The Paleozoic origin of enzymatic lignin decomposition reconstructed from 31 fungal genomes.

Floudas, Dimitrios; Binder, Manfred; Riley, Robert; Barry, Kerrie; Blanchette, Robert A.; Henrissat, Bernard; Martínez, Angel T.; Otillar, Robert; Spatafora, Joseph W.; Yadav, Jagjit S.; Aerts, Andrea L.; Benoit, Isabelle; Boyd, Alex J.; Carlson, Alexis; Copeland, Alex; Coutinho, Pedro M; de Vries, Ronald; Ferreira, Patrícia B.; Findley, Keisha; Foster, Brian M.; Gaskell, Jill A.; Glotzer, Dylan; Górecki, Paweł; Heitman, Joseph; Hesse, Cedar N.; Hori, Chiaki; Igarashi, Kiyohiko; Jurgens, Joel A.; Kallen, Nathan; Kersten, Phil; Kohler, Annegret; Kües, Ursula; Kumar, T K Arun; Kuo, Alan; LaButti, Kurt; Larrondo, Luis F.; Lindquist, Erika A.; Ling, Albee Y.; Lombard, Vincent; Lucas, Susan; Lundell, Taina; Martin, Rachael; McLaughlin, David J; Morgenstern, Ingo; Morin, Emanuelle; Murat, Claude; Nagy, László G.; Nolan, Matt; Ohm, Robin A.; Patyshakuliyeva, Aleksandrina; Rokas, Antonis; Ruiz-Dueñas, Francisco J.; Sabat, Grzegorz; Salamov, Asaf; Samejima, Masahiro; Schmutz, Jeremy; Slot, Jason C.; St. John, Franz; Stenlid, Jan; Sun, Hui; Sun, Sheng; Syed, Khajamohiddin; Tsang, Adrian; Wiebenga, Ad; Young, Darcy; Pisabarro, Antonio G; Eastwood, Daniel C.; Martin, Francis; Cullen, Dan; Grigoriev, Igor V.; Hibbett, David S.

doi:10.1126/science.1221748

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The Paleozoic origin of enzymatic lignin decomposition reconstructed from 31 fungal genomes.

Author(s): Dimitrios Floudas, Manfred Binder, Robert Riley, Kerrie Barry, Robert Blanchette, Bernard Henrissat, Angel Martínez, Robert Otillar, Joseph Spatafora, Jagjit S. Yadav, Andrea Aerts, Isabelle Benoit, Alex J. Boyd, Alexis Carlson, Alex Copeland, Pedro M Coutinho, Ronald P de Vries, Patrícia B. Ferreira, Keisha Findley, Brian M. Foster, Jill A. Gaskell, Dylan Glotzer, Paweł Górecki, Joseph Heitman, Cedar Hesse, Chiaki Hori, Kiyohiko Igarashi, Joel A. Jurgens, Nathan Kallen, Phil Kersten, Annegret Kohler, Ursula Kües, T K Arun Kumar, Alan Kuo, Kurt LaButti, Luis Larrondo, Erika Lindquist, Albee Y. Ling, Vincent Lombard, Susan Lucas, Taina Lundell, Rachael Martin, David J McLaughlin, Ingo Morgenstern, Emanuelle Morin, Claude Murat, László G. Nagy, Matt Nolan, Robin A. Ohm, Aleksandrina Patyshakuliyeva, Antonis Rokas, Francisco J. Ruiz-Dueñas, Grzegorz Sabat, Asaf Salamov, Masahiro Samejima, Jeremy Schmutz, Jason Slot, Franz St. John, Jan Stenlid, Hui Sun, Sheng Sun, Khajamohiddin Syed, Adrian Tsang, Ad Wiebenga, Darcy Young, Antonio Pisabarro, Daniel C. Eastwood, Francis Martin, Dan Cullen, Igor V. Grigoriev, David S. Hibbett

Publication date: 2012-06-29

Journal: Science (New York, N.Y.)

Publisher: American Association for the Advancement of Science (AAAS)

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Abstract

Wood is a major pool of organic carbon that is highly resistant to decay, owing largely to the presence of lignin. The only organisms capable of substantial lignin decay are white rot fungi in the Agaricomycetes, which also contains non-lignin-degrading brown rot and ectomycorrhizal species. Comparative analyses of 31 fungal genomes (12 generated for this study) suggest that lignin-degrading peroxidases expanded in the lineage leading to the ancestor of the Agaricomycetes, which is reconstructed as a white rot species, and then contracted in parallel lineages leading to brown rot and mycorrhizal species. Molecular clock analyses suggest that the origin of lignin degradation might have coincided with the sharp decrease in the rate of organic carbon burial around the end of the Carboniferous period.

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PubMed ID:: 22745431

DOI:: 10.1126/science.1221748

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The Paleozoic origin of enzymatic lignin decomposition reconstructed from 31 fungal genomes.

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