LAUSR

To elucidate the functional alteration of the recombinant hybrid chitinases composed of bacterial and insect's domains, we cloned the constitutional domains from chitinase-encoding cDNAs of a bacterial species, Bacillus thuringiensis (BtChi) and a lepidopteran insect species, Mamestra brassicae (MbChi), respectively, swapped one's leading signal peptide (LSP) - catalytic domain (CD) - linker region (LR) (LCL) with the other's chitin binding domain (ChBD) between the two species, and confirmed and analyzed the functional expression of the recombinant hybrid chitinases and their chitinolytic activities in the transformed E. coli strains. Each of the two recombinant cDNAs, MbChi's LCL connected with BtChi's ChBD (MbLCL-BtChBD) and BtChi's LCL connected with MbChi's ChBD (BtLCL-MbChBD), was successfully introduced and expressed in E. coli BL21 strain. Although both of the two hybrid enzymes were found to be expressed by SDS-PAGE and Western blotting, the effects of the introduced genes on the chitin metabolism appear to be dramatically different between the two transformed E. coli strains. BtLCL-MbChBD remarkably increased not only the cell proliferation rate, extracellular and cellular chitinolytic activity, but also cellular glucosamine and N-acetylglucosamine levels, while MbLCL-BtChBD showed about the same profiles in the three tested subjects as those of the strains transformed with each of the two native chitinases, indicating that a combination of the bacterial CD of TIM barrel structure with characteristic six cysteine residues and insect ChBD2 including a conserved six cysteine-rich region (6C) enhances the attachment of the enzyme molecule to chitin compound by MbChBD, and so increases the catalytic efficiency of bacterial CD.