A chemo-biotechnological approach is reported for the synthesis of TMG-chitooligomycins, CO-n (NMe(3)). Their abilities to inhibit β-N-acetylhexosaminidases (HexNAcases), from Aspergillus oryzae (AoHex, fungi), Canavalia ensiformis (CeHex, plant) HexNAcases and a chitobiase from Serratia marcescens (SmCHB, bacteria) were studied and compared with their precursors CO-n (N). CO-n (NMe(3)) were revealed as potent inhibitors for AoHex and SmCHB with a proved chain length effect while CO-n (N) was a highly selective inhibitor of SmCHB. This route can be considered as the privileged way to produce easily and in large scale a wide range of size-defined chitooligosaccharide-based inhibitors to fine-tune the structure-activity relationships for inhibition of HexNAcases from various origins.
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