ABSTRACT
Fungi-degrading artificial amylosomes were newly developed consisting of fungi-degrading enzyme (NAG), starch-degrading enzymes and a scaffold protein. Amylosome scaffolds containing starch-binding proteins (SbpCbpA and CCSbpCbpA) were highly bound to starch and fungal-spoiled food waste. Amylosomes showed an average of 1.43-fold higher reducing sugar production from starch. 2.00-fold α-amylase in amylosomes increased reducing sugar production from amylose by an average of 1.50-fold. At 70°C for 6 hours, SbpCbpA and CCSbpCbpA maintained an average activity of 56.42% compared to the control (38.37%). The enzyme mixture and amylosomes with NAG showed an average 1.31-fold increase in glucose production in response to fungal-spoiled food waste compared to samples without NAG; in particular, CCSbpCbpA with NAG produced 62.44 ± 0.03 mM glucose (2.55-fold of the enzyme mixture without NAG). This research strategy can be applicable to the starch and fungal-spoiled food waste saccharification in an ecofriendly manner, leading to sugar production in industrial fields.