The important role of Carbohydrate-binding module (CBM) in the cellulases catalytic activity has been widely studied. CBM3 showed highest affinity for cellulose substrate with 84.69 % adsorption rate among CBM1, CBM2, CBM3, and CBM4 in this study. How CBM affect the catalytic properties of GH5 endoglucanase III from Trichoderma viride (TvEG3) was systematically explored from two perspectives: the deletion of its own CBM(TvEG3dc) and the replacement of high substrate affinity CBM3 (TvEG3dcCBM3). Compared with TvEG3, TvEG3dc lost its binding ability on Avicel and filter paper, but its catalytic activity did not change significantly. The binding ability and catalytic activity of TvEG3dcCBM3 to Avicel increased 348.3 % and 372.51 % than that of TvEG3, respectively. The binding ability and catalytic activity of TvEG3dcCBM3 to filter paper decreased 51.7 % and 33.33 % than that of TvEG3, respectively. Further structural analysis of TvEG3, TvEG3dc, and TvEG3dcCBM3 revealed no changes in the positions and secondary structures of the key amino acids. These results demonstrated that its own CBM1 of TvEG3 did not affect its catalytic activity center, so it had no effect on its catalytic activity. But CBM3 changed the adsorption affinity for different substrates, which resulted in a change in the catalytic activity of the substrate.
Keywords: Carbohydrate-binding module; Catalytic activity; Endoglucanase.
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