Selective lignin and polysaccharide removal in natural fungal decay of wood as evidenced by in situ structural analyses

Summary Selective modification/degradation of the main plant polymers (cellulose, hemicelluloses and lignin) was investigated in a hardwood after white and brown‐rot fungal decay under environmental conditions. The chemical changes produced in the plant cell wall were analysed in situ, by nuclear ma...

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Bibliographic Details
Published in:Environmental microbiology 2011-01, Vol.13 (1), p.96-107
Main Authors: Martínez, Angel T., Rencoret, Jorge, Nieto, Lidia, Jiménez-Barbero, Jesús, Gutiérrez, Ana, del Río, José C.
Format: Article
Language:English
Subjects:
Aromatic compounds
Biodegradation
Cell Wall - chemistry
Cell walls
Cellulose
Decay
Demethylation
Depolymerization
Environmental changes
Environmental conditions
Fungi
Fungi - metabolism
Gas Chromatography-Mass Spectrometry
Gels
Hemicellulose
Lignin
Lignin - analysis
Lignin - chemistry
Magnetic Resonance Spectroscopy
Methanol
Methanol oxidase
Methylation
NMR
Nuclear magnetic resonance
Oxidation-Reduction
Peroxide
Polymers
Polysaccharides
Polysaccharides - analysis
Polysaccharides - chemistry
Pyrolysis
Removal
Rot
Saccharides
Sol-gel processes
Two dimensional analysis
Wood
Wood - chemistry
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Summary:Summary Selective modification/degradation of the main plant polymers (cellulose, hemicelluloses and lignin) was investigated in a hardwood after white and brown‐rot fungal decay under environmental conditions. The chemical changes produced in the plant cell wall were analysed in situ, by nuclear magnetic resonance (NMR) at the gel state, and analytical pyrolysis. Two‐dimensional (2D) NMR of the white‐rotted wood showed only cellulose and (deacetylated) hemicellulose, and the complete removal of lignin. On the other hand, the brown‐rotted wood showed the nearly complete absence of polysaccharides, while the main features of lignin structure, as revealed by 2D‐NMR, could be observed. These included well‐resolved aromatic and side‐chain cross‐signals, although the intensity of the latter signals was lowered indicating a reduction in the number of side‐chain linkages (β‐O‐4′ and β‐β′) per aromatic unit (their relative abundances remaining unchanged). These results contrast with a recent study concluding that the aromatic polymer after brown‐rot decay is not longer recognized as lignin. Some oxidative alteration of lignin during brown‐rot decay was evidenced and, more interesting, several compounds with 3‐methoxycatechol skeleton were released upon pyrolysis. Lignin demethylation is consistent with recent brown‐rot transcriptomic/secretomic studies showing overexpression of methanol oxidase, which could use lignin‐derived methanol to generate the peroxide required for cellulose depolymerization via Fenton chemistry.
ISSN:1462-2912
1462-2920
DOI:10.1111/j.1462-2920.2010.02312.x