Two-hybrid reporter vectors for gap repair cloning

Yeast two-hybrid analysis is a valuable approach to the discovery and characterization of protein interactions. We have developed vectors that can indicate the presence of an insert when used in two-hybrid bait and prey construction by gap repair cloning. The strategy uses a recombination cloning site flanked by sequences encoding the GAL4 activation and binding domains. After gap repair cloning in standard hosts carrying an ADE2 reporter gene, disruption of GAL4 by an insert can be identified by the development of red colony color, while empty vector plasmids produce white colonies. Function in yeast two-hybrid applications was initially validated using known interacting proteins in pair-wise analyses, and subsequently, the bait vectors were used in library screens with the mouse Mad212 and human Mccd1 proteins, identifying a number of putative new interactions for these proteins. These vectors should facilitate high-throughput yeast two-hybrid screens in which large numbers of bait and prey constructs may be required.     

日本脑炎病毒E蛋白在酵母双杂交系统中的表达及其对报告基因激活作用的检测

用日本脑炎病毒(JEV)E蛋白基因片段构建酵母双杂交诱饵载体,并检测其表达产物对酵母细胞有无毒性作用及对报告基因有无激活作用。用RT—PCR从JEV感染的鼠脑中扩增出JEV E蛋白基因片段,克隆入pUCl9质粒,经测序正确后,再亚克隆入酵母双杂交诱饵载体pGBKT7中。将重组质粒导入酵母菌AHl09,检测其表达产物在酵母细胞中对报告基因有无激活作用。成功获得JEV E蛋白基因片段,表达的E蛋白对酵母菌AHl09无毒性,对报告基因亦无激活作用。为利用酵母双杂交GAL4系统3进行JEV细胞受体蛋白的研究奠定了基础。     

利用酵母双杂交系统筛选与人巨细胞病毒皮层蛋白pUL23相互作用的病毒编码蛋白

人巨细胞病毒(HCMV) UL23基因编码病毒皮层蛋白,该基因缺失时,病毒在人包皮成纤维细胞(HFF)中的繁殖速度加快.为进一步阐述HCMV UL23基因编码产物 pUL23的功能及调控机制,采用鸟枪法构建了融合于GAL4活性区域的HCMV Towne株 基因组随机表达文库.利用酵母双杂交技术,以pGBKT7 -UL23为诱饵质粒,从构建 的HCMV基因组表达文库中筛选到与pUL23相互作用的病毒编码蛋白pUL24. GST-pull down实验和免疫共沉淀实验进一步确认两种病毒蛋白之间的相互作用.结果 表明,构建的HCMV基因组表达文库能够用于GAL4酵母双杂交系统筛选与诱饵蛋白相互作用的病毒自身编码蛋白.病毒蛋白pUL23和pUL24之间具有相互作用,这为进一 步阐述pUL23在HCMV感染过程中的功能提供依据.该研究为揭示HCMV病毒感染机制奠定了基础.     

HeLa细胞cDNA文库及酵母双杂交诱饵载体pGBKT7-CPn0308的构建

旨在利用酵母双杂交系统构建HeLa细胞的cDNA文库,并构建酵母双杂交诱饵载体pGBKT7-CPn0308。从HeLa细胞中提取总RNA,应用SMARTTM技术,构建以pGADT7-Rec为载体的HeLa细胞酵母GAL4 AD融合cDNA文库。应用PCR技术扩增目的片段CPn0308,并成功克隆该基因到诱饵载体pGBKT7中,将重组质粒转化酵母菌株AH109后,检测诱饵载体有无自激活和细胞毒性作用。结果显示,文库展现良好的多态性,重组诱饵载体pGBKT7-CPn0308不具有毒性且未自主激活报告基因,说明该文库和诱饵质粒可用于酵母双杂交系统。     

Construction of two recombination yeast two-hybrid vectors by in vitro recombination

Recombination-based restrictionless, ligation-independent cloning has been proven to be advantageous over restriction digestion and ligation cloning. To utilize the recombination cloning and previously constructed two-hybrid cDNA libraries, a new Gateway yeast two-hybrid bait vector, pEZY202, and a new prey vector, pEZY45, were constructed. The two-hybrid vectors were generated by in vitro recombination using a protocol that can be easily adapted for the conversion of other existing vectors. The new vectors were used to assay the interaction between the WW domain of PQBP1 (PQBPww) and the WW domain binding protein WBP11. Both PQBPww and WBP11 were cloned into a Gateway donor vector by in vitro recombination. They were then subcloned into pEZY45 and pEZY202, respectively, by in vitro recombination. The binding between PQBPww and WBP11 was reported in a two-hybrid experiment using the new vectors. The results of testing the new vectors in combination with the original vectors indicated that the new bait vector could be used to screen cDNA libraries that are constructed using the original prey vectors.     

Identification of putative interactions between swine and human influenza A virus nucleoprotein and human host proteins

Background

Influenza A viruses (IAVs) are important pathogens that affect the health of humans and many additional animal species. IAVs are enveloped, negative single-stranded RNA viruses whose genome encodes at least ten proteins. The IAV nucleoprotein (NP) is a structural protein that associates with the viral RNA and is essential for virus replication. Understanding how IAVs interact with host proteins is essential for elucidating all of the required processes for viral replication, restrictions in species host range, and potential targets for antiviral therapies.

Methods

In this study, the NP from a swine IAV was cloned into a yeast two-hybrid “bait” vector for expression of a yeast Gal4 binding domain (BD)-NP fusion protein. This “bait” was used to screen a Y2H human HeLa cell “prey” library which consisted of human proteins fused to the Gal4 protein’s activation domain (AD). The interaction of “bait” and “prey” proteins resulted in activation of reporter genes.

Results

Seventeen positive bait-prey interactions were isolated in yeast. All of the “prey” isolated also interact in yeast with a NP “bait” cloned from a human IAV strain. Isolation and sequence analysis of the cDNAs encoding the human prey proteins revealed ten different human proteins. These host proteins are involved in various host cell processes and structures, including purine biosynthesis (PAICS), metabolism (ACOT13), proteasome (PA28B), DNA-binding (MSANTD3), cytoskeleton (CKAP5), potassium channel formation (KCTD9), zinc transporter function (SLC30A9), Na+/K+ ATPase function (ATP1B1), and RNA splicing (TRA2B).

Conclusions

Ten human proteins were identified as interacting with IAV NP in a Y2H screen. Some of these human proteins were reported in previous screens aimed at elucidating host proteins relevant to specific viral life cycle processes such as replication. This study extends previous findings by suggesting a mechanism by which these host proteins associate with the IAV, i.e., physical interaction with NP. Furthermore, this study revealed novel host protein-NP interactions in yeast.

     

Applications of EcR gene switch technology in functional genomics

Genetic engineering of plants using transgenic technology is targeted to enhance agronomic performance or improved quality traits in a wide variety of plant species, and has become a fundamental tool for basic research in plant biotechnology. Constitutive promoters are presently the primary means used to express transgenes in plants. However, inducible gene regulation systems based on specific chemicals have many potential applications in agriculture and for enhancing the basic understanding of gene function. As a result, several gene switches have been developed. The ecdysone receptor gene switch is one of the best inducible gene regulation systems available, because the chemical, methoxyfenozide, required for its regulation is registered for field use. An EcR gene switch with a potential for use in large-scale field applications has been developed by adopting a two-hybrid format. In a two-hybrid switch format, the GAL4 DNA binding domain (GAL4 DBD) was fused to the ligand binding domain (LBD) of the Choristoneura fumiferana ecdysone receptor (CfEcR); and, the VP16 activation domain (VP16 AD) was fused to the LBD of Locust migratoria retinoid X receptor (LmRXR). The sensitivity of the CfEcR gene switch was improved from micromolar to nanomolar concentrations of ligand by using the CfEcR:LmRXR two-hybrid switch. In this report, we demonstrate the utility of CfEcR:LmRXR two-hybrid gene switch in functional genomics applications for regulating the expression of a Superman-like single zinc finger protein 11 (ZFP11) gene in both Arabidopsis and tobacco transgenic plants.     

应用酵母双杂交系统筛选橡胶延长因子REF的互作蛋白

利用酵母双杂交系统,以橡胶树(Hevea brasiliensis)橡胶延长因子基因REF的开放阅读框(ORF)构建无自激活性的诱饵表达载体pBD-GAL4-REF,并筛选以pAD-GAL4-2.1载体构建的橡胶树胶乳cDNA文库,对阳性克隆的cDNA插入片段进行测序及生物学功能分析。通过酵母双杂交筛选,共获得5种可能与REF互作的候选蛋白质,它们分别为与诱饵蛋白REF高度同源的REF家族成员、小橡胶粒子蛋白(SRPP)、翻译控制肿瘤蛋白(TCTP)、激发子响应蛋白和泛素耦联酶E2,这表明橡胶延长因子REF除了与自身高度同源蛋白质可能存在相互作用之外,还可能与TCTP和激发子响应蛋白等其它蛋白质发生相互作用。这些结果有助于揭示橡胶粒子的生物学功能。     

Isolation of Nicotiana plumbaginifolia cDNAs encoding isoforms of serine acetyltransferase and O-acetylserine (thiol) lyase in a yeast two-hybrid system with Escherichia coli cysE and cysK genes as baits

We applied the yeast two-hybrid system for screening of a cDNA library of Nicotiana plumbaginifolia for clones encoding plant proteins interacting with two proteins of Escherichia coli: serine acetyltransferase (SAT, the product of cysE gene) and O-acetylserine (thiol)lyase A, also termed cysteine synthase (OASTL-A, the product of cysK gene). Two plant cDNA clones were identified when using the cysE gene as a bait. These clones encode a probable cytosolic isoform of OASTL and an organellar isoform of SAT, respectively, as indicated by evolutionary trees. The second clone, encoding SAT, was identified independently also as a "prey" when using cysK as a bait. Our results reveal the possibility of applying the two-hybrid system for cloning of plant cDNAs encoding enzymes of the cysteine synthase complex in the two-hybrid system. Additionally, using genome walking sequences located upstream of the sat1 cDNA were identified. Subsequently, in silico analyses were performed aiming towards identification of the potential signal peptide and possible location of the deduced mature protein encoded by sat1.     

Analysis of tyrosine phosphorylation-dependent protein-protein interactions in TrkB-mediated intracellular signaling using modified yeast two-hybrid system.

Activated receptor tyrosine kinases induce a large number of tyrosine phosphorylation-dependent protein-protein interactions through which they mediate their various ligand-exerted functions including regulation of proliferation, differentiation and survival. TrkB receptor tyrosine kinase activated by binding of brain-derived neurotrophic factor (BDNF) also stimulates various protein interactions in a tyrosine phosphorylation-dependent manner in neuronal cells. To examine tyrosine phosphorylation-dependent interactions stimulated by active TrkB, we developed a modified yeast two-hybrid system, which we call the yeast two-and-a-half-hybrid system. In this system, yeast was engineered to express a tyrosine kinase domain of TrkB as an effector, in addition to two fusion proteins with GAL4 DNA-binding and GAL4 activation domains as bait and prey proteins, respectively. Using this system with Shp2 as the bait, we demonstrated that Shp2 interacts directly with BIT/SHPS-1 (also called SIRP) and Grb2 depending on tyrosine phosphorylation mediated by TrkB. Furthermore, we screened an adult human brain cDNA library with the yeast two-and-a-half-hybrid system in order to identify other Shp2-binding proteins in TrkB-stimulated tyrosine phosphorylation signaling. We found that fibroblast growth factor receptor substrate 2beta (FRS2beta), also called SNT2, interacts with Shp2 dependently on TrkB-mediated tyrosine phosphorylation of FRS2beta/SNT2. Therefore, we show that the two-and-a-half-hybrid system is a powerful tool for studying tyrosine phosphorylation-dependent protein-protein interactions in intracellular signaling pathways stimulated by TrkB receptor tyrosine kinase.     

GAL4 Is a Substrate for Caspases: Implications for Two-Hybrid Screening and Other GAL4-Based Assays

Yeast two-hybrid technology as well as mammalian reporter assays use fusions between a protein of interest and the GAL4 DNA-binding domain (GAL4DB). We demonstrate that expression of a GAL4DB/caspase-1 chimeric protein in yeast leads to autoproteolytic cleavage of GAL4DB. Moreover, recombinant GAL4DB is a good in vitro substrate for recombinant caspase-1 and several other caspases. Cleavage sites map at the C-terminus of GAL4DB and result in release of the fused protein. The finding that GAL4DB can be cleaved by caspases has important implications for the use of caspases in two-hybrid analysis and in the interpretation of mammalian assays based on GAL4-dependent reporter gene expression.