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1 enzyme B-dependent two-electron reduction of methyl-coenzyme M.
2 he final step of methane formation, in which methyl-coenzyme M (2-methylthioethanesulfonate, methyl-S
3 ep of methanogenesis in which coenzyme B and methyl-coenzyme M are converted to methane and the heter
4 M reductase (MCR) catalyzes the formation of methyl-coenzyme M (CH(3)S-CH(2)CH(2)SO(3)) from methane.
6 (MCR) catalyzes the reversible reduction of methyl-coenzyme M (CH3-S-CoM) and coenzyme B (HS-CoB) to
7 atalyzes the key step in the process, namely methyl-coenzyme M (CH3-S-CoM) plus coenzyme B (HS-CoB) t
8 n each of these pathways is the reduction of methyl-coenzyme M (CoM) to methane catalyzed by methyl-C
10 ctase (MCR) catalyzes methane formation from methyl-coenzyme M (methyl-SCoM) and N-7-mercaptoheptanoy
11 anogenesis, catalyzes methane formation from methyl-coenzyme M (methyl-SCoM) and N-7-mercaptoheptanoy
12 step in methane biogenesis: the reduction of methyl-coenzyme M (methyl-SCoM) by coenzyme B (CoBSH) to
13 fuse leading to homolysis of the C-S bond of methyl-coenzyme M (methyl-SCoM) to generate a methyl rad
14 oBSH) as the two-electron donor, MCR reduces methyl-coenzyme M (methyl-SCoM) to methane and the mixed
19 nt N5,N10-methenyl-H4MPT reductase (MTD) and methyl coenzyme M reductase I (MRI), respectively, were
20 opterin (methenyl-H4MPT) reductase (MTH) and methyl coenzyme M reductase II (MRII), respectively.
22 implicated in the methylation of Arg-285 in methyl coenzyme M reductase, binds a methylcobalamin cof
40 Discovery of the methanogenesis gene cluster methyl-coenzyme M reductase (Mcr) in the Bathyarchaeota,
41 According to the well-accepted mechanism, methyl-coenzyme M reductase (MCR) involves Ni-mediated t
45 ves as a homologous substrate for the enzyme methyl-coenzyme M reductase (MCR) resulting in the produ
47 ted with archaeal methane/alkane metabolism, methyl-coenzyme M reductase (Mcr), in metagenome-assembl
48 nce of the central enzyme in methanogenesis, methyl-coenzyme M reductase (MCR), in Methanosarcina ace
50 d multiple mcrA gene sequences, encoding for methyl-coenzyme M reductase (Mcr), the key methanogenic
53 icly available metagenomes for homologues of methyl-coenzyme M reductase complex (MCR), we have obtai
55 (i) an engineered archaeal strain to produce methyl-coenzyme M reductase from unculturable anaerobic
56 we characterize the TfuA protein involved in methyl-coenzyme M reductase thioamidation and demonstrat
57 evel of Fsr protein is comparable to that of methyl-coenzyme M reductase, an enzyme essential for met
58 ane biogenesis in methanogens is mediated by methyl-coenzyme M reductase, an enzyme that is also resp
59 he genes that are necessary for a functional methyl-coenzyme M reductase, and all subunits were detec
60 he genes that are necessary for a functional methyl-coenzyme M reductase, and all subunits were detec
61 enes encoding methanogenesis enzymes such as methyl-coenzyme M reductase, heterodisulfide reductases
66 specific focus on archaea that use specific methyl coenzyme M reductases to activate their substrate