- Cofactor F430
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Cofactor F430 Identifiers CAS number 73145-13-8 PubChem 5460020 Properties Molecular formula C42H51N6NiO13– Molar mass 906.58014 F430 (verify) (what is: / ?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)Infobox references F430 is the prosthetic group of the enzyme methyl coenzyme M reductase. It is found only in methanogenic Archaea.[1] This enzyme catalyzes the release of methane in the final step of methanogenesis:
Contents
Corphin in context
Nature uses multiple tetrapyrroles - hemes, chlorophyll, and cobalamin. F430 is the most reduced tetrapyrrole in nature with only five double bonds. This particular tetrapyrrole derivative is called a corphin. Because of its relative lack of conjugated unsaturation, it is yellow, not the intense purple-red associated with more unsaturated tetrapyrroles. It is also the only tetrapyrrole derivative found in nature to contain nickel. Ni(II) is too small for the N4 binding site of the corphin, which causes the macrocycle to adopt a ruffled structure.
Proposed mechanism of methanogenesis
The active form of F430 contains Ni(I), analogously to the reduced B12 cofactors that feature Co(I). Whereas Co(I) is d8 and diamagnetic, Ni(I) is d9 and paramagnetic. The mechanism by which Nature cleaves the CH3–S bond in methyl coenzyme M is presently (2006) unclear although it is known that both coenzyme M and coenzyme B fits into a channel terminated by the axial site on nickel. A plausible mechanism entails electron transfer from Ni(I) (to give Ni(II)), and this electron transfer initiates formation of CH4. Coupling of the coenzyme M thiyl radical with HS coenzyme B releases a proton and re-reduces Ni(II) by one-electron, regenerating Ni(I).[2]
Its structure was deduced by X-ray crystallography and NMR spectroscopy.[3]
Anaerobic methane oxidation
F430 occurs in very high concentrations in bacteria that are thought to be involved in reverse methanogenesis, where methane is converted to methyl coenzyme M. Organisms that promote this remarkable reaction contain 7% by weight nickel protein.[4]
References
- ^ Thauer RK (1998). "Biochemistry of Methanogenesis: a Tribute to Marjory Stephenson". Microbiology 144 (9): 2377–2406. doi:10.1099/00221287-144-9-2377. PMID 9782487. http://mic.sgmjournals.org/cgi/pmidlookup?view=long&pmid=9782487.
- ^ Finazzo C, Harmer J, Bauer C, et al. (April 2003). "Coenzyme B induced coordination of coenzyme M via its thiol group to Ni(I) of F430 in active methyl-coenzyme M reductase". J. Am. Chem. Soc. 125 (17): 4988–9. doi:10.1021/ja0344314. PMID 12708843.
- ^ Farber G, Keller W, Kratky C, Jaun B, Pfaltz A, Spinner C, Kobelt A, Eschenmoser A (1991). "Coenzyme F430 from Methanogenic Bacteria : Complete Assignment of Configuration Based on an X-ray Analysis of 12,13-diepi-F430 Pentamethyl Ester and on NMR Spectroscopy". Helvetica Chimica Acta 74: 697–716.
- ^ Krüger M, Meyerdierks A, Glöckner FO, et al. (December 2003). "A conspicuous nickel protein in microbial mats that oxidize methane anaerobically". Nature 426 (6968): 878–81. doi:10.1038/nature02207. PMID 14685246.
Types of tetrapyrroles Bilanes
(Linear)PhytobilinsPhytochromobilinPhycobilinsMacrocycle PhytoporphyrinsReduced
porphyrinsPorphyrinogensIsobacteriochlorinsSiroheme · SirohydrochlorinCorphinsCofactor F430biochemical families: prot · nucl · carb (glpr, alco, glys) · lipd (fata/i, phld, strd, gllp, eico) · amac/i · ncbs/i · ttpy/iEnzyme cofactors Active forms TPP / ThDP (B1) · FMN, FAD (B2) · NAD+, NADH, NADP+, NADPH (B3) · Coenzyme A (B5) · PLP / P5P (B6) · Biotin (B7) · THFA / H4FA, DHFA / H2FA, MTHF (B9) · AdoCbl, MeCbl (B12) · Ascorbic Acid (C) · Phylloquinone (K1), Menaquinone (K2) · Coenzyme F420ATP · CTP · SAMe · PAPS · GSH · Coenzyme B · Cofactor F430 · Coenzyme M · Coenzyme Q · Heme / Haem (A, B, C, O) · Lipoic Acid · Methanofuran · Molybdopterin/Molybdenum cofactor · PQQ · THB / BH4 · THMPT / H4MPTBase forms M: NUT
cof, enz, met
noco, nuvi, sysi/epon, met
drug(A8/11/12)
Categories:- Tetrapyrroles
- Cofactors
- Nickel compounds
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