Preliminary Characterization of a New Processive Endoglucanase from Clostridium alkalicellulosi DSM1746

The Clostridium alkalicellulosi DSM17461T genome contains several glucoside hydrolase encoding genes essential for cellulose degradation. Herein, the family 9 glycoside hydrolase enzyme (CalGH9_2089) was cloned and expressed. The enzyme contains one GH9 catalytic module, a family 3 carbohydrate-binding module, and one Type I dockerin at its C-termini. The optimal pH and temperature for CalGH9_2089 to hydrolyze CMC were 55 ◦C and pH 6.0, with the remaining activity of more than 60% at pH 10.0. CalGH9_2089 produced a series of cello-oligomers (G2-G6) from CMC, suggesting that the enzyme has an endo-acting capability. When regenerated amorphous cellulose was hydrolyzed with CalGH9_2089, the ratio of reducing ends in the soluble fraction to that in the insoluble pellets was 4.8, suggesting that this enzyme acts processively on RAC. This work extends our knowledge of the behavior of the GH9 endoglucanase from the microorganism living in an alkaline environment.