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Crystal structure of a key enzyme for anaerobic ethane activation

Cedric Jasper Hahn, Olivier N. Lemaire, Jörg Kahnt, Sylvain Engilberge, Gunter Wegener, Tristan Wagner

2021Science57 citationsDOIOpen Access PDF

Abstract

How to feed an enzyme ethane When released from ocean floor seeps, small hydrocarbons are rapidly consumed by micro-organisms. Methane is highly abundant and is both produced and consumed by microbes through well understood biochemical pathways. Less well understood is how ethane, also a major natural component of gaseous hydrocarbons, is metabolized. To understand how microbes take advantage of this energy and carbon source, Hahn et al. solved the x-ray crystal structures of an enzyme they call ethyl coenzyme-M reductase, which converts ethane into the thioether ethyl-coenzyme M as the entry point for catabolism. They found an expanded active site and, using a xenon gas derivatization experiment, a distinctive tunnel through the protein that is proposed to permit access of the gaseous substrate. Science , abg1765, this issue p. 118

Topics & Concepts

ChemistryCofactorThermophileArchaeaActive siteSulfurStereochemistryEnzymeNickelMethaneAnaerobic bacteriaCrystallographyBacteriaBiochemistryOrganic chemistryBiologyGeneGeneticsMethane Hydrates and Related PhenomenaMicrobial Community Ecology and PhysiologyMicrobial metabolism and enzyme function