Silencing of Amylomyces rouxii aspartic II protease by siRNA to increase tyrosinase activity.

Amylomyces rouxii is a zygomycete that produces extracellular protease and tyrosinase. The tyrosinase activity is negatively regulated by the proteases and, which attempts to purify the tyrosinase (tyr) enzyme that has been hampered by the presence of a protease that co-purified with it. In this work we identified genes encoding aspartic protease II (aspII) and VI of A. rouxii. Using an RNAi strategy based on the generation of a siRNA by transcription from two opposite-orientated promoters, the expression of these two proteases was silenced, showing that this molecular tool is suitable for gene silencing in Amylomyces. The transformant strains showed a significant attenuation of the transcripts (determined by RT-qPCR), with respective inhibition of the protease activity. In the case of aspII, inhibition was in the range of 43–90 % in different transformants, which correlated well with up to a five-fold increase in tyr activity with respect to the wild type and control strains. In contrast, silencing of aspVI caused a 43-65 % decrease in protease activity but had no significant effect on the tyr activity. The results show that aspII has a negative effect on tyr activity, and that the silencing of this protease is important to obtain strains with high levels of tyr activity. • Amylomyces rouxxi secretes proteases that inhibit its own tyrosinase (tyr) activity. • A new vector that generates siRNA molecules was efficient for gene silencing in A. rouxii. • Knockdown of the aspII gene causes a direct effect on tyr activity. • The constructed vector can be used to evaluate gene expression in zygomycetes and another class of fungi. [ABSTRACT FROM AUTHOR]