Ying Li , Yuqing Ai , Junzheng Zhang , Jingxuan Fei , Bingnan Liu , Jing Wang , Meng Li , Qiancheng Zhao , Jinzhu Song
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引用次数: 8
Abstract
Corynebacterium glutamicum is an important industrial strain used for the production of amino acids and vitamins. Most tools developed for overexpression of genes in C. glutamicum are based on the inducible promoter regulated by the lacIq gene or contain an antibiotic resistance gene as a selection marker. These vectors are essential for rapid identification of recombinant strains and detailed study of gene functions, but, as a considerable disadvantage, these vectors are not suitable for large-scale industrial production due to the need for the addition of isopropyl-β-D-thiogalactopyranoside (IPTG) and antibiotics. In this study, the novel Escherichia coli-C. glutamicum shuttle expression vector pLY-4, derived from the expression vector pXMJ19, was constructed. The constitutive vector pLY-4 contains a large multiple cloning site, the strong promoter tacM and two selective markers: the original chloramphenicol resistance gene cat is used for molecular cloning operations, and the auxotrophy complementation marker alr, which can be stably replicated in the auxotrophic host strain without antibiotic selection pressure, is used for industrial fermentation. Heterologous expression of the gapC gene using the vector pLY-4 in C. glutamicum for L-methionine production indicated the potential application of pLY-4 in the development of C. glutamicum strain engineering and industrial fermentation.
谷氨酸棒状杆菌是一种重要的工业菌株,用于生产氨基酸和维生素。大多数用于谷氨酰胺基因过表达的工具是基于lacIq基因调控的诱导启动子或含有抗生素抗性基因作为选择标记。这些载体对于重组菌株的快速鉴定和基因功能的详细研究至关重要,但由于需要添加异丙基-β- d -硫代半乳糖苷(IPTG)和抗生素,因此不适合大规模工业化生产。在这项研究中,新型大肠杆菌c。以谷氨酸穿梭表达载体pXMJ19为基础构建谷氨酸穿梭表达载体pLY-4。组成载体pLY-4包含一个大的多重克隆位点、强启动子tacM和两个选择性标记:原始的氯霉素耐药基因cat用于分子克隆操作,营养不良互补标记alr用于工业发酵,该标记可在营养不良宿主菌株中稳定复制,没有抗生素选择压力。利用pLY-4载体在谷氨酸酵母中异源表达gapC基因生产l -蛋氨酸,表明pLY-4在谷氨酸酵母菌种工程和工业发酵开发中的潜在应用前景。
期刊介绍:
Plasmid publishes original research on genetic elements in all kingdoms of life with emphasis on maintenance, transmission and evolution of extrachromosomal elements. Objects of interest include plasmids, bacteriophages, mobile genetic elements, organelle DNA, and genomic and pathogenicity islands.