Design and Utilization of Chitinases with Low Hydrolytic Activities

Abstract

Enzymatic glycosylation reactions by combined use of activated donor substrates and deactivated enzymes have been reviewed. Glycosidase-catalyzed transglycosylation reaction of sugar oxazolines to various glycosyl acceptors have successfully been achieved for the formation of poly- and oligo- saccharides such as chitin, glycosaminoglycans, and the core trisaccharide of N-linked oligosaccharide. These reactions proceeded efficiently using appropriate glycosidases under basic conditions, where the enzymes showed lower hydrolytic activity toward their natural substrates. In order to realize the transglycosylation reactions under neutral conditions, several mutants chitinaseA1 from Bacillus circulans WL-12 were constructed. Some of mutants were found to be efficient for transglycosylation under neutral conditions. These reactions could be applied to the stepwise synthesis of oligosaccharides and oligosaccharide-containing macromonomers. Novel thermosensitive polymers carrying oligosaccharides have successfully been synthesized by the radical copolymerization of the resulting macromonomers with N-isopropylacrylamide. One-pot chemo-enzymatic synthesis of oligosaccharides starting from a free sugar has been demonstrated via a sugar oxazoline intermediate formed in situ and the subsequent enzymatic transglycosylation. This novel technique of transferring an oligosaccharide moiety having an N-acetylhexosamine unit is a promising tool to pave the way to the new generation of oligosaccharide synthesis.