A Multi-plex Protein Expression System for Production of Complex Enzyme Formulations in Trichoderma reesei.

Abstract

Historically, heterologous protein production has been challenging using the hyper-cellulolytic fungus, Trichoderma reesei. T. reesei is known for poor transformation efficiency, low homologous recombination frequency, and marginal screening systems for identification of successful transformants. In this work, we have applied the 2A-peptide multi-gene expression system to co-express four enzymes, which include three cellulases, a cellobiohydrolase (CBH1), an endoglucanase (EG1), and a β-D-glucosidase (BGL1); as well as the enhanced Green Fluorescent Protein, (eGFP), used here as a marker for monitoring expression levels. We designed a new chassis vector, pTrEno-4X-2A for this work. Expression of these cellulase enzymes was confirmed by real-time quantitative reverse transcription PCR and immunoblot analysis. The activity of each of the cellulases was assessed using pNP glycosides and the chromogenic substrate, AZCL-HE-cellulose, which confirmed the functionality of the enzymes. Expression and activity of these enzymes was proportional to the level of eGFP fluorescence, thereby validating the reliability of this screening technique. Although all three cellulase proteins were successfully expressed, their expression levels varied significantly. Specifically, up to an 18-fold difference was observed between the first and the third gene within the 2A-peptide construct, based on protein quantitation. The availability of this new screening tool is expected to greatly impact multi-enzyme applications, such as production of complex commercial enzyme formulations and the study of metabolic pathway enzymes, especially those destined for cell free applications.