Inducible expression systems are indispensable for precise regulation and in-depth analysis of biological process.Binary Tet-On system has been widely employed to regulate transgenic expression by doxycycline.Previous...Inducible expression systems are indispensable for precise regulation and in-depth analysis of biological process.Binary Tet-On system has been widely employed to regulate transgenic expression by doxycycline.Previous pig models with tetracycline regulatory elements were generated through random integration.This process often resulted in uncertain expression and unpredictable phenotypes,thus hindering their applications.Here,by precise knock-in of binary Tet-On 3G elements into Rosa26 and Hipp11 locus,respectively,a double knock-in reporter pig model was generated.We characterized excellent properties of this system for controllable transgenic expression both in vitro and in vivo.Two att P sites were arranged to flank the td Tomato to switch reporter gene.Single or multiple gene replacement was efficiently and faithfully achieved in fetal fibroblasts and nuclear transfer embryos.To display the flexible application of this system,we generated a pig strain with Dox-inducing h KRASexpression through phiC31 integrase-mediated cassette exchange.After eight months of Dox administration,squamous cell carcinoma developed in the nose,mouth,and scrotum,which indicated this pig strain could serve as an ideal large animal model to study tumorigenesis.Overall,the established pig models with controllable and switchable transgene expression system will provide a facilitating platform for transgenic and biomedical research.展开更多
Inducible gene-expression systems play important roles in gene functional assays in the post-genome era.Streptomyces phage-derived phiC31 integrase,which mediates an irreversible site-specific cassette exchange betwee...Inducible gene-expression systems play important roles in gene functional assays in the post-genome era.Streptomyces phage-derived phiC31 integrase,which mediates an irreversible site-specific cassette exchange between the phage attachment site(attP)and the bacterial attachment site(attB),provides a promising option for the construction of a controllable gene-expression system.Here,we report a phiC3I integrase-mediated promoter flip system(FLIP)for the inducible expression of target genes in silk-worm(Bombyx mori).First,we constructed a FLIP reporter system,in which a BmAct4 promoter with enhanced translational efficiency was flanked by the attB and attP sites in a head-to-head orientation and further linked in a reverse orientation to a DsRed reporter gene.The coexpression of a C-terminal modified phiC3 I-NLS integrase carrying a simian virus 40(SV40)nuclear localization signal(NLS)effectively flipped the BmAct4 promoter through an attBlattP exchange,thereby activating the downstream expression of DsRed in a silkworm embryo-derived cell line,BmE.Subsequently,the FLIP system,together with a system continuously expressing the phiC3 I-NLS integrase,was used to construct binary transgenic silkworm lines.Hybridization between FLIP and phiC31-NLS transgenic silkworm lines resulted in the successful flipping of the BmAct4 promoter,with an approximately 39%heritable transformation efficiency in silkworm offispring,leading to the constitutive and high-level expression of DsRed in silkworms,which accounted for approximately 0.81%of the silkworm pupal weight.Our successful development of the FLIP system offers an effective alternative for manipulating gene expression in silkworms and other lepidopteran species.展开更多
基金the National Key Research and Development Program of China(2017YFA0105103,2021YFA0805903)the National Natural Science Foundation of China(81941004,32170542)+10 种基金2020 Research Program of Sanya Yazhou Bay Science and Technology City(202002011)Major Science and Technology Projects of Hainan Province(ZDKJ2021030)Key Research&Development Program of Hainan Province(ZDYF2021SHFZ052)Youth Innovation Promotion Association of the Chinese Academy of Sciences(2019347)Young Elite Scientist Sponsorship Program by CAST(YESS20200024)Biological Resources Progaramme,Chinese Academy of Sciences(KFJBRP-017-57)Key Research&Development Program of Bioland Laboratory(Guangzhou Regenerative Medicine and Health Guangdong Laboratory)(2018GZR110104004)China Postdoctoral Science Foundation(2020M682943)Science and Technology Planning Project of Guangdong Province,China(2019A030317010,2020B1212060052,2021B1212040016,2021A1515011110)Science and Technology Program of Guangzhou,China(202007030003)Research Unit of Generation of Large Animal Disease Models,Chinese Academy of Medical Sciences(2019-I2M-5-025)。
文摘Inducible expression systems are indispensable for precise regulation and in-depth analysis of biological process.Binary Tet-On system has been widely employed to regulate transgenic expression by doxycycline.Previous pig models with tetracycline regulatory elements were generated through random integration.This process often resulted in uncertain expression and unpredictable phenotypes,thus hindering their applications.Here,by precise knock-in of binary Tet-On 3G elements into Rosa26 and Hipp11 locus,respectively,a double knock-in reporter pig model was generated.We characterized excellent properties of this system for controllable transgenic expression both in vitro and in vivo.Two att P sites were arranged to flank the td Tomato to switch reporter gene.Single or multiple gene replacement was efficiently and faithfully achieved in fetal fibroblasts and nuclear transfer embryos.To display the flexible application of this system,we generated a pig strain with Dox-inducing h KRASexpression through phiC31 integrase-mediated cassette exchange.After eight months of Dox administration,squamous cell carcinoma developed in the nose,mouth,and scrotum,which indicated this pig strain could serve as an ideal large animal model to study tumorigenesis.Overall,the established pig models with controllable and switchable transgene expression system will provide a facilitating platform for transgenic and biomedical research.
基金the National Natural Science Foundation of China(31530071)Chongqing Science and Technology C ommission(CSTC2018JCYJAX0298)+1 种基金Fundamental Research Funds for the Central Universities(XDJK2018C064)State Key Laboratory of Silkworm Genome Biology(SKLSGB1819-1).
文摘Inducible gene-expression systems play important roles in gene functional assays in the post-genome era.Streptomyces phage-derived phiC31 integrase,which mediates an irreversible site-specific cassette exchange between the phage attachment site(attP)and the bacterial attachment site(attB),provides a promising option for the construction of a controllable gene-expression system.Here,we report a phiC3I integrase-mediated promoter flip system(FLIP)for the inducible expression of target genes in silk-worm(Bombyx mori).First,we constructed a FLIP reporter system,in which a BmAct4 promoter with enhanced translational efficiency was flanked by the attB and attP sites in a head-to-head orientation and further linked in a reverse orientation to a DsRed reporter gene.The coexpression of a C-terminal modified phiC3 I-NLS integrase carrying a simian virus 40(SV40)nuclear localization signal(NLS)effectively flipped the BmAct4 promoter through an attBlattP exchange,thereby activating the downstream expression of DsRed in a silkworm embryo-derived cell line,BmE.Subsequently,the FLIP system,together with a system continuously expressing the phiC3 I-NLS integrase,was used to construct binary transgenic silkworm lines.Hybridization between FLIP and phiC31-NLS transgenic silkworm lines resulted in the successful flipping of the BmAct4 promoter,with an approximately 39%heritable transformation efficiency in silkworm offispring,leading to the constitutive and high-level expression of DsRed in silkworms,which accounted for approximately 0.81%of the silkworm pupal weight.Our successful development of the FLIP system offers an effective alternative for manipulating gene expression in silkworms and other lepidopteran species.