Abstract
Serratia marcescens produces three chitinases, ChiA, ChiB and ChiC which together enable the bacterium to efficiently degrade the insoluble chitin polymer. We present an overview of the structural properties of these enzymes, as well as an analysis of their activities towards artificial chromogenic chito-oligosaccharide-based substrates, chito-oligosaccharides, chitin and chitosan. We also present comparative inhibition data for the pseudotrisaccharide allosamidin (an analogue of the reaction intermediate) and the cyclic pentapeptide argadin. The results show that the enzymes differ in terms of their subsite architecture and their efficiency towards chitinous substrates. The idea that the three chitinases play different roles during chitin degradation was confirmed by the synergistic effects that were observed for certain combinations of the enzymes. Studies of the degradation of the soluble heteropolymer chitosan provided insight into processivity. Taken together, the available data for Serratia chitinases show that the chitinolytic machinery of this bacterium consists of two processive exo-enzymes that degrade the chitin chains in opposite directions (ChiA and ChiB) and a non-processive endo-enzyme, ChiC.