The family 2a carbohydrate-binding module (CBM), Cel5ACBM2a, from the C-terminus of Cel5A from Cellulomonas fimi, and Xyn10ACBM2a, the family 2a CBM from the C-terminus of Xyn10A from C. fimi, were compared as fusion partners for proteins produced in the methylotrophic yeast Pichia pastoris. Gene fusions of murine stem-cell factor (SCF) with both CBMs were expressed in P. pastoris. The secreted SCF-Xyn10ACBM2a polypeptides were highly glycosylated and bound poorly to cellulose. In contrast, fusion of SCF to Cel5ACBM2a, which lacks potential N-linked glycosylation sites, resulted in the production of polypeptides which bound tightly to cellulose. Cloning and expression of these CBM2a in P. pastoris without a fusion partner confirmed that N-linked glycosylation at several sites was responsible for the poor cellulose binding. The nonglycosylated CBMs produced in E. coli had very similar cellulose-binding properties.
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