Developing tTA Transgenic Rats for Inducible and Reversible Gene Expression

To develop transgenic lines for conditional expression of desired genes in rats, we generated several lines of the transgenic rats carrying the tetracycline-controlled transactivator (tTA) gene. Using a vigorous, ubiquitous promoter to drive the tTA transgene, we obtained widespread expression of tTA in various tissues. Expression of tTA was sufficient to strongly activate its reporter gene, but was below the toxicity threshold. We examined the dynamics of Doxycycline (Dox)-regulated gene expression in transgenic rats. In the two transmittable lines, tTA-mediated activation of the reporter gene was fully subject to regulation by Dox. Dox dose-dependently suppressed tTA-activated gene expression. The washout time for the effects of Dox was dose-dependent. We tested a complex regime of Dox administration to determine the optimal effectiveness and washout duration. Dox was administered at a high dose (500 μg/ml in drinking water) for two days to reach the effective concentration, and then was given at a low dose (20 μg/ml) to maintain effectiveness. This regimen of Dox administration can achieve a quick switch between ON and OFF statuses of tTA-activated gene expression. In addition, administration of Dox to pregnant rats fully suppressed postnatal tTA-activated gene expression in their offspring. Sufficient levels of Dox are present in mother's milk to produce maximal efficacy in nursing neonates. Administration of Dox to pregnant or nursing rats can provide a continual suppression of tTA-dependent gene expression during embryonic and postnatal development. The tTA transgenic rat allows for inducible and reversible gene expression in the rat; this important tool will be valuable in the development of genetic rat models of human diseases.     

利用酵母双杂交技术筛选与生殖支原体黏附蛋白(MgPa)相互作用的宿主蛋白

从利用基于分离的泛素介导膜蛋白酵母双杂交系统构建的人尿道上皮细胞cDNA文库中筛选生殖支原体(Mg)黏附蛋白(MgPa)的互作蛋白。以pET30a-MgPa为模板,经PCR扩增MgPa基因,将其分别连接到pBT3STE和pBT3SUC载体以构建诱饵质粒pBT3STE-MgPa和pBT3SUC-MgPa;将诱饵质粒分别转化到酵母菌株NMY32内,检测其毒性和自激活活性;将人尿道上皮细胞cDNA文库质粒pPR3-N-207-Zeng转入到含pBT3SUC-MgPa诱饵质粒的酵母菌株中,筛选阳性克隆。检测阳性克隆LacZ报告基因的活性。提取阳性克隆质粒进行DNA测序与BLAST分析。结果显示,成功构建的诱饵质粒pBT3STE-MgPa和pBT3SUC-MgPa两者都没有自激活功能,且pBT3SUC-MgPa的活性强于pBT3STE-MgPa。用pBT3SUC-MgPa转化NMY32酵母作为受体酵母细胞。经DNA测序与BLAST分析结果表明筛选到的28个阳性克隆归属于23个不同的蛋白。从利用分离的泛素介导膜蛋白酵母双杂交系统构建的人尿道上皮细胞cDNA文库中筛选到23个与MgPa相互作用的蛋白,为阐明MgPa的功能及Mg可能的致病机制提供参考。     

Quantitative assessment of the structural bias in protein-protein interaction assays

With recent publications of several large-scale protein-protein interaction (PPI) studies, the realization of the full yeast interaction network is getting closer. Here, we have analysed several yeast protein interaction datasets to understand their strengths and weaknesses. In particular, we investigate the effect of experimental biases on some of the protein properties suggested to be enriched in highly connected proteins. Finally, we use support vector machines (SVM) to assess the contribution of these properties to protein interactivity. We find that protein abundance is the most important factor for detecting interactions in tandem affinity purifications (TAP), while it is of less importance for Yeast Two Hybrid (Y2H) screens. Consequently, sequence conservation and/or essentiality of hubs may be related to their high abundance. Further, proteins with disordered structure are over-represented in Y2H screens and in one, but not the other, large-scale TAP assay. Hence, disordered regions may be important both in transient interactions and interactions in complexes. Finally, a few domain families seem to be responsible for a large part of all interactions. Most importantly, we show that there are method-specific biases in PPI experiments. Thus, care should be taken before drawing strong conclusions based on a single dataset.     

Tetracycline inducible gene manipulation in serotonergic neurons

The serotonergic (5-HT) neuronal system has important and diverse physiological functions throughout development and adulthood. Its dysregulation during development or later in adulthood has been implicated in many neuropsychiatric disorders. Transgenic animal models designed to study the contribution of serotonergic susceptibility genes to a pathological phenotype should ideally allow to study candidate gene overexpression or gene knockout selectively in serotonergic neurons at any desired time during life. For this purpose, conditional expression systems such as the tet-system are preferable. Here, we generated a transactivator (tTA) mouse line (TPH2-tTA) that allows temporal and spatial control of tetracycline (Ptet) controlled transgene expression as well as gene deletion in 5-HT neurons. The tTA cDNA was inserted into a 196 kb PAC containing a genomic mouse Tph2 fragment (177 kb) by homologous recombination in E. coli. For functional analysis of Ptet-controlled transgene expression, TPH2-tTA mice were crossed to a Ptet-regulated lacZ reporter line (Ptet-nLacZ). In adult double-transgenic TPH2-tTA/Ptet-nLacZ mice, TPH2-tTA founder line L62-20 showed strong serotonergic β-galactosidase expression which could be completely suppressed with doxycycline (Dox). Furthermore, Ptet-regulated gene expression could be reversibly activated or inactivated when Dox was either withdrawn or added to the system. For functional analysis of Ptet-controlled, Cre-mediated gene deletion, TPH2-tTA mice (L62-20) were crossed to double transgenic Ptet-Cre/R26R reporter mice to generate TPH2-tTA/Ptet-Cre/R26R mice. Without Dox, 5-HT specific recombination started at E12.5. With permanent Dox administration, Ptet-controlled Cre-mediated recombination was absent. Dox withdrawal either postnatally or during adulthood induced efficient recombination in serotonergic neurons of all raphe nuclei, respectively. In the enteric nervous system, recombination could not be detected. We generated a transgenic mouse tTA line (TPH2-tTA) which allows both inducible and reversible transgene expression and inducible Cre-mediated gene deletion selectively in 5-HT neurons throughout life. This will allow precise delineation of serotonergic gene functions during development and adulthood.     

High throughput flow cytometry based yeast two-hybrid array approach for large-scale analysis of protein-protein interactions

The analysis of protein-protein interactions is a key focus of proteomics efforts. The yeast two-hybrid system (Y2H) has been the most commonly used method in genome-wide searches for protein interaction partners. However, the throughput of the current yeast two-hybrid array approach is hampered by the involvement of the time-consuming LacZ assay and/or the incompatibility of liquid handling automation due to the requirement for selection of colonies/diploids on agar plates. To facilitate large-scale Y2H assays, we report a novel array approach by coupling a GFP reporter based Y2H system with high throughput flow cytometry that enables the processing of a 96-well plate in as little as 3 min. In this approach, the yEGFP reporter has been established in both AH109 (MATa) and Y187 (MATα) reporter cells. It not only allows the generation of two copies of GFP reporter genes in diploid cells, but also allows the convenient determination of self-activators generated from both bait and prey constructs by flow cytometry. We demonstrate a Y2H array assay procedure that is carried out completely in liquid media in 96-well plates by mating bait and prey cells in liquid YPD media, selecting the diploids containing positive interaction pairs in selective media and analyzing the GFP reporter directly by flow cytometry. We have evaluated this flow cytometry based array procedure by showing that the interaction of the positive control pair P53/T is able to be reproducibly detected at 72 hr postmating compared with the negative control pairs. We conclude that our flow cytometry based yeast two-hybrid approach is robust, convenient, quantitative, and is amenable to large-scale analysis using liquid-handling automation.     

酵母双杂交筛选与GsCBRLK相互作用的蛋白质

GsCBRLK(calcium/calmodulin-binding receptor-like kinase from Glycine soja)在ABA及盐胁迫诱导的钙离子信号通路中起到关键的调节作用。为深入研究GsCBRLK蛋白的作用机制, 文章采用膜酵母双杂交系统, 以GsCBRLK为诱饵蛋白, 筛选与其相互作用的蛋白质。通过构建野生大豆盐胁迫条件下的cDNA文库、膜酵母双杂交系统筛选、复筛、回转验证、生物信息学分析以及酵母体内互作验证等手段, 最终获得2个(SNARE 和 14-3-3 蛋白)与GsCBRLK诱饵蛋白相互作用的蛋白质。     

A Novel Genetic System Based on Zinc Finger Nucleases for the Identification of Interactions between Proteins In Vivo

Yeast two-hybrid (Y2H) methods are powerful tools for detecting protein–protein interactions. The traditional Y2H method has been widely applied to screen novel protein interactions since it was established two decades ago. The high false-positive rate of the traditional method drove the development of modified Y2H systems. Here, we describe a novel Y2H system using zinc-finger nucleases (ZFNs). ZFNs contain two functional domains, a zinc-finger DNA-binding domain (ZFP) and a non-specific nuclease domain (FokI). In this system, the bait is expressed as a fusion protein with a specific ZFP, and the prey is fused to the FokI. A reporter vector is designed such that the ZFN target site disrupts the Gal4 open reading frame. By transforming the three plasmids into a yeast strain (AH109), the interaction between the bait and prey proteins reconstitutes ZFN function and generates the double-strand break (DSB) on its target site. The DNA DSB repair restores Gal4 function, which activates the expression of the four reporter genes. We used p53-SV40LT interacting proteins to prove the concept. In addition, 80% positive rate was observed in a cDNA screening test against WDSV orfA protein. Our results strongly suggested that this Y2H system could increase screening reliability and reproducibility, and provide a novel approach for interactomics research.     

Altered amelogenin self-assembly based on mutations observed in human X-linked amelogenesis imperfecta (AIH1)

A hallmark of biological systems is a reliance on protein assemblies to perform complex functions. We have focused attention on mammalian enamel formation because it relies on a self-assembling protein complex to direct mineral habit. The principle protein of enamel is amelogenin, a 180-amino acid hydrophobic protein that self-assembles to form nanospheres. We have used independent technical methods, consisting of the yeast two-hybrid (Y2H) assay and surface plasmon resonance (SPR), to demonstrate the importance of amelogenin self-assembly domains. In addition, we have analyzed mutations in amelogenin observed in patients with amelogenesis imperfecta who demonstrate defects in enamel formation. Assessments of self-assembly of these mutant amelogenins by either SPR or Y2H assay yield concordant data. These data support the conclusion that the amelogenin amino-terminal self-assembly domain is essential to the creation of an enamel extracellular organic matrix capable of directing mineral formation. It also suggests that a pathway through which point mutations in the amelogenin protein can adversely impact on the formation of the enamel organ is by disturbing self-assembly of the organic matrix. These data support the utilization of the Y2H assay to search for protein interactions among extracellular matrix proteins that contribute to biomineralization and provide functional information on protein-protein and protein-mineral interactions.     

Affinity maturation of Fab antibody fragments by fluorescent-activated cell sorting of yeast-displayed libraries

We report for the first time the affinity maturation of Fab antibody fragments using fluorescent-activated cell sorting (FACS) of yeast-displayed repertoires. A single yeast display vector which enables the inducible expression of an anchored heavy chain and a soluble light chain has been constructed. The assembly and functional display on the yeast cell surface of Fab antibodies specific for different protein targets has been demonstrated by flow cytometry and immunofluorescence microscopy. We have affinity matured a Fab antibody specific for the tetravalent antigen streptavidin using FACS of yeast-displayed repertoires diversified by error-prone polymerase chain reaction. A panel of variants with up to 10.7-fold improvement in affinity was obtained after selection. Two leading clones, R2H10 (3.2 nM) and R3B1 (5.5 nM), had mutations in light chain complementarity determining region 1 LC-CDR1 (H34R) and LC-CDR3 (Y96H or Y96F) and gave a 10.7-fold and 6.3-fold affinity improvement over the starting antibody, respectively. The ability to efficiently affinity mature Fab antibodies is an important component of the antibody development pipeline and we have shown that yeast display is an efficient method for this purpose.     

Barcode fusion genetics-protein-fragment complementation assay (BFG-PCA): tools and resources that expand the potential for binary protein interaction discovery

Barcode fusion genetics (BFG) utilizes deep sequencing to improve the throughput of protein–protein interaction (PPI) screening in pools. BFG has been implemented in Yeast two-hybrid (Y2H) screens (BFG-Y2H). While Y2H requires test protein pairs to localize in the nucleus for reporter reconstruction, dihydrofolate reductase protein-fragment complementation assay (DHFR-PCA) allows proteins to localize in broader subcellular contexts and proves to be largely orthogonal to Y2H. Here, we implemented BFG to DHFR-PCA (BFG-PCA). This plasmid-based system can leverage ORF collections across model organisms to perform comparative analysis, unlike the original DHFR-PCA that requires yeast genomic integration. The scalability and quality of BFG-PCA were demonstrated by screening human and yeast interactions for >11 000 bait-prey pairs. BFG-PCA showed high-sensitivity and high-specificity for capturing known interactions for both species. BFG-Y2H and BFG-PCA capture distinct sets of PPIs, which can partially be explained based on the domain orientation of the reporter tags. BFG-PCA is a high-throughput protein interaction technology to interrogate binary PPIs that exploits clone collections from any species of interest, expanding the scope of PPI assays.     

Regulated, stable expression and nuclear presence of retrovirus double-stranded RNA-binding protein sigma3 in HeLa cells.

Reovirus genome segment S4 codes for polypeptide sigma3, a major outer capsid component of virions and a double-stranded RNA (dsRNA)-binding protein implicated in viral cytopathogenesis. We have constructed a stable HeLa cell line (S4tTA) that produces functional sigma3 under tetracycline transactivator control. In the absence of tetracycline, S4tTA cells synthesized stable dsRNA-binding sigma3 that accumulated in the nucleus as well as in the cytoplasm. However, in induced S4tTA cells also expressing reovirus outer shell polypeptide mu1/mu1C, migration of sigma3 into the nucleus was blocked, probably as a result of formation of a complex with mu1/mu1C which was exclusively in the cytoplasm. Mutant analyses indicated a correlation between dsRNA-binding activity and nuclear entry of sigma3, suggesting an additional role(s) for this capsid protein in virus-cell interactions.     

Identification of the transactivation domain of the human FHL3

Four and a half LIM domain protein 3 (FHL3) has the transactivation and repressor activity, and plays important roles in regulating the expression levels of various genes. In this study, FHL3 was proved to possess the auto-activation ability when constructed into the pGBKT7 plasmid (a GAL4 DNA-binding domain (BD) cloning vector of the yeast two-hybrid system) and transformed into yeast Y190 cells. To determine the transactivation domain of FHL3, five mutants were constructed by sequentially deleting each LIM domain of FHL3 and then inserting them into the pGBKT7 plasmid. After being transformed into yeast Y190 cells, expression levels of the mutants were identified by Western blot analysis. The β-galactosidase assay showed that the mutant without the fourth LIM domain (LIM4) lost the auto-activation ability. Further investigations on the mutants with deleted first or second zinc finger of LIM4 confirmed that the second zinc finger motif in LIM4 was responsible for the auto-activation of FHL3.     

高通量筛选雌激素类化合物重组绿色荧光蛋白酵母细胞测评体系

以载体双表达的方式构建重组酵母环境雌激素的评价体系, 用于快速筛选雌激素类化合物。在表达载体中, 用3-磷酸甘油醛脱氢酶(GPD)启动子驱动a人雌激素受体基因(hERa)的表达; 在报告载体中, 用雌激素效应元件(ERE)调控的绿色荧光蛋白(yEGFP)作为报告基因。将两者转化于酵母细胞(W303-1A)中, 构建成重组绿色荧光蛋白酵母细胞。该酵母细胞经不同浓度的雌激素类化合物作用后, 发现GFP的表达量与此类受试物具有明显的剂量效应关系。与其他环境雌激素酵母评价体系相比, 该重组酵母评价细胞, 在应用时不需要破坏细胞壁, 也不需要底物和相关试剂, 可直接在96孔板中操作完成, 具有快速、高通量、敏感性高、重现性好及廉价等特点。     

植物转录因子与DNA互作研究技术

转录通过调控下游基因的时空特异性表达影响植物生长发育。在转录调控机制的解析过程中, 转录因子与DNA的相互作用是关键的一环。近年来, 研究者利用酵母单杂交(Y1H)和凝胶阻滞迁移率实验(EMSA)检测转录因子能否直接结合DNA; 而瞬时表达技术则是一种检测转录因子对下游基因调控作用的便捷方式。该文对Y1H、EMSA和瞬时表达技术的原理、实验方法和相关注意事项进行详细阐述, 以期为转录因子与DNA的互作研究提供参考方法。