The Wolfe Cycle is a methanogenic pathway used by archaea; the archaeon takes H2 and CO2 and cycles them through a various intermediates to create methane.[1] The Wolfe Cycle is modified in different orders and classes of archaea as per the resource availability and requirements for each species, but it retains the same basic pathway.[1] The pathway begins with the reducing carbon dioxide to formylmethanofuran.[1] The last step uses heterodisulfide reductase (Hdr) to reduce heterodisulfide into Coenzyme B and Coenzyme M using Fe4S4 clusters.[1][2] Evidence suggests this last step goes hand-in-hand with the first step, and feeds back into it, creating a cycle.[1] At various points in the Wolfe Cycle, intermediates that are formed are taken out of the cycle to be used in other metabolic processes.[1][3] Since intermediates are being taken out at various points in the cycle, there is also a replenishing (anaplerotic) reaction that feeds into the Wolfe cycle, this is to regenerate necessary intermediates for the cycle to continue.[1] Overall, including the replenishing reaction, the Wolfe Cycle has a total of nine steps.[1] While Obligate reducing methanogens perform additional steps to reduce CO2 to .
Discovery
editIn 1971, in a review published by Robert Stoner Wolfe, information regarding methanogenesis in M. bryantii was published. At the time, the only thing known about this process was that Coenzyme M was involved.[4] In addition, methanogenesis was thought to follow a linear pathway. It was not until 1986 that the reduction of to was proposed to occur in a cycle when it was shown that Steps 8 and 1 are coupled.[4]
Steps
editThe Wolfe Cycle follows multiple pathways, depending on the microbe. Below are generalized steps in the Wolfe Cycle.
steps | reactants | Enzymes[4] | Products used in cycle |
---|---|---|---|
1 | Formyl-methanofuran dehydrogenase | ||
2 | Formyltransferase | ||
3 | methenyl-H4MPT cyclohydrolase | ||
4 | methylene-H4MPT dehydrogenase | ||
5 | methylene-H4MPT reductase | ||
6 | methyl-H4MPT/HSCoM methyl transferase | ||
7 | methyl-S-CoM reductase | ||
8 | electron bifurcating hydrogenase-heterodisulfide reductase complex | ||
9 | F420-reducing hydrogenase |
References
edit- ^ a b c d e f g h Thauer, Rudolf K. (2012-09-18). "The Wolfe cycle comes full circle". Proceedings of the National Academy of Sciences. 109 (38): 15084–15085. Bibcode:2012PNAS..10915084T. doi:10.1073/pnas.1213193109. ISSN 0027-8424. PMC 3458314. PMID 22955879.
- ^ Wu, Jue; Chen, Shi-Lu (2022-02-18). "Key Piece in the Wolfe Cycle of Methanogenesis: The S–S Bond Dissociation Conducted by Noncubane [Fe 4 S 4 ] Cluster-Dependent Heterodisulfide Reductase". ACS Catalysis. 12 (4): 2606–2622. doi:10.1021/acscatal.1c06036. ISSN 2155-5435.
- ^ Vo, Chi Hung; Goyal, Nishu; Karimi, Iftekhar A; Kraft, Markus (January 2020). "First Observation of an Acetate Switch in a Methanogenic Autotroph ( Methanococcus maripaludis S2)". Microbiology Insights. 13: 117863612094530. doi:10.1177/1178636120945300. ISSN 1178-6361. PMC 7416134. PMID 32843840.
- ^ a b c Balch, William E.; Ferry, James G. (2021-01-01), Poole, Robert K.; Kelly, David J. (eds.), "Chapter One - The Wolfe cycle of carbon dioxide reduction to methane revisited and the Ralph Stoner Wolfe legacy at 100 years", Advances in Microbial Physiology, 79, Academic Press: 1–23, doi:10.1016/bs.ampbs.2021.07.003, PMID 34836609, S2CID 244550528, retrieved 2023-11-27