Construction and characterization of pta gene‐deleted mutant of Clostridium tyrobutyricum for enhanced butyric acid fermentation

醋酸激酶 丁酸盐 突变体 发酵 生物化学 生物 质粒 化学 分子生物学 基因 微生物学 大肠杆菌
作者
Ying Zhu,Xiaoguang Liu,Shang‐Tian Yang
出处
期刊:Biotechnology and Bioengineering [Wiley]
卷期号:90 (2): 154-166 被引量:106
标识
DOI:10.1002/bit.20354
摘要

Abstract Clostridium tyrobutyricum ATCC 25755 is an acidogenic bacterium, producing butyrate and acetate as its main fermentation products. In order to decrease acetate and increase butyrate production, integrational mutagenesis was used to disrupt the gene associated with the acetate formation pathway in C. tyrobutyricum . A nonreplicative integrational plasmid containing the phosphotransacetylase gene ( pta ) fragment cloned from C. tyrobutyricum by using degenerate primers and an erythromycin resistance cassette were constructed and introduced into C. tyrobutyricum by electroporation. Integration of the plasmid into the homologous region on the chromosome inactivated the target pta gene and produced the pta ‐deleted mutant (PTA‐Em), which was confirmed by Southern hybridization. SDS‐PAGE and two‐dimensional protein electrophoresis results indicated that protein expression was changed in the mutant. Enzyme activity assays using the cell lysate showed that the activities of PTA and acetate kinase (AK) in the mutant were reduced by more than 60% for PTA and 80% for AK. The mutant grew more slowly in batch fermentation with glucose as the substrate but produced 15% more butyrate and 14% less acetate as compared to the wild‐type strain. Its butyrate productivity was approximately 2‐fold higher than the wild‐type strain. Moreover, the mutant showed much higher tolerance to butyrate inhibition, and the final butyrate concentration was improved by 68%. However, inactivation of pta gene did not completely eliminate acetate production in the fermentation, suggesting the existence of other enzymes (or pathways) also leading to acetate formation. This is the first‐reported genetic engineering study demonstrating the feasibility of using a gene‐inactivation technique to manipulate the acetic acid formation pathway in C. tyrobutyricum in order to improve butyric acid production from glucose. © 2005 Wiley Periodicals, Inc.
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