The overlooked yet critical role of catholyte composition in microbial electrosynthesis. [PDF]
Nat Communvan der Lee D +4 more
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Rice gs3 allele and low-nitrogen conditions enrich rhizosphere microbiota that mitigate methane emissions and promote beneficial crop traits. [PDF]
ISME JKwon Y +13 more
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Environmental Constraints That Limit Methanogenesis
, 2018 Tori Hoehler +3 more
openaire +3 more sources
Biochar mitigates the peatland GHG dilemma under contrasting water table regimes: phase-dependent responses of CO<sub>2</sub> and CH<sub>4</sub> over a two-year study. [PDF]
BiocharJeewani PH +4 more
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Salvianolic acid C inhibits methane emissions in dairy cows by targeting MCR and reshaping the rumen microbial community. [PDF]
J Anim Sci BiotechnolLiu Z +7 more
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Interplay of iron and sulfur with syntrophic propionate oxidation. [PDF]
Front MicrobiolWeng N +4 more
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Overexpression of 2-mercaptoethanesulfonate biosynthesis genes <i>comDE</i> protects methane-producing archaea from oxidative stress. [PDF]
J BacteriolSalvi AM, Hines CJ, Buan NR.
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Effect of Dry-Wet Cycling on Methanotrophs in Wetland Soils. [PDF]
Biology (Basel)Zhu X, Zhang Z, Du A, Liu B.
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Biochemistry of Methanogenesis
Critical Reviews in Biochemistry and Molecular Biology, 1992Methane is a product of the energy-yielding pathways of the largest and most phylogenetically diverse group in the Archaea. These organisms have evolved three pathways that entail a novel and remarkable biochemistry. All of the pathways have in common a reduction of the methyl group of methyl-coenzyme M (CH3-S-CoM) to CH4.
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