2019
DOI: 10.1021/acssuschemeng.9b05780
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Structural Motifs of Wheat Straw Lignin Differ in Susceptibility to Degradation by the White-Rot Fungus Ceriporiopsis subvermispora

Abstract: The white-rot fungus Ceriporiopsis subvermispora delignifies plant biomass extensively and selectively and, therefore, has great biotechnological potential. We previously demonstrated that after 7 weeks of fungal growth on wheat straw 70% w/w of lignin was removed and established the underlying degradation mechanisms via selectively extracted diagnostic substructures. In this work, we fractionated the residual (more intact) lignin and comprehensively characterized the obtained isolates to determine the suscept… Show more

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Cited by 21 publications
(22 citation statements)
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“…1), we would have expected to see more prominent changes in the structural characteristics of the residual lignin. For several white-rot fungal-treated samples we, and others, have previously observed an approximate doubling of total C α -oxidized moieties at comparable extents of delignification [18,28,29], and C. subvermispora showed a 16-fold increase in diketone markers [20]. These observations would suggest that different (or additional) degradation routes underlie delignification, as elaborated below.…”
Section: C-is Py-gc-ms Structural Characterization Of Untreated and 7supporting
confidence: 58%
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“…1), we would have expected to see more prominent changes in the structural characteristics of the residual lignin. For several white-rot fungal-treated samples we, and others, have previously observed an approximate doubling of total C α -oxidized moieties at comparable extents of delignification [18,28,29], and C. subvermispora showed a 16-fold increase in diketone markers [20]. These observations would suggest that different (or additional) degradation routes underlie delignification, as elaborated below.…”
Section: C-is Py-gc-ms Structural Characterization Of Untreated and 7supporting
confidence: 58%
“…Note that even though in HSQC NMR spectra C β -H β correlation peaks are resolved for various substructures of β-O-4′ aryl ether linkages [20,33], the hemicellulosic substrate presented an overlapping peak with the β-O-4′-S/G-S signal at δ C /δ H 85.97/3.96 ppm in this experimental setup. Therefore, we quantified the C α -H α correlation peaks instead, as previously described by del Río et al [34].…”
Section: C-is Py-gc-ms Structural Characterization Of Untreated and 7mentioning
confidence: 90%
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“…Although ligninolytic enzymes have been extensively identified and characterized in white-rot fungi, the degradation pathways of lignin largely remain unknown. The only demonstrated ligninolysis routes in white-rot fungi were C α –C β and β-O-4 cleavages based on the detection of the corresponding benzoic acid derivatives during the lignocellulosic biomass degradation [ 17 20 ]. Furthermore, knowledge of the degradation routes of lignin by white-rot basidiomycete fungi when used as the sole carbon source were less studied.…”
Section: Introductionmentioning
confidence: 99%