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Wood–Ljungdahl pathway

February 16, 2024

The Wood–Ljungdahl pathway is a set of biochemical reactions used by some bacteria. It is also known as the reductive acetyl-coenzyme A (Acetyl-CoA) pathway.[1] This pathway enables these organisms to use hydrogen as an electron donor, and carbon dioxide as an electron acceptor and as a building block for biosynthesis.

The reductive acetyl–CoA pathway

In this pathway carbon dioxide is reduced to carbon monoxide and formic acid or directly into a formyl group, the formyl group is reduced to a methyl group and then combined with the carbon monoxide and Coenzyme A to produce acetyl-CoA. Two specific enzymes participate on the carbon monoxide side of the pathway: CO Dehydrogenase and acetyl-CoA synthase. The former catalyzes the reduction of the CO2 and the latter combines the resulting CO with a methyl group to give acetyl-CoA.[1][2]

Some anaerobic bacteria use the Wood–Ljungdahl pathway in reverse to break down acetate. For example, Sulfate reducing bacteria oxidize acetate completely to CO2 and H2 coupled with the reduction of sulfate to sulfide.[3] When operating in the reverse direction, the acetyl-CoA synthase is sometimes called acetyl-CoA decarbonylase.

Not to be confused with the Wood-Ljungdahl pathway, an evolutionarily related but biochemically distinct pathway named the Wolfe Cycle[4] occurs exclusively in some methanogenic archaea called methanogens.[5] In these anaerobic archaea, the Wolfe Cycle functions as a methanogenesis pathway to reduce CO2 into methane with electron donors such as hydrogen and formate.[6]

Evolution edit

Relevance to abiogenesis edit

Main article: Iron–sulfur world hypothesis

It has been proposed that the reductive acetyl-CoA pathway might have begun at deep sea alkaline hydrothermal vents where metal sulfides and metals catalyze the prebiotic reactions of the reductive acetyl-CoA pathway.[7] Recent experiments have tried to replicate this pathway by attempting to reduce CO2, with very little pyruvate observed using native iron as a reducing agent (<0.03 mM),[8] and even less so under hydrothermal settings with H2 (10 μM).[9] Joseph Moran and colleagues state that "it has been proposed that either the complete or “horseshoe” forms of the rTCA cycle may have once been united with the acetyl CoA pathway in an ancestral, possibly prebiotic, carbon fixation network".[8]

Last universal common ancestor edit

A 2016 study of the genomes of a set of bacteria and archaea suggested that the last universal common ancestor (LUCA) of all cells was using an ancient Wood–Ljungdahl pathway in a hydrothermal setting,[10] but more recent work challenges this conclusion as they argued that the previous study had "undersampled protein families, resulting in incomplete phylogenetic trees which do not reflect protein family evolution".[11] However geological evidence and phylogenomic reconstructions of the metabolic network of the common ancestors of archaea and bacteria support that LUCA fixed CO2 and relied on H2.[12][9]

Historical references edit

  • Ljungdahl LG (1969). "Total synthesis of acetate from CO2 by heterotrophic bacteria". Annual Review of Microbiology. 23 (1): 515–38. doi:10.1146/annurev.mi.23.100169.002503. PMID 4899080.
  • Ljungdahl LG (1986-01-01). "The autotrophic pathway of acetate synthesis in acetogenic bacteria". Annual Review of Microbiology. 40 (1): 415–50. doi:10.1146/annurev.micro.40.1.415. PMID 3096193.
  • Ljungdahl LG (2009). "A life with acetogens, thermophiles, and cellulolytic anaerobes". Annual Review of Microbiology. 63 (1): 1–25. doi:10.1146/annurev.micro.091208.073617. PMID 19575555.

See also edit

References edit

  1. ^ a b Ragsdale Stephen W (2006). "Metals and Their Scaffolds To Promote Difficult Enzymatic Reactions". Chem. Rev. 106 (8): 3317–3337. doi:10.1021/cr0503153. PMID 16895330.
  2. ^ Paul A. Lindahl "Nickel-Carbon Bonds in Acetyl-Coenzyme A Synthases/Carbon Monoxide Dehydrogenases" Met. Ions Life Sci. 2009, volume 6, pp. 133–150. doi:10.1039/9781847559159-00133
  3. ^ Spormann, Alfred M.; Thauer, Rudolf K. (1988). "Anaerobic acetate oxidation to CO2 by Desulfotomaculum acetoxidans". Archives of Microbiology. 150 (4): 374–380. doi:10.1007/BF00408310. ISSN 0302-8933. S2CID 2158253.
  4. ^ Thauer, Rudolf K. (2012). "The Wolfe cycle comes full circle". Proceedings of the National Academy of Sciences of the United States of America. 109 (38): 15084–15085. doi:10.1073/pnas.1213193109. PMC 3458314. PMID 22955879.
  5. ^ Matschiavelli, N.; Oelgeschlager, E.; Cocchiararo, B.; Finke, J.; Rother, M. (2012). "Function and regulation of isoforms of carbon monoxide dehydrogenase/acetyl-CoA synthase in Methanosarcina acetivorans". Journal of Bacteriology. 194 (19): 5377–87. doi:10.1128/JB.00881-12. PMC 3457241. PMID 22865842.
  6. ^ Lyu, Z.; Shao, N.; Akinyemi, T.; Whitman, WB. (2018). "Methanogenesis". Current Biology. 28 (13): R727–R732. doi:10.1016/j.cub.2018.05.021. PMID 29990451.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  7. ^ Russell, M. J.; Martin, W. (2004). "The rocky roots of the acetyl-CoA pathway". Trends in Biochemical Sciences. 29 (7): 358–363. doi:10.1016/j.tibs.2004.05.007. ISSN 0968-0004. PMID 15236743.
  8. ^ a b Varma, Sreejith J.; Muchowska, Kamila B.; Chatelain, Paul; Moran, Joseph (2018-04-23). "Native iron reduces CO2 to intermediates and end-products of the acetyl-CoA pathway". Nature Ecology & Evolution. 2 (6): 1019–1024. doi:10.1038/s41559-018-0542-2. ISSN 2397-334X. PMC 5969571. PMID 29686234.
  9. ^ a b Preiner, Martina; Igarashi, Kensuke; Muchowska, Kamila B.; Yu, Mingquan; Varma, Sreejith J.; Kleinermanns, Karl; Nobu, Masaru K.; Kamagata, Yoichi; Tüysüz, Harun; Moran, Joseph; Martin, William F. (April 2020). "A hydrogen-dependent geochemical analogue of primordial carbon and energy metabolism" (PDF). Nature Ecology & Evolution. 4 (4): 534–542. doi:10.1038/s41559-020-1125-6. ISSN 2397-334X. PMID 32123322. S2CID 211729738.
  10. ^ M. C. Weiss; et al. (2016). "The physiology and habitat of the last universal common ancestor". Nature Microbiology. 1 (16116): 16116. doi:10.1038/nmicrobiol.2016.116. PMID 27562259. S2CID 2997255.
  11. ^ S. J. Berkemer; et al. (2021). "A new analysis of archaea-bacteria domain separation: Variable phylogenetic distance and the tempo of early evolution". Molecular Biology and Evolution. 37 (8): 2332–2340. doi:10.1093/molbev/msaa089. PMC 7403611. PMID 32316034.
  12. ^ Xavier, Joana C.; Gerhards, Rebecca E.; Wimmer, Jessica L. E.; Brueckner, Julia; Tria, Fernando D. K.; Martin, William F. (2021-03-26). "The metabolic network of the last bacterial common ancestor". Communications Biology. 4 (1): 413. doi:10.1038/s42003-021-01918-4. ISSN 2399-3642. PMC 7997952. PMID 33772086.

Other reading edit

  • Wood HG (February 1991). "Life with CO or CO2 and H2 as a source of carbon and energy". FASEB J. 5 (2): 156–63. doi:10.1096/fasebj.5.2.1900793. PMID 1900793. S2CID 45967404.
  • Diekert G, Wohlfarth G (1994). "Metabolism of homoacetogens". Antonie van Leeuwenhoek. 66 (1–3): 209–21. doi:10.1007/BF00871640. PMID 7747932. S2CID 7473300.

February 16, 2024
wood, ljungdahl, pathway, biochemical, reactions, used, some, bacteria, also, known, reductive, acetyl, coenzyme, acetyl, pathway, this, pathway, enables, these, organisms, hydrogen, electron, donor, carbon, dioxide, electron, acceptor, building, block, biosyn. The Wood Ljungdahl pathway is a set of biochemical reactions used by some bacteria It is also known as the reductive acetyl coenzyme A Acetyl CoA pathway 1 This pathway enables these organisms to use hydrogen as an electron donor and carbon dioxide as an electron acceptor and as a building block for biosynthesis The reductive acetyl CoA pathwayIn this pathway carbon dioxide is reduced to carbon monoxide and formic acid or directly into a formyl group the formyl group is reduced to a methyl group and then combined with the carbon monoxide and Coenzyme A to produce acetyl CoA Two specific enzymes participate on the carbon monoxide side of the pathway CO Dehydrogenase and acetyl CoA synthase The former catalyzes the reduction of the CO2 and the latter combines the resulting CO with a methyl group to give acetyl CoA 1 2 Some anaerobic bacteria use the Wood Ljungdahl pathway in reverse to break down acetate For example Sulfate reducing bacteria oxidize acetate completely to CO2 and H2 coupled with the reduction of sulfate to sulfide 3 When operating in the reverse direction the acetyl CoA synthase is sometimes called acetyl CoA decarbonylase Not to be confused with the Wood Ljungdahl pathway an evolutionarily related but biochemically distinct pathway named the Wolfe Cycle 4 occurs exclusively in some methanogenic archaea called methanogens 5 In these anaerobic archaea the Wolfe Cycle functions as a methanogenesis pathway to reduce CO2 into methane with electron donors such as hydrogen and formate 6 Contents 1 Evolution 1 1 Relevance to abiogenesis 1 2 Last universal common ancestor 2 Historical references 3 See also 4 References 5 Other readingEvolution editRelevance to abiogenesis edit Main article Iron sulfur world hypothesis It has been proposed that the reductive acetyl CoA pathway might have begun at deep sea alkaline hydrothermal vents where metal sulfides and metals catalyze the prebiotic reactions of the reductive acetyl CoA pathway 7 Recent experiments have tried to replicate this pathway by attempting to reduce CO2 with very little pyruvate observed using native iron as a reducing agent lt 0 03 mM 8 and even less so under hydrothermal settings with H2 10 mM 9 Joseph Moran and colleagues state that it has been proposed that either the complete or horseshoe forms of the rTCA cycle may have once been united with the acetyl CoA pathway in an ancestral possibly prebiotic carbon fixation network 8 Last universal common ancestor edit A 2016 study of the genomes of a set of bacteria and archaea suggested that the last universal common ancestor LUCA of all cells was using an ancient Wood Ljungdahl pathway in a hydrothermal setting 10 but more recent work challenges this conclusion as they argued that the previous study had undersampled protein families resulting in incomplete phylogenetic trees which do not reflect protein family evolution 11 However geological evidence and phylogenomic reconstructions of the metabolic network of the common ancestors of archaea and bacteria support that LUCA fixed CO2 and relied on H2 12 9 Historical references editLjungdahl LG 1969 Total synthesis of acetate from CO2 by heterotrophic bacteria Annual Review of Microbiology 23 1 515 38 doi 10 1146 annurev mi 23 100169 002503 PMID 4899080 Ljungdahl LG 1986 01 01 The autotrophic pathway of acetate synthesis in acetogenic bacteria Annual Review of Microbiology 40 1 415 50 doi 10 1146 annurev micro 40 1 415 PMID 3096193 Ljungdahl LG 2009 A life with acetogens thermophiles and cellulolytic anaerobes Annual Review of Microbiology 63 1 1 25 doi 10 1146 annurev micro 091208 073617 PMID 19575555 See also editCarbon fixation Carbon monoxide dehydrogenase Syngas fermentation MethanogenesisReferences edit a b Ragsdale Stephen W 2006 Metals and Their Scaffolds To Promote Difficult Enzymatic Reactions Chem Rev 106 8 3317 3337 doi 10 1021 cr0503153 PMID 16895330 Paul A Lindahl Nickel Carbon Bonds in Acetyl Coenzyme A Synthases Carbon Monoxide Dehydrogenases Met Ions Life Sci 2009 volume 6 pp 133 150 doi 10 1039 9781847559159 00133 Spormann Alfred M Thauer Rudolf K 1988 Anaerobic acetate oxidation to CO2 by Desulfotomaculum acetoxidans Archives of Microbiology 150 4 374 380 doi 10 1007 BF00408310 ISSN 0302 8933 S2CID 2158253 Thauer Rudolf K 2012 The Wolfe cycle comes full circle Proceedings of the National Academy of Sciences of the United States of America 109 38 15084 15085 doi 10 1073 pnas 1213193109 PMC 3458314 PMID 22955879 Matschiavelli N Oelgeschlager E Cocchiararo B Finke J Rother M 2012 Function and regulation of isoforms of carbon monoxide dehydrogenase acetyl CoA synthase in Methanosarcina acetivorans Journal of Bacteriology 194 19 5377 87 doi 10 1128 JB 00881 12 PMC 3457241 PMID 22865842 Lyu Z Shao N Akinyemi T Whitman WB 2018 Methanogenesis Current Biology 28 13 R727 R732 doi 10 1016 j cub 2018 05 021 PMID 29990451 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Russell M J Martin W 2004 The rocky roots of the acetyl CoA pathway Trends in Biochemical Sciences 29 7 358 363 doi 10 1016 j tibs 2004 05 007 ISSN 0968 0004 PMID 15236743 a b Varma Sreejith J Muchowska Kamila B Chatelain Paul Moran Joseph 2018 04 23 Native iron reduces CO2 to intermediates and end products of the acetyl CoA pathway Nature Ecology amp Evolution 2 6 1019 1024 doi 10 1038 s41559 018 0542 2 ISSN 2397 334X PMC 5969571 PMID 29686234 a b Preiner Martina Igarashi Kensuke Muchowska Kamila B Yu Mingquan Varma Sreejith J Kleinermanns Karl Nobu Masaru K Kamagata Yoichi Tuysuz Harun Moran Joseph Martin William F April 2020 A hydrogen dependent geochemical analogue of primordial carbon and energy metabolism PDF Nature Ecology amp Evolution 4 4 534 542 doi 10 1038 s41559 020 1125 6 ISSN 2397 334X PMID 32123322 S2CID 211729738 M C Weiss et al 2016 The physiology and habitat of the last universal common ancestor Nature Microbiology 1 16116 16116 doi 10 1038 nmicrobiol 2016 116 PMID 27562259 S2CID 2997255 S J Berkemer et al 2021 A new analysis of archaea bacteria domain separation Variable phylogenetic distance and the tempo of early evolution Molecular Biology and Evolution 37 8 2332 2340 doi 10 1093 molbev msaa089 PMC 7403611 PMID 32316034 Xavier Joana C Gerhards Rebecca E Wimmer Jessica L E Brueckner Julia Tria Fernando D K Martin William F 2021 03 26 The metabolic network of the last bacterial common ancestor Communications Biology 4 1 413 doi 10 1038 s42003 021 01918 4 ISSN 2399 3642 PMC 7997952 PMID 33772086 Other reading editWood HG February 1991 Life with CO or CO2 and H2 as a source of carbon and energy FASEB J 5 2 156 63 doi 10 1096 fasebj 5 2 1900793 PMID 1900793 S2CID 45967404 Diekert G Wohlfarth G 1994 Metabolism of homoacetogens Antonie van Leeuwenhoek 66 1 3 209 21 doi 10 1007 BF00871640 PMID 7747932 S2CID 7473300 Retrieved from https en wikipedia org w index php title Wood Ljungdahl pathway amp oldid 1199579569, wikipedia, 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