Simultaneous Production of Cellulase and ?-Carotene in the Filamentous Fungus Trichoderma reesei

ig-Carotene is an indispensable additive in beverage, cosmetic, feed, and pharmaceutical production. The fermentation industry annually generates abundant waste mycelia from Trichoderma reesei (T. reesei), a pivotal industrial strain for cellulase and heterologous protein production. In this study, we constructed a T. reesei cell factory for ig-carotene production for the first time. Four key enzymes, CarRP, CarB, GGS1/CrtE, and HMG1, were overexpressed in T. reesei. The concentrations of medium components, including tryptone and glucose, were optimized. The modified strain accumulated ig-carotene at a titer of 218.8 mg/L in flask culture. We achieved cellulase production (FPase, 22.33 IU/mL) with the concomitant production of ig-carotene (286.63 mg/L) from T. reesei in a jar. Overall, this study offers a novel and unique approach to address the costly waste mycelium management process using T. reesei industrial strains that simultaneously produce proteins and carotenoids.

Automated summary

A T. reesei cell factory was constructed for the first time to produce ig-carotene. By overexpressing key enzymes including CarRP, CarB, GGS1/CrtE, and HMG1, and optimizing the concentration of medium components, the modified strain achieved a titer of 218.8 mg/L of ig-carotene in flask culture. This study offers a novel and unique approach to simultaneously produce proteins and carotenoids using T. reesei industrial strains, addressing the costly waste mycelium management process.