This work was supported by the grants from the National Natural Science Foundation of China (No.30270033), the Natural Science Foundation of Fujian Province(No.B0120001 and C0410009) and the Platform Establishing Project for Industrial Microbiology R&D of
In order to improve the thermostability of the Penicillium expansum Lipase (PEL), the lipase encoding genes was mutated by site-directed mutagenesis. A recombinant vector pAO815-ep8-K55R which contain double mutant genes was constructed by overlap extension PCR using the cDNA of a random-mutant lipase ep8 (a single site mutant) as the template and two special primers were used to generate another mutation site K55R. The recombinant vector was transformed into Pichia pastoris GS115 by electroporation and the recombinant mutant GS-pAO815-ep8- K55R can secret double-mutant lipase PEL-ep8-K55R-GS into the medium when it was induced by Methanol. The yield of the double-mutant lipase is 508u/mL, which is 81% that of the wild type lipase PEL-GS(627u/mL) and 55% that of random-mutant PEL-ep8-GS(924u/mL). The specific activity of double-mutant lipase is 2309.1u/mg, which is similar to random-mutant lipase PEL-ep8-GS and the wild type lipase PEL-GS. The optimum temperature of the double-mutant lipase is same with the wild type lipase PEL-GS and random-mutant lipase PEL-ep8-GS. While the Tm of the double-mutant lipase is 41.0℃, 2.3℃ higher than the wild type lipase PEL-GS and 0.8% higher than the random-mutant lipase PEL-ep8-GS, indicating that the double-mutant lipase PEL-ep8-K55R-GS has higher thermostability.
蔡少丽,林俊涵,王彩梅,林琳. K55R与ep8叠加突变对扩展青霉脂肪酶热稳定性的改善[J]. Chinese Journal of Biotechnology, 2007, 23(4):
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