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Coenzyme-B sulfoethylthiotransferase

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(Redirected from Methyl coenzyme M reductase)
coenzyme-B sulfoethylthiotransferase
Identifiers
EC no.2.8.4.1
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In enzymology, coenzyme-B sulfoethylthiotransferase, also known as methyl-coenzyme M reductase (MCR) or most systematically as 2-(methylthio)ethanesulfonate:N-(7-thioheptanoyl)-3-O-phosphothreonine S-(2-sulfoethyl)thiotransferase is an enzyme that catalyzes the final step in the formation of methane.[1] It does so by combining the hydrogen donor coenzyme B and the methyl donor coenzyme M. Via this enzyme, most of the natural gas on earth was produced. Ruminants (e.g. cows) produce methane because their rumens contain methanogenic prokaryotes (Archaea)[2][3] that encode and express the set of genes of this enzymatic complex.

The enzyme has two active sites, each occupied by the nickel-containing F430 cofactor.[4]

methyl-CoM2-(methylthio)ethanesulfonate + coenzyme BN-(7-mercaptoheptanoyl)threonine 3-O-phosphate ⇌ CoM-S-S-CoB + methane
Structure of 2-mercaptoethanesulfonate (coenzyme M: reacts after methylation on the thiol)
Structure of N-(7-mercaptoheptanoyl)threonine 3-O-phosphate (coenzyme B)

The two substrates of this enzyme are 2-(methylthio)ethanesulfonate and N-(7-mercaptoheptanoyl)threonine 3-O-phosphate; its two products are CoM-S-S-CoB and methane. 3-Nitrooxypropanol inhibits the enzyme.[5]

In some species, the enzyme reacts in reverse (a process called reverse methanogenesis), catalysing the anaerobic oxidation of methane, therefore removing it from the environment.[6] Such organisms are methanotrophs.

This enzyme belongs to the family of transferases, specifically those transferring alkylthio groups.

Structure

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Coenzyme-B sulfoethylthiotransferase is a multiprotein complex made up of a pair of identical halves. Each half is made up of three subunits: α, β and γ,[7] also called McrA, McrB and McrG, respectively.

References

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  1. ^ Stephen W., Ragdale (2014). "Chapter 6. Biochemistry of Methyl-Coenzyme M Reductase: The Nickel Metalloenzyme that Catalyzes the Final Step in Synthesis and the First Step in Anaerobic Oxidation of the Greenhouse Gas Methane". In Peter M.H. Kroneck and Martha E. Sosa Torres (ed.). The Metal-Driven Biogeochemistry of Gaseous Compounds in the Environment. Metal Ions in Life Sciences. Vol. 14. Springer. pp. 125–145. doi:10.1007/978-94-017-9269-1_6. PMID 25416393.
  2. ^ "Bovine Rumen - microbewiki".
  3. ^ Whitford MF, Teather RM, Forster RJ (2001). "Phylogenetic analysis of methanogens from the bovine rumen". BMC Microbiology. 1: 5. doi:10.1186/1471-2180-1-5. PMC 32158. PMID 11384509.
  4. ^ Thauer RK (September 1998). "Biochemistry of methanogenesis: a tribute to Marjory Stephenson. 1998 Marjory Stephenson Prize Lecture". Microbiology. 144 (9): 2377–406. doi:10.1099/00221287-144-9-2377. PMID 9782487.
  5. ^ Hristov AN, Oh J, Giallongo F, Frederick TW, Harper MT, Weeks HL, Branco AF, Moate PJ, Deighton MH, Williams SR, Kindermann M, Duval S (August 2015). "An inhibitor persistently decreased enteric methane emission from dairy cows with no negative effect on milk production". Proceedings of the National Academy of Sciences of the United States of America. 112 (34): 10663–8. Bibcode:2015PNAS..11210663H. doi:10.1073/pnas.1504124112. PMC 4553761. PMID 26229078.
  6. ^ Hallam SJ, Putnam N, Preston CM, Detter JC, Rokhsar D, Richardson PM, DeLong EF (September 2004). "Reverse methanogenesis: testing the hypothesis with environmental genomics". Science. 305 (5689): 1457–62. Bibcode:2004Sci...305.1457H. doi:10.1126/science.1100025. PMID 15353801. S2CID 31107045.
  7. ^ Ermler U, Grabarse W, Shima S, Goubeaud M, Thauer RK (November 1997). "Crystal structure of methyl-coenzyme M reductase: the key enzyme of biological methane formation". Science. 278 (5342): 1457–62. Bibcode:1997Sci...278.1457E. doi:10.1126/science.278.5342.1457. PMID 9367957.

Further reading

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