Identification of PLP2 and RAB5C as novel TPD52 binding partners through yeast two-hybrid screening

Tumor protein D52 (TPD52) is overexpressed in different cancers, but its molecular functions are poorly defined. A large, low-stringency yeast two-hybrid screen using full-length TPD52 bait identified known partners (TPD52, TPD52L1, TPD52L2, MAL2) and four other preys that reproducibly bound TPD52 and TPD52L1 baits (PLP2, RAB5C, GOLGA5, YIF1A). PLP2 and RAB5 interactions with TPD52 were confirmed in pull down assays, with interaction domain mapping experiments indicating that both proteins interact with a novel binding region of TPD52. This study provides insights into TPD52 functions, and ways to maximise the efficiency of low-stringency yeast two-hybrid screens.     

A testis-specific and testis developmentally regulated tumor protein D52 (TPD52)-like protein TPD52L3/hD55 interacts with TPD52 family proteins

Tumor protein D52-like proteins (TPD52) are small coiled-coil motif bearing proteins that were first identified in breast cancer. TPD52 and related proteins have been implicated in cell proliferation, apoptosis, and vesicle trafficking. To date, three human TPD52 members had been identified, named hD52 (TPD52), hD53 (TPD52L1), and hD54 (TPD52L2). The most important characteristic of the protein family is a highly conserved coiled-coil motif that is required for homo- and heteromeric interaction with other TPD52-like proteins. Herein, we identified a novel TPD52-like sequence (TPD52L3, or hD55) in human testis using cDNA microarray. Sequence analysis of the deduced protein suggests that hD55 contains a coiled-coil motif and is highly conserved compared with other TPD52-like sequences. Yeast two-hybrid and GST pull-down assays revealed that hD55 interacts with hD52, hD53, hD54, and itself. cDNA microarray detection found that hD55 was expressed at 5.6-fold higher levels in adult testis than in fetal testis. Additionally, the expression profile shows that hD55 is testis-specific, indicating a potential role for hD55 in testis development and spermatogenesis.     

Identification of the proteins interacting with neuroprotective peptide humanin in a yeast two-hybrid system

Humanine is a human neuroprotective peptide with a wide action spectrum. To analyze molecular mechanisms of humanin functioning, a search for proteins interacting with this peptide was conducted using yeast two-hybrid system. Screening of human fetal brain cDNA library identified seven proteins with different functions that specifically interacted with humanin.     

Identification of the proteins interacting with neuroprotective peptide humanin in a yeast two-hybrid system

Humanine is a human neuroprotective peptide with a wide action spectrum. To analyze molecular mechanisms of humanin functioning, a search for proteins interacting with this peptide was conducted using yeast two-hybrid system. Screening of human fetal brain cDNA library identified seven proteins with different functions that specifically interacted with humanin.     

Analysing protein-protein interactions with the yeast two-hybrid system

Plant research is moving into the post-genomic era. Proteomic-based strategies are now being developed to study functional aspects of the genes predicted from the various genome-sequencing initiatives. All biological processes depend on interactions formed between proteins and the mapping of such interactions on a global scale is providing interesting functional insights. One of the techniques that has proved itself invaluable in the mapping of protein-protein interactions is the yeast two-hybrid system. This system is a sensitive molecular genetic approach for studying protein-protein interactions in vivo. In this review we will introduce the yeast two-hybrid system, discuss modifications of the system that may be of interest to the plant science community and suggest potential applications of the technology.     

Evidence of physical interactions of puroindoline proteins using the yeast two-hybrid system

The puroindoline proteins PINA and PINB play key roles in determining wheat grain texture and also have potential antimicrobial roles. Many recent studies show that their roles in grain texture involve some interaction or interdependence, and their antimicrobial activity may also involve formation of protein complexes. The issue of whether any homo- and/or heteromeric associations occur amongst the PIN proteins is thus critical for understanding their biological functions and exploiting them for grain texture modifications or antimicrobial applications, but is as yet unresolved. This work has utilised the well-established yeast two-hybrid system to directly address this issue. The results confirm occurrence of in vivo interactions between the two PIN proteins for the first time, and show that PINB interacts with itself and also interacts, although somewhat weakly, with PINA, while PINA is a weaker interactor. The results explain the many reported observations suggesting a co-operative interaction between the two proteins and provide a rapid and efficient tool for testing the effects of various alleles/mutations on the interactions and lipid binding properties of these proteins, which are of functional significance to grain texture and antimicrobial defence functions.     

Identification of proteins that interact with a protein of interest: Applications of the yeast two-hybrid system

The yeast two-hybrid system is a molecular genetic test for protein interaction. Here we describe a step by step procedure to screen for proteins that interact with a protein of interest using the two-hybrid system. This process includes, construction and testing of the bait plasmid, screening a plasmid library for interacting fusion proteins, elimination of false positives and deletion analysis of true positives. This procedure is designed to allow investigators to identify proteins and their encoding cDNAs that have a biologically significant interaction with your protein of interest.     

BENE, a novel raft-associated protein of the MAL proteolipid family, interacts with caveolin-1 in human endothelial-like ECV304 cells

The MAL proteolipid, an integral protein present in glycolipid- and cholesterol-enriched membrane (GEM) rafts, is an element of the machinery necessary for apical sorting in polarized epithelial Madin-Darby canine kidney cells. MAL was the first member identified of an extended family of proteins that have significant overall sequence identity. In this study we have used a newly generated monoclonal antibody to investigate an unedited member of this family, named BENE, which was found to be expressed in endothelial-like ECV304 cells and normal human endothelium. Human BENE was characterized as a proteolipid protein predominantly present in GEM rafts in ECV304 cells. Coimmunoprecipitation experiments revealed that BENE interacted with caveolin-1. Confocal immunofluorescence and electron microscopic analyses indicated that BENE mainly accumulated into intracellular vesicular/tubular structures that partially colocalize with internal caveolin-1. In response to cell surface cholesterol oxidation, BENE redistributed to the dilated vesicular structures that concentrate most of the caveolin-1 originally on the cell surface. After cessation of cholesterol oxidation, a detectable fraction of the BENE molecules migrated to the plasmalemma accompanying caveolin-1 and then returned progressively to its steady state distribution. Together, these features highlight the BENE proteolipid as being an element of the machinery for raft-mediated trafficking in endothelial cells.     

神经病靶标酯酶调控结构域结合蛋白筛选及其在COS-7细胞中的表达

本研究采用酵母双杂交系统探寻与神经病靶标酯酶（NTE）调控结构域相互作用的蛋白因子,揭示与NTE信号转导相关的可能机制。通过构建含有NTE调控结构域的诱饵蛋白载体筛选胎脑文库,并将筛选得到的阳性克隆在酵母中进行了验证,随后在哺乳动物细胞中表达了该蛋白。生物信息学分析显示：该阳性克隆为前列腺素受体结合蛋白54（ARA54）,具有泛素连接酶活性,提示细胞可能存在依赖于细胞周期的NTE活性调节机制,为阐明NTE生理功能创造了条件[动物学报51（5）：840—844,2005]。     

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。     

Identification of a novel testis-specific member of the phosphatidylethanolamine binding protein family,pebp-2

The phosphatidylethanolamine binding proteins (pebps) are an evolutionarily conserved family of proteins recently implicated in mitogen-activated protein (MAP) kinase pathway regulation, where they are called raf kinase inhibitory proteins. Here, we describe the cloning, cellular localization, and partial characterization of a new member, pebp-2, with potential roles in male fertility. Expression data show that pebp-2 is a testis-specific 21-kDa protein found within late meiotic and haploid germ cells in a stage-specific pattern that is temporally distinct from that of pebp-1. Sequence analyses suggest that pebp-2 forms a distinct subset of the pebp family within mammals. Database analyses revealed the existence of a third subset. Analysis suggests that the specificity/regulation of the distinct pebps subsets is likely to be determined by the amino terminal 40 amino acids or the 3' untranslated region, where the majority of sequence differences occur. Protein homology modeling suggests that pebp-2 protein is, however, topologically similar to other pebps and composed of Greek key fold motifs, a dominant beta-sheet formed from five anti-parallel beta strands forming a shallow groove associated with a putative phosphatidylethanolamine binding site. The pebp-2 gene is intronless and data suggest that it is a retrogene derived from pebp-1. Further, pebp-2 colocalizes with members of the MAP kinase pathway in late spermatocytes and spermatids and on the midpiece of epididymal sperm. These data raise the possibility that pebp-2 is a novel participant in the MAP kinase signaling pathway, with a role in spermatogenesis or posttesticular sperm maturation.     

Identification of connexin-interacting proteins: application of the yeast two-hybrid screen

Protein-protein interactions are recognized as one of the fundamental mechanisms for relaying the intra- and intercellular signals that are required for normal cellular activities affecting growth, development, and maintenance of homeostasis in tissues and organs. The yeast two-hybrid screen has become a valuable tool for identifying protein-protein interactions. The gap junction protein connexin 43 (Cx43) has been implicated in a number of biological processes including development and cellular growth control. To further advance our understanding of the ways in which Cx43 may influence these cellular activities, and to extend our knowledge of the regulation of Cx43 function and/or processing, we have employed the yeast two-hybrid screen technique to identify Cx43-interacting proteins. We present detailed methods for the yeast two-hybrid screen of a mouse embryonic cDNA library using the C terminus of Cx43 as "bait." We also describe additional methods to confirm the interactions between Cx43 and the identified proteins. These methods include in vitro binding assays, coimmunoprecipitation, and subcellular localization using immunofluorescence microscopy.     

酵母双杂交筛选与果蝇C(2)M相互作用的蛋白

同源染色体联会时形成的联会复合体(Synaptonemal complex, SC)是由减数分裂前期Ⅰ多种蛋白质聚集而成的超级复合结构。生殖细胞特异性的核蛋白C(2)M(Crossover suppressor on 2 of Manheim)在染色体上高度聚集可以诱导SC的形成。本文采用酵母双杂交方法,利用C(2)M的诱饵表达载体筛选果蝇cDNA文库,共发现40个可能与C(2)M相互作用的蛋白,包括多种DNA及组蛋白结合蛋白、ATPase、转录调节因子。从筛选的结果中,选取wech和Psf1基因构建了转基因果蝇,并在生殖细胞中进行了基因沉默,结果显示联会复合体的消失受到延迟。上述结果表明Wech和Psf1蛋白可能与C(2)M形成复合物,共同参与联会复合体的形成或其稳定性的维持。     

Identification of 12-lipoxygenase interaction with cellular proteins by yeast two-hybrid screening

The platelet isoform of 12-lipoxygenase (12-LOX) is expressed in a variety of human tumors. 12-LOX metabolizes arachidonic acid to 12(S)-hydroxyeicosateraenoic acid (12(S)-HETE), which induces a number of cellular responses associated with tumor progression and metastasis. Little is known about 12-LOX regulation and no direct regulators of 12-LOX activity have been identified. To identify potential regulators of 12-LOX, we isolated cDNAs encoding 12-LOX interacting proteins using the yeast two-hybrid system. We screened a yeast two-hybrid interaction library from human epidermoid carcinoma A431 cells and identified four cellular proteins that interact specifically with 12-LOX. We identified type II keratin 5, lamin A, the cytoplasmic domain of integrin beta4 subunit and a phosphoprotein C8FW as 12-LOX interacting proteins. Here, we demonstrated that keratin 5, a 58 kD protein required for formation of 8 nm intermediate filaments, binds to 12-LOX in human tumor cells and may contribute to the regulated trafficking of 12-LOX. We also showed that lamin A binds 12-LOX in human tumor cells. These proteins provide the first candidate regulators of 12-LOX.     

酵母双杂交技术筛选与hCLP46蛋白相互作用的蛋白

目的：利用酵母双杂交技术,筛选人类白细胞cDNA文库中能与人类CD34＋干/祖细胞异常表达蛋白hCLP46（Human CAP10-Like Protein46）相互作用的未知蛋白。通过对其相互作用蛋白的筛选和研究,深入探讨hCLP46的功能,为骨髓增生异常综合症MDS-AML的病理提供线索。方法：以pGBKT7-hCLP46为诱饵质粒筛选人类白细胞cDNA 文库,得到阳性克隆,并对验证后的阳性克隆的外源性片段进行测序及同源性分析。结果：从人类白细胞cDNA文库中得到86个阳性克隆,经过验证,最终得到5个阳性克隆。对验证后的阳性克隆的外源片断进行测序及同源性分析,最终得到4个不同的候选基因序列。结论：应用酵母双杂交系统,共筛选得到4个不同的基因,其编码蛋白与hCLP46 有相互作用,可能与MDS-AML发病机制相关。     

One- plus two-hybrid system, a novel yeast genetic selection for specific missense mutations disrupting protein/protein interactions

To facilitate analysis of protein/protein interaction interfaces, we devised a novel yeast genetic screening method, named the "one- plus two-hybrid system," for the efficient selection of missense mutations that specifically disrupt known protein/protein interactions. This system modifies the standard yeast two-hybrid system to allow the operation of dual reporter systems within the same cell. The one-hybrid system is first used to select the intact interacting partner (prey), resulting in the positive selection of informative missense mutants from a large library of randomly generated mutant alleles. Then in a second screening step, interaction-defective prey mutants for a given protein are selected using the two-hybrid reporter system among the isolated missense mutants. We used this method to characterize the interactions between unliganded nuclear receptors (NRs) and the conserved motif within the bipartite NR interaction domains (IDs) of the NR corepressor (N-CoR) and identified the specific residues of N-CoR-IDs required either generally for optimal NR binding or to interact with a particular NR. This efficient and rapid method should allow us to quickly analyze a large number of interaction interfaces.     

A search for protein-protein interactions of peroxiredoxin 6 with the yeast two-hybrid system

Peroxiredoxins (Prx) are a family of nonselenium peroxidases that are involved in cell defense against oxidative stress and in redox regulation of intracellular signaling. Mammalian peroxiredoxin 6 (Prx6) belongs to the 1-Cys Prx subfamily. The protein-protein interactions of human Prx6 were studied using a yeast two-hybrid system. Hybrid plasmid pHybLex/Zeo/Prx6, which directed synthesis of a chimeric protein consisting of the DNA-binding domain (BD) of LexA and a Prx6 sequence, was used to screen a two-hybrid cDNA library Hybrid Hunter (Invitrogen). The screening identified two potential interaction partners of Prx6: the calcium-activated cysteine endopeptidase calpain and the p50RhoGAP protein of the family of Sec14-like proteins. The possibility for the interactions observed in the two-hybrid system to occur in oxidative stress in vivo is discussed.