Recruitment of Gcn5-containing complexes during c-Myc-dependent gene activation. Structure and function aspects

The N-terminal domain of c-Myc plays a key role in cellular transformation and is involved in both activation and repression of target genes as well as in modulated proteolysis of c-Myc via the proteasome. Given this functional complexity, it has been difficult to clarify the structures within the N terminus that contribute to these different processes as well as the mechanisms by which they function. We have used a simplified yeast model system to identify the primary determinants within the N terminus for (i) chromatin remodeling of a promoter, (ii) gene activation from a chromatin template in vivo, and (iii) interaction with highly purified Gcn5 complexes as well as other chromatin-remodeling complexes in vitro. The results identify two regions that contain autonomous chromatin opening and gene activation activity, but both regions are required for efficient interaction with chromatin-remodeling complexes in vitro. The conserved Myc boxes do not play a direct role in gene activation, and Myc box II is not generally required for in vitro interactions with remodeling complexes. The yeast SAGA complex, which is orthologous to the human GCN5-TRRAP complex that interacts with Myc in human cells, plays a role in Myc-mediated chromatin opening at the promoter but may also be involved in later steps of gene activation.     

RIP-Chip: the isolation and identification of mRNAs, microRNAs and protein components of ribonucleoprotein complexes from cell extracts

RNA targets of multitargeted RNA-binding proteins (RBPs) can be studied by various methods including mobility shift assays, iterative in vitro selection techniques and computational approaches. These techniques, however, cannot be used to identify the cellular context within which mRNAs associate, nor can they be used to elucidate the dynamic composition of RNAs in ribonucleoprotein (RNP) complexes in response to physiological stimuli. But by combining biochemical and genomics procedures to isolate and identify RNAs associated with RNA-binding proteins, information regarding RNA-protein and RNA-RNA interactions can be examined more directly within a cellular context. Several protocols--including the yeast three-hybrid system and immunoprecipitations that use physical or chemical cross-linking--have been developed to address this issue. Cross-linking procedures in general, however, are limited by inefficiency and sequence biases. The approach outlined here, termed RNP immunoprecipitation-microarray (RIP-Chip), allows the identification of discrete subsets of RNAs associated with multi-targeted RNA-binding proteins and provides information regarding changes in the intracellular composition of mRNPs in response to physical, chemical or developmental inducements of living systems. Thus, RIP-Chip can be used to identify subsets of RNAs that have related functions and are potentially co-regulated, as well as proteins that are associated with them in RNP complexes. Using RIP-Chip, the identification and/or quantification of RNAs in RNP complexes can be accomplished within a few hours or days depending on the RNA detection method used.     

GFP-reporter for a high throughput assay to monitor estrogenic compounds

In vitro test systems using yeast cells are a useful tool for the determination of the estrogenic activity of estrogens, phyto- and xeno-estrogens and can be used for monitoring large sample numbers in a routine analysis procedure. Our conventional transactivation assay functions with an expression plasmid expressing estrogen receptor α (ERα) under the control of a copper-inducible CUP1 promoter and a reporter plasmid expressing β-galactosidase under the control of the vitellogenin estrogen response element (ERE). In the novel yeast screen system the lacZ gene in the reporter plasmid was substituted by a gene for green fluorescent protein (GFP). Incubation of yeast with various concentrations of estrogenically active substances led to expression of the reporter gene product GFP in a dose dependent manner. The yeast transactivation assay was further down-scaled to be performed in a microplate scale, which is an important step to facilitate handling of large sample numbers. The sensitivity and reproducibility of the novel test system could be confirmed by analysis of the potencies of various estrogenically active substances. Thus, the newly developed yeast estrogen screen using GFP as a reporter can substitute the assay that has been used for a period of several years.     

Using yeast two-hybrid system to detect interactions of ATP synthase subunits from Spinacia oleracea

Subunit interactions among the chloroplast ATP synthase subunits were studied using the yeast two-hybrid system. Various pairwise combinations of genes encoding a, p, y, 8 and e subunits of Spinach ATP synthase fused to the binding domain or activation domain of GAL4 DNA were introduced into yeast and then expression of a reporter gene encoding p-galactosidase was detected. Of all the combinations, that of y and e subunit genes showed the highest level of reporter gene expression, while those of a and p, a and e, p and e and p and 8 induced stable and significant reporter gene expression. The combination of 8 and e as well as that of 8 and y induced weak and unstable reporter gene expression. However, combinations of a and y, p and y and a and 8 did not induce reporter gene expression. These results suggested that specific and strong interactions between y and e, a and p, a and e, p and e and p and 8 subunits, and weak and transient interactions between 8 and e and 8 and y subunits occurred in the yeast     

Tec家族蛋白酪氨酸激酶Itk PH结构域与OS-9蛋白的相互作用

用酵母双杂交技术筛选与ItkPH结构域相互作用的蛋白分子 ,以了解Itk的功能及其在T细胞信号转导中的位置与作用 .Itk的PH结构域扩增后克隆入酵母双杂交系统的pLexA载体 ,转化酵母细胞EGY4 8(p8op lacZ) ,经检测PH结构域无自激活作用 ,且对酵母细胞无毒性作用 .用PH结构域作为“钓饵”蛋白 ,在酵母双杂交系统中筛选构建于AD载体的T细胞cDNA文库 .将PH结构域及筛库所得基因片段分别进行融合表达 ,用于体外结合实验 ,进一步证实二者的相互作用 .经营养缺陷选择、诱导筛选和鉴定确证 ,筛库所得的插段约 15 0 0bp的文库质粒为一真阳性克隆 .经blast比较分析为骨肉瘤、横纹肌肉瘤等肿瘤组织中高表达的os 9基因 .体外结合实验也表明 ,ItkPH结构域可与该基因表达产物结合 .Itk的PH结构域可与OS 9蛋白相互作用 .二者结合的意义有待进一步研究     

Stabilities of HIV-1 DIS type RNA loop-loop interactions in vitro and in vivo

RNA loop–loop interactions are a prevalent motif in the formation of tertiary structure and are well suited to trigger molecular recognition between RNA molecules. We determined the stabilities of several loop–loop interactions with a constant 6 bp core sequence and varying unpaired flanking nucleotides and found that the flanking bases have a strong influence on the stability and ion dependence of the kissing complex. In general, the stabilities determined in 1 M Na⁺ are equivalent to those in the presence of near physiological Mg²⁺ concentrations. Therefore we further tested whether the stabilities determined in vitro and within yeast cells correlate, using a recently developed yeast RNA-hybrid system. For the majority of the loop types analyzed here, the melting temperatures determined in vitro are in good agreement with the relative β-galactosidase activity in yeast cells, showing that data derived from in vitro measurements reflect in vivo properties. The most stable interactions are the naturally occurring HIV-1 DIS MAL and LAI derived loops with the motif (5′ A^A/_GN₆A 3′), emphasizing the crucial role of stable kissing complexes in HIV genome dimerization.     

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。