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Results 1 - 10 of 11 > >>
EC Number Substrates Commentary Substrates Organism Products Commentary (Products) Reversibility
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more MOCS3 activates both MOCS2A and URM1 by adenylation and a subsequent sulfur transfer step for the formation of the thiocarboxylate group at the C-terminus of each protein The sulfur is mobilized from L-cysteine by NFS1, a pyridoxal phosphate-dependent L-cysteine desulfurase, which forms a persulfide group on its conserved Cys-381 residue. The persulfide group is further transferred to Cys-412 of the C-terminal rhodanese-like domain of MOCS3 Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more MOCS3 catalyzes both the adenylation and the subsequent generation of a thiocarboxylate group at the C-terminus of MOCS2A during Moco biosynthesis in humans. In humans and most eukaryotes thiosulfate is not the physiologic sulfur donor for MOCS3 Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more formation of a defined in vitro system consisting of MPT synthase, MoeB, Mg-ATP, IscS, L-cysteine, and YnjE, overview Escherichia coli ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more MOCS3 and the MOCS3 rhodanese-like domain, MOCS3-RLD, are also capable to catalyze the transfer of sulfur from thiosulfate to cyanide and shows dithiothreitol:thiosulfate oxidoreductase activity, kinetics, overview Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more the MOCS3 rhodanese-like domain, MOCS3-RLD, is also capable to catalyze the transfer of sulfur from thiosulfate to cyanide and shows dithiothreitol:thiosulfate oxidoreductase activity, kinetics, overview Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more the MOCS3 rhodanese-like domain, MOCS3-RLD, is also capable to catalyze the transfer of sulfur from thiosulfate to cyanide. Recombinant MOCS3 can activate MOCS2A but not endogenous Escherichia coli MoaD. MOCS3 exhibits sulfurtransferase activity only with thiosulfate, clearly identifying the enzyme as thiosulfate sulfurtransferase. The thiosulfate sulfurtransferase activity of the separated MOCS3-RLD protein is comparable to that of intact MOCS3 Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more the two-domain protein MOCS3 catalyzes both the adenylation and the subsequent generation of a thiocarboxylate group at the C-terminus of MOCS2A by its C-terminal rhodanese-like domain (RLD), low activity ofMOCS3-RLD with thiosulfate as sulfur donor Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11more the enzyme interacts with tRNA thiouridine modification protein TUM1 Homo sapiens ? - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11[molybdopterin-synthase sulfur-carrier protein]-Gly-Gly-AMP + [cysteine desulfurase]-S-sulfanyl-L-cysteine - Escherichia coli AMP + [molybdopterin-synthase sulfur-carrier protein]-Gly-NH-CH2-C(O)SH + cysteine desulfurase - ?
Show all pathways known for 2.8.1.11Display the word mapDisplay the reaction diagram Show all sequences 2.8.1.11[molybdopterin-synthase sulfur-carrier protein]-Gly-Gly-AMP + [cysteine desulfurase]-S-sulfanyl-L-cysteine - Homo sapiens AMP + [molybdopterin-synthase sulfur-carrier protein]-Gly-NH-CH2-C(O)SH + cysteine desulfurase - ?
Results 1 - 10 of 11 > >>