부산대학교 도서관

Abstract: Rhizopus oryzae glucoamylase (GA) has been genetically engineered with modified signal peptide (MSP), increased copy number of the gene, and coexpression of SEC4, a gene encoding a Rab protein associated with secretory vesicles, and its secretion level has been successfully raised up to 100-fold in Pichia pastoris. The MSP was designed to contain the signal peptide of mouse salivary α-amylase (S8L) fused to the pro-region of the signal peptide of Saccharomyces cerevisiae α-mating factor to replace the wild type signal peptide (WTSP) of GA. The P. pastoris transformant MSPGA-1 containing a single copy of MSPGA gene showed a 3.6-fold increase in GA secretion as compared to that of WTSPGA-1. Moreover, the P. pastoris transformant MSPGA-7 harboring seven copies of the MSPGA inserts was identified and showed 56-fold higher secreted GA than WTSPGA-1. In addition, we found that overexpression of SEC4 further doubled the secretion level of GA in each MSPGA/P. pastoris transformant. Taken together, the MSPGA-7-SEC4 clone showed as much as 100-fold secretion level of GA when compared to WTSPGA-1. In summary, we have demonstrated that combination of the aforementioned genetic manipulations resulted in high level secretion of R. oryzae GA in P. pastoris. [Copyright &y& Elsevier]