Pseudo attP sites in favor of transgene integration and expression in cultured porcine cells identified by streptomyces phage phiC31 integrase

文献类型: 外文期刊

第一作者: Bi, Yanzhen

作者: Bi, Yanzhen;Liu, Ximei;Zhang, Long;Ma, Zhuo;Hua, Zaidong;Zhang, Liping;Li, Li;Hua, Wenjun;Xiao, Hongwei;Wei, Qingxin;Zheng, Xinmin;Zhang, Long;Shao, Changwei;Ma, Zhuo

作者机构:

关键词: PhiC31 integrase;Pig;Pseudo attP site;TAIL-PCR

期刊名称:BMC MOLECULAR BIOLOGY ( 影响因子:2.946; 五年影响因子:3.192 )

ISSN: 1471-2199

年卷期: 2013 年 14 卷

页码:

收录情况: SCI

摘要: Phage PhiC31 integrase integrates attB-containing plasmid into pseudo attP site in eukaryotic genomes in a unidirectional site-specific manner and maintains robust transgene expression. Few studies, however, explore its potential in livestock. This study aims to discover the molecular basis of PhiC31 integrase-mediated site-specific recombination in pig cells. We show that PhiC31 integrase can mediate site-specific transgene integration into the genome of pig kidney PK15 cells. Intramolecular recombination in pig PK15 cell line occurred at maximum frequency of 82% with transiently transfected attB-and attP-containing plasmids. An optimal molar ratio of pCMV-Int to pEGFP-N1-attB at 5: 1 was observed for maximum number of cell clones under drug selection. Four candidate pseudo attP sites were identified by TAIL-PCR from those cell clones with single-copy transgene integration. Two of them gave rise to higher integration frequency occurred at 33%. 5' and 3' junction PCR showed that transgene integration mediated by PhiC31 integrase was mono-allelic. Micro-deletion and insertion were observed by sequencing the integration border, indicating that double strand break was induced by the recombination. We then constructed rescue reporter plasmids by ABI-REC cloning of the four pseudo attP sites into pBCPB + plasmid. Transfection of these rescue plasmids and pCMV-Int resulted in expected intramolecular recombination between attB and pseudo attP sites. This proved that the endogenous pseudo attP sites were functional substrates for PhiC31 integrase-mediated site-specific recombination. Two pseudo attP sites maintained robust extracellular and intracellular EGFP expression. Alamar blue assay showed that transgene integration into these specific sites had little effect on cell proliferation. This is the first report to document the potential use of PhiC31 integrase to mediate site-specific recombination in pig cells. Our work established an ideal model to study the position effect of identical transgene located in diverse chromosomal contexts. These findings also form the basis for targeted pig genome engineering and may be used to produce genetically modified pigs for agricultural and biomedical uses.

分类号:

  • 相关文献

[1]Event specific qualitative and quantitative polymerase chain reaction detection of genetically modified MON863 maize based on the 5 '-transgene integration sequence. Xu, SC,Pan, AH,Yin, CS,Zhang, KW,Wang, ZY,Zhou, ZG,Zhang, DB. 2005

[2]Qualitative detection and quantification of a Cry1A(b) transgene present in rice cv. Zhejing 22. Xu, Junfeng,Wang, Xiaofu,Chen, Xiaoyun,Wang, Xinquan,Zhou, Yu,Miao, Qingmei,Fang, Jing. 2011

[3]Event-specific qualitative and quantitative detection of transgenic rice Kefeng-6 by characterization of the transgene flanking sequence. Wang, Wei-Xia,Lai, Feng-Xiang,Fu, Qiang,Zhu, Ting-Heng. 2011

[4]Event-specific qualitative and quantitative PCR detection of the GMO carnation (Dianthus caryophyllus) variety Moonlite based upon the 5 '-transgene integration sequence. Li, P.,Jia, J. W.,Jiang, L. X.,Zhu, H.,Bai, L.,Wang, J. B.,Tang, X. M.,Pan, A. H.. 2012

[5]Event-specific qualitative and quantitative PCR detection of MON863 maize based upon the 3 '-transgene integration sequence. Yang, LT,Xu, SC,Yin, CS,Zhang, KW,Wang, ZY,Zhang, DB. 2006

[6]Event-Specific Qualitative and Quantitative Polymerase Chain Reaction Analysis for Genetically Modified Canola T45. Yang, Litao,Pan, Aihu,Zhang, Haibo,Guo, Jinchao,Yin, Changsong,Zhang, Dabing.

[7]Cloning, characterization, and transformation of the phosphoethanolamine N-methyltransferase gene (ZmPEAMT1) in maize (Zea mays L.). Wu, Suowei,Yu, Zhanwang,Wang, Fengge,Li, Weihua,Ye, Chunjiang,Li, Jun,Tang, Jihua,Ding, Junqiang,Zhao, Jiuran,Wang, Bin.

[8]Gene Cloning, Expression, and Characterization of a Novel Phytase from Dickeya paradisiaca. Gu, Weina,Huang, Huoqing,Meng, Kun,Yang, Peilong,Fu, Dawei,Luo, Huiying,Wang, Yaru,Yao, Bin,Gu, Weina,Zhan, Zhichun.

[9]Treating Cloned Embryos, But Not Donor Cells, with 5-aza-2 '-deoxycytidine Enhances the Developmental Competence of Porcine Cloned Embryos. Huan, Yan Jun,Zhu, Jiang,Xie, Bing Teng,Wang, Jian Yu,Liu, Shi Chao,Zhou, Yang,Kong, Qing Ran,Liu, Zhong Hua,Huan, Yan Jun,He, Hong Bin. 2013

[10]Alteration of the DNA methylation status of donor cells impairs the developmental competence of porcine cloned embryos. Huan, Yan Jun,Zhu, Jiang,Xie, Bing Teng,Wang, Jian Yu,Li, Jing Yu,Xue, Bing Hua,Kong, Qing Ran,Liu, Zhong Hua,Huan, Yan Jun,Wu, Zhan Feng,Zhang, Ji Guang.

[11]A genome-wide detection of copy number variations using SNP genotyping arrays in swine. Wang, Jiying,Jiang, Jicai,Fu, Weixuan,Jiang, Li,Ding, Xiangdong,Liu, Jian-Feng,Zhang, Qin,Wang, Jiying. 2012

[12]Single nucleotide polymorphism scanning and expression of the FRZB gene in pig populations. Wang, Zhixiu,Zhang, Bo,Yang, Yuzeng,Ban, Dongmei,Zhang, Hao,Li, Qinggang,Lu, Yunfeng. 2014

[13]Effects of Monoclonal Antibody Against Porcine 40-kDa Adipocyte-Specific Membrane Protein on Endocrine Secretion in Pigs. Zhao Su-mei,Zhang Xi,Duan Gang,Gao Shi-zheng,Hu Hong-mei,Liu Ling-yun. 2009

[14]Localization, Expression Change in PRRSV Infection and Association Analysis of the Porcine TAP1 Gene. Sun, Nunu,Liu, Dewu,Meng, Fanming,Zhang, Xianwei,Wu, Zhenfang,Sun, Nunu,Liu, Xiangdong,Xie, Shengsong,Li, Xinyun,Sun, Nunu,Liu, Xiangdong,Xie, Shengsong,Li, Xinyun,Chen, Hongbo,Chen, Huiyong. 2012

[15]Molecular cloning, sequence analysis, and function of the intestinal epithelial stem cell marker Bmi1 in pig intestinal epithelial cells. Li, C. -M.,Yan, H. -C.,Fu, H. -L.,Xu, G. -F.,Wang, X. -Q.. 2014

[16]Wnt antagonist, secreted frizzled-related protein 1, is involved in prenatal skeletal muscle development and is a target of miRNA-1/206 in pigs. Yang, Yalan,Sun, Wei,Wang, Ruiqi,Zhou, Rong,Tang, Zhonglin,Li, Kui,Yang, Yalan,Tang, Zhonglin,Li, Kui,Sun, Wei,Lei, Chuzhao. 2015

[17]Integrated analysis of mRNA and miRNA expression profiles in livers of Yimeng black pigs with extreme phenotypes for backfat thickness. Li, Wentong,Yang, Yalan,Zhou, Rong,Li, Kui,Li, Wentong,Liu, Shuai,Li, Xiuxiu,Wang, Yingping,Tang, Hui,Li, Wentong,Yang, Yalan,Liu, Ying,Zhang, Yanmin,Zhou, Rong,Li, Kui,Li, Kui. 2017

[18]Porcine LEM domain-containing 3: Molecular cloning, functional characterization, and polymorphism associated with ear size. Liang Jing,Li Na,Zhang Long-chao,Wang Li-gang,Liu Xin,Zhao Ka-bin,Yan Hua,Pu Lei,Zhang Yue-bo,Shi Hui-bi,Wang Li-xian,Li Na,Zhang Qin. 2016

[19]Identification and genetic effect of haplotypes in the promoter region of porcine myostatin gene. Liu, D.,Xu, Q.,Zang, L.,Liang, S.,Jiang, Y.,Wu, Y.,Wei, S.. 2011

[20]Single Nucleotide Polymorphism Scanning and Expression of the Pig PPARGC1A Gene in Different Breeds. Li, Qinggang,Lu, Yunfeng. 2014

作者其他论文 更多>>

微信小程序