Enhanced production of heterologous proteins by the filamentous fungus Trichoderma reesei via disruption of the alkaline serine protease SPW combined with a pH control strategy

“…The activity of acidic proteases was shown to decrease steadily at a pH greater than 3.0 and was significantly lower between pH 5.0 and 6.0 for A. niger culture broth [114]. The activity of alkaline proteases could be reduced by gene disruption [115].…”

Heterologous expression of cellobiohydrolases in filamentous fungi – An update on the current challenges, achievements and perspectives

“…The activity of acidic proteases was shown to decrease steadily at a pH greater than 3.0 and was significantly lower between pH 5.0 and 6.0 for A. niger culture broth [114]. The activity of alkaline proteases could be reduced by gene disruption [115].…”

Heterologous expression of cellobiohydrolases in filamentous fungi – An update on the current challenges, achievements and perspectives

“…In submerged cultivations product degradation by proteases can result from autolysis and fragmentation of hyphae, which frequently occur toward the end of the stationary phase [112,113]. Heterologous protein production in industry often utilize protease deficient strains, and recently a study showed that heterologous EG production could be increased by deletion of a major alkaline protease gene [114]. Micro-colonies formed under submerged conditions have been shown to be heterogeneous with regards to morphology and gene expression level of A. niger glucoamylase [115].…”

Production of cellulolytic enzymes from ascomycetes: Comparison of solid state and submerged fermentation

“…[29] T. reesei produces a broad series of cellulases, including exoglucanase (e.g. CBH I and CBH II), endoglucanases (e.g.…”

Trichoderma reesei, a superior cellulase source for industrial applications