Creating a novel genetic diversity of Trichoderma afroharzianum by γ-radiation for xylanase-cellulase production
Hamed Askari, Sabihe Soleimanian‐Zad, Mahdi Kadivar, Samira Shahbazi
Abstract
NAS107-M82, which is approximately 1.6-2.5 times higher than its parent strain, respectively. The electrophoretic pattern of proteins showed that the exo-glucanase I, endo-glucanase III, and the xylanase I enzymes hydrolyzed the corn bran, synergistically. Overall, gamma irradiation-induced mutation could be an expedient technique to access such superior mutants for the bioconversion of corn bran wastes.
Topics & Concepts
CellulaseTrichodermaXylanaseMutantFood scienceBioconversionBranStrain (injury)MicrobiologyEnzymeHydrolysisBiochemistryChemistryBiologyBiotechnologyFermentationGeneAnatomyRaw materialOrganic chemistryBiofuel production and bioconversionEnzyme Production and CharacterizationMicrobial Metabolic Engineering and Bioproduction