for the autotrophic origin of life.

Topics & Concepts

ThioesterCoprecipitationChemistryMethanethiolCarbon monoxideCarbon fixationYield (engineering)AbiogenesisInorganic chemistryPhotochemistrySulfurCatalysisOrganic chemistryCarbon dioxideAstrobiologyMaterials scienceMetallurgyEnzymePhysicsOrigins and Evolution of LifePhotoreceptor and optogenetics researchPaleontology and Stratigraphy of Fossils
Thioester synthesis through geoelectrochemical CO2 fixation on Ni sulfides | Litcius