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W4280644779 endingPage "81" @default.
W4280644779 startingPage "68" @default.
W4280644779 abstract "The genome of phytopathogenic fungus Chrysoporthe cubensis has distinct groups of multicopper oxidase (MCO) coding genes, including new laccases, that could have the potential for biotechnological applications. Here, the complete genomic arsenal of MCOs from C. cubensis was identified and characterized. Laccases were induced, purified from the fungal crude extract, and these enzymes' potential to improve the sugarcane bagasse saccharification was tested. In silico genomic analysis revealed 13 MCOs classified as fungal ferroxidases; ascomycete laccases; laccases/ferroxidases; fungal pigments MCOs, and ascorbate oxidases. The C. cubensis cultivation in different lignocellulosic biomass yielded enzymatic extracts more efficiently for sugarcane bagasse saccharification than commercial preparations. The higher laccase activity (4.88 U g-1) was detected in the crude extract of the fungus cultivated on wheat bran and orange peel (3:1), and MCOs with laccase activity were purified from this protein extract. Mass spectrometry using MALDI-TOF/TOF identified two MCOs with 53.4 kDa and 74 kDa. The mixture containing the purified laccases oxidized 91% of the phenolic compounds produced from the alkaline pretreatment of sugarcane bagasse and allowed the improved saccharification yields. These enzymes are promising for application in biomass hydrolysis, especially in the detoxification of phenolic compounds." @default.
W4280644779 created "2022-05-22" @default.
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W4280644779 date "2022-08-01" @default.
W4280644779 modified "2023-10-18" @default.
W4280644779 title "Multicopper oxidase enzymes from Chrysoporthe cubensis improve the saccharification yield of sugarcane bagasse" @default.
W4280644779 cites W1521108990 @default.
W4280644779 cites W1705604029 @default.
W4280644779 cites W1803102843 @default.
W4280644779 cites W1807261536 @default.
W4280644779 cites W1887624773 @default.
W4280644779 cites W1974719543 @default.
W4280644779 cites W1976528422 @default.
W4280644779 cites W1978494427 @default.
W4280644779 cites W1980923670 @default.
W4280644779 cites W1982610352 @default.
W4280644779 cites W1986191025 @default.
W4280644779 cites W1988940790 @default.
W4280644779 cites W1989228404 @default.
W4280644779 cites W1991018022 @default.
W4280644779 cites W1992192767 @default.
W4280644779 cites W1996350754 @default.
W4280644779 cites W1996423252 @default.
W4280644779 cites W1998685667 @default.
W4280644779 cites W1999975743 @default.
W4280644779 cites W2007461692 @default.
W4280644779 cites W2008999228 @default.
W4280644779 cites W2014821215 @default.
W4280644779 cites W2018335907 @default.
W4280644779 cites W2020058715 @default.
W4280644779 cites W2025142049 @default.
W4280644779 cites W2027933379 @default.
W4280644779 cites W2030951143 @default.
W4280644779 cites W2042096532 @default.
W4280644779 cites W2054249668 @default.
W4280644779 cites W2058731507 @default.
W4280644779 cites W2059627980 @default.
W4280644779 cites W2062276802 @default.
W4280644779 cites W2074986801 @default.
W4280644779 cites W2077776336 @default.
W4280644779 cites W2079823145 @default.
W4280644779 cites W2084247169 @default.
W4280644779 cites W2087263284 @default.
W4280644779 cites W2089217267 @default.
W4280644779 cites W2091688902 @default.
W4280644779 cites W2100837269 @default.
W4280644779 cites W2102993309 @default.
W4280644779 cites W2104717731 @default.
W4280644779 cites W2105668062 @default.
W4280644779 cites W2106543966 @default.
W4280644779 cites W2107491373 @default.
W4280644779 cites W2107703742 @default.
W4280644779 cites W2108627006 @default.
W4280644779 cites W2112819377 @default.
W4280644779 cites W2122559203 @default.
W4280644779 cites W2132926880 @default.
W4280644779 cites W2139316303 @default.
W4280644779 cites W2146306741 @default.
W4280644779 cites W2150351373 @default.
W4280644779 cites W2150593711 @default.
W4280644779 cites W2161745371 @default.
W4280644779 cites W2163642241 @default.
W4280644779 cites W2167708979 @default.
W4280644779 cites W2168221291 @default.
W4280644779 cites W2195009152 @default.
W4280644779 cites W2270727011 @default.
W4280644779 cites W2525794863 @default.
W4280644779 cites W2536524622 @default.
W4280644779 cites W2546954259 @default.
W4280644779 cites W2562860543 @default.
W4280644779 cites W2586527576 @default.
W4280644779 cites W2644928001 @default.
W4280644779 cites W2805506343 @default.
W4280644779 cites W2899070097 @default.
W4280644779 cites W2912673269 @default.
W4280644779 cites W3127368942 @default.
W4280644779 cites W3136817326 @default.
W4280644779 cites W4293247451 @default.
W4280644779 doi "https://doi.org/10.1016/j.procbio.2022.05.012" @default.
W4280644779 hasPublicationYear "2022" @default.
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