Generation of a fast maturating red fluorescent protein by a combined approach of elongation mutagenesis and functional salvage screening

Optimised red- and green-fluorescent proteins for live cell imaging in the industrial enzyme-producing fungus Trichoderma reesei

The filamentous fungus Trichoderma reesei is a major source of cellulolytic enzymes in biofuel production. Despite its economic relevance, our understanding of its secretory pathways is fragmentary. A major challenge is to visualise the dynamic behaviour of secretory vesicles in living cells. To this end, we establish a location juxtaposing the succinate dehydrogenase locus as a "soft-landing" site for controlled expression of 4 green-fluorescent and 5 red-fluorescent protein-encoding genes (GFPs, RFPs). Quantitative and comparative analysis of their fluorescent signals in living cells demonstrates that codon-optimised monomeric superfolder GFP (TrmsGFP) and codon-optimised mCherry (TrmCherry) combine highest signal intensity with significantly improved signal-to-noise ratios. Finally, we show that integration of plasmid near the sdi1 locus does not affect secretion of cellulase activity in RUT-C30. The molecular and live cell imaging tools generated in this study will help our understanding the secretory pathway in the industrial fungus T. reesei.