High efficiency and throughput system in directed evolution in vitro of reporter gene

文献类型: 外文期刊

第一作者: Xiong, Ai-Sheng

作者: Xiong, Ai-Sheng;Peng, Ri-He;Liu, Jin-Ge;Zhuang, Jing;Qiao, Yu-Shan;Xu, Fang;Cai, Bing;Zhang, Zhen;Chen, Jian-Min;Yao, Quan-Hong

作者机构:

关键词: GUS reporter gene;DNA directed evolution;gene shuffling;beta-glucuronidase;thermostability;GREEN FLUORESCENT PROTEIN;BETA-GLUCURONIDASE;MOLECULAR EVOLUTION;SATURATION MUTAGENESIS;SCREENING STRATEGIES;RAPID EVOLUTION;PLANTS;GALACTOSIDASE;BIOCATALYSTS;ENZYMES

期刊名称:APPLIED MICROBIOLOGY AND BIOTECHNOLOGY ( 影响因子:4.813; 五年影响因子:4.697 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: In vitro directed evolution, especially with DNA shuffling, is a powerful means in biological studies of protein structure and function, and consequently for industrial applications. Escherichia coli beta-glucuronidase (gusA) gene, a versatile and efficient reporter gene, was the model for studying in vitro directed evolution because of its stability, easy analysis of the enzyme properties and conveniently visible phenotype. We developed a high efficiency, throughput system for in vitro directed evolution using gusA reporter gene as the model. The system consisted mainly of three aspects: a prokaryotic expression vector pYPX251, an easy method for obtaining the mutated gene from DNA shuffling and a suitable selected strategy. The vector pYPX251 carried the moderately strong aacC1 gene promoter and T1T2 transcription terminator that allowed expression in E. coli. Over 10,000 individuals could be selected individually in a 9 cm Petri dish after colonies were absorbed on a nitrocellulose filter. A library, which contained 100,000 individuals was screened by incubating ten filter papers with X-Glu. The polymerase chain reaction products of the gusA gene, the fragments of 50-100 bp, with high mutation rates were purified using a dialysis bag from 10% PAGE after electrophoresis. The possibility of obtaining desirable mutations was increased dramatically as the size of the library expanded. A GUS variant, named GUS-TR, was obtained through this system, which is significantly more resistant to high temperature than the wild type enzyme. GUS-TR maintained its high activity even when the nitrocellulose filter containing the variant colony was heated at 100 degrees C for 30 min.

分类号: Q93

  • 相关文献

[1]Directed evolution of a beta-galactosidase from Pyrococcus woesei resulting in increased thermostable beta-glucuronidase activity. Xiong, Ai-Sheng,Peng, Ri-He,Zhuang, Jing,Li, Xian,Xue, Yong,Liu, Jin-Ge,Gao, Feng,Cai, Bin,Chen, Jian-Min,Yao, Quan-Hong.

[2]Concurrent mutations in six amino acids in beta-glucuronidase improve its thermostability. Xiong, Ai-Sheng,Peng, Ri-He,Cheng, Zong-Ming,Li, Yi,Liu, Jin-Ge,Zhuang, Jing,Gao, Feng,Xu, Fang,Qiao, Yu-Shan,Zhang, Zhen,Chen, Jian-Min,Yao, Quan-Hong. 2007

[3]Effect of Glycosylation of beta-Glucuronidase on its Catalytic Properties in Ionic Liquids. Tang, H.,Wei, B.,Huang, S.,Ahmed, M. S.,Feng, X.,Li, C.,Tang, H.,Yang, H.,Li, C.,Lou, K.,Shi, Y.,Li, C..

[4]Characterization of a thermostable beta-glucuronidase from Thermotoga maritima expressed in Arabidopsis thaliana. Xu, Jing,Tian, Yong-Sheng,Peng, Ri-He,Zhu, Bo,Gao, Jian-Jie,Yao, Quan-Hong. 2012

[5]Directed evolution of beta-galactosidase from Escherichia coli into beta-glucuronidase. Xiong, Ai-Sheng,Peng, Ri-He,Zhuang, Jing,Liu, Jin-Ge,Xu, Fang,Cai, Bin,Guo, Zhao-Kui,Qiao, Yu-Shan,Chen, Jian-Min,Zhang, Zhen,Yao, Quan-Hong. 2007

[6]An efficient gene disruption method using a positive-negative split-selection marker and Agrobacterium tumefaciens-mediated transformation for Nomuraea rileyi. Su, Yu,Wang, Zhongkang,Wang, Li,Yin, Youping,Shao, Changwen,Su, Yu,Luo, Yuanli. 2018

[7]Characterization of the Arabidopsis thaliana heme oxygenase 1 promoter in response to salinity, iron deficiency, and mercury exposure. Wang, F. -Q.,Dai, C.,Zhang, Y. -H.,Shen, W. -B.,Wang, F. -Q.,Yang, J.,Wu, M. -Z..

[8]Rice endophyte Pantoea agglomerans YS19 forms multicellular symplasmata via cell aggregation. Duan, Jinyan,Yi, Ting,Lu, Zhenyue,Shen, Delong,Feng, Yongjun.

[9]Seed micromorphology and germination characteristics of wild and cultivated pepper strains. Zhang Zhuqing,Dai Xiongze,Zou Xuexiao,Ou Lijun,Ou Lijun.

[10]Structure-based fragment shuffling of two fungal phytases for combination of desirable properties. Wang, Xunzhang,Bei, Jinlong,Chen, Zhuang,Jiang, Zongyong.

[11]Optimizing the binding activity of the AP2/ERF transcription factor with the GCC box element from Brassica napus by directed evolution. Jin, Xiao-Fen,Zhu, Bo,Peng, Ri-He,Jiang, Hai-hua,Yao, Quan-Hong,Xiong, Ai-Sheng,Jiang, Hai-hua,Chen, Jian-Min,Zhuang, Jing,Zhang, Jian.

[12]A 90-day safety study of genetically modified rice expressing rhIGF-1 protein in C57BL/6J rats. Tang, Maoxue,Cheng, Wenke,Qian, Lili,Yang, Shulin,Cui, Wentao,Li, Kui,Tang, Maoxue,Cheng, Wenke,Qian, Lili,Yang, Shulin,Cui, Wentao,Li, Kui,Xie, Tingting,Yang, Daichang.

[13]Genetic and cytological analysis of a new spontaneous male sterility in radish (Raphanus sativus L.). Wang, Zhi-Wei,Gao, Lei,Zhou, Yuan,Wang, Ting,Wang, Zhi-Wei,Xiang, Chang Ping,Liu, Hai Zhou,Mei, Shi Yong.

[14]Broad specificity immunoassay for detection of Bacillus thuringiensis Cry toxins through engineering of a single chain variable fragment with mutagenesis and screening. Zhong, Jianfeng,Hu, Xiaodan,Zhang, Xiao,Liu, Yuan,Xu, Chongxin,Zhang, Cunzheng,Lin, Manman,Liu, Xianjin. 2018

[15]Evolution of the Aux/IAA Gene Family in Hexaploid Wheat. Qiao, Linyi,Qiao, Linyi,Zhang, Xiaojun,Li, Xin,Chang, Jianzhong,Zhan, Haixian,Guo, Huijuan,Zheng, Jun,Chang, Zhijian,Zhang, Li,Zhang, Lei.

[16]Molecular characteristics and evolutionary analysis of a very virulent infectious bursal disease virus. Li Zan,Zhu Ping,Qi XiaoLe,Ren XianGang,Wang XiaoMei,Cui Lei,Li Zan. 2015

[17]Comparative Analysis of Asteraceae Chloroplast Genomes: Structural Organization, RNA Editing and Evolution. Cui, Licao,Feng, Kewei,Deng, Pingchuan,Du, Xianghong,Song Weining,Nie, Xiaojun,Wang, Mengxing,Cui, Licao,Feng, Kewei,Deng, Pingchuan,Du, Xianghong,Song Weining,Nie, Xiaojun,Wan, Fanghao.

[18]Cloning, molecular evolution and functional characterization of ZmbHLH16, the maize ortholog of OsTIP2 (OsbHLH142). Liu, Yongming,Wei, Gui,Sun, Yonghao,Lu, Yanli,Lan, Hai,Li, Chuan,Zhang, Suzhi,Cao, Moju,Liu, Yongming,Wei, Gui,Lu, Yanli,Lan, Hai,Li, Chuan,Zhang, Suzhi,Cao, Moju,Li, Jia,Sun, Yonghao. 2017

[19]Leaves of the Lamiaceae species Glechoma hederacea (ground ivy) contain a lectin that is structurally and evolutionary related to the legume lectins. Wang, WF,Peumans, WJ,Rouge, P,Rossi, C,Proost, P,Chen, JP,Van Damme, EJM. 2003

[20]Complete genome sequence of a Chinese isolate of pepper vein yellows virus and evolutionary analysis based on the CP, MP and RdRp coding regions. Liu, Xiangning,Li, Xun,Dai, Liangyin,Tang, Qianjun,Liu, Maoyan,Liu, Xiangning,Dai, Liangyin,Tang, Qianjun,Tang, Qianjun,Li, Xun,Zhang, Deyong.

作者其他论文 更多>>

微信小程序