Optimization of Prokaryotic Expression Factors for Blackberry UGT78H2 Using Responsive Surface Methodology and Protein Purification

doi:10.7525/j.issn.1673-5102.2015.05.014

Abstract

Abstract: UGT78H2 is a newly discovered glycosyltransferase from blackberry fruit, and the successfully obtained protein is the basis for further functional characterization. We constructed a prokaryotic expression vector and optimized the induction factors(induction temperature, cell and IPTG concentration, and induction duration) using responsive surface methodology(RSM). (1)the constructed pET32a-UGT78H2 plasmid was successfully transformed into the bacteria BL21(DE3)pLysS; (2)By RSM, incubating at 29.5℃ till cell OD₆₀₀=0.51, IPTG was added to the final concentration of 0.4 mmol·L^-1 to incubate for 7.4 hours, and the most quantities of recombinant UGT78H2 was obtained (166.4 μg·mL^-1); (3)Incubation temperature and the length of culture time extremely significant affected the overall quantities of protein, and IPTG concentration and cell OD interactively determined the recombinant protein at significant level; (4)The recombinant protein was 67.9 kDa in molecular weight, existing as inclusion bodies in most fraction, and purified by utilizing Ni-NTA affiliation column system.

Key words: blackberry, UGT78H2, prokaryotic expression, response surface methodology(RSM), recombinant protein

CLC Number:

CHEN Qing1；JIANG Lei-Yu1；WANG Yan1；ZHU Fang-Li1；TANG Hao-Ru1*；WANG Xiao-Rong1,2. Optimization of Prokaryotic Expression Factors for Blackberry UGT78H2 Using Responsive Surface Methodology and Protein Purification[J]. Bulletin of Botanical Research, 2015, 35(5): 724-729.

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