Bioconversion potential of Trichoderma viride HN1 cellulase for a lignocellulosic biomass Saccharum spontaneum
M Iqtedar, M Nadeem, H Naeem… - Natural Product …, 2015 - Taylor & Francis
The industrialisation of lignocellulose conversion is impeded by expensive cellulase
enzymes required for saccharification in bioethanol production. Current research undertakes
cellulase production from pretreated Saccharum spontaneum through Trichoderma viride
HN1 under submerged fermentation conditions. Pretreatment of substrate with 2% NaOH
resulted in 88% delignification. Maximum cellulase production (2603±16.39 U/mL/min
carboxymethyl cellulase and 1393±25.55 U/mL/min FPase) was achieved at 6% substrate at …
enzymes required for saccharification in bioethanol production. Current research undertakes
cellulase production from pretreated Saccharum spontaneum through Trichoderma viride
HN1 under submerged fermentation conditions. Pretreatment of substrate with 2% NaOH
resulted in 88% delignification. Maximum cellulase production (2603±16.39 U/mL/min
carboxymethyl cellulase and 1393±25.55 U/mL/min FPase) was achieved at 6% substrate at …
Bioconversion potential of Trichoderma viride HN1 cellulase for a lignocellulosic biomass Saccharum spontaneum.
MI Mehwish Iqtedar, MN Mohammad Nadeem… - 2015 - cabidigitallibrary.org
The industrialisation of lignocellulose conversion is impeded by expensive cellulase
enzymes required for saccharification in bioethanol production. Current research undertakes
cellulase production from pretreated Saccharum spontaneum through Trichoderma viride
HN1 under submerged fermentation conditions. Pretreatment of substrate with 2% NaOH
resulted in 88% delignification. Maximum cellulase production (2603±16.39 U/mL/min
carboxymethyl cellulase and 1393±25.55 U/mL/min FPase) was achieved at 6% substrate at …
enzymes required for saccharification in bioethanol production. Current research undertakes
cellulase production from pretreated Saccharum spontaneum through Trichoderma viride
HN1 under submerged fermentation conditions. Pretreatment of substrate with 2% NaOH
resulted in 88% delignification. Maximum cellulase production (2603±16.39 U/mL/min
carboxymethyl cellulase and 1393±25.55 U/mL/min FPase) was achieved at 6% substrate at …
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