恶性疟原虫海南株(FCC1)翻译控制肿瘤蛋白(TCTP)基因的克隆及序列测定

为了获得翻译控制肿瘤蛋白 (TCTP)基因 ,提取恶性疟原虫海南株 (FCC1)总RNA ,直接用总RNA反转录成单链DNA ,再用长距PCR方法扩增出双链cDNA .根据小鼠约氏疟原虫TCTP基因序列设计引物 ,以cDNA为模板合成了恶性疟原虫海南株TCTP基因 .以pMD18 T为载体 ,用大肠杆菌XL1 blue对基因克隆 .测序结果表明 ,此基因序列与小鼠约氏疟原虫TCTP基因序列有 85 %同源性 .由此基因序列推导出的TCTP氨基酸序列 ,与小鼠约氏疟原虫TCTP氨基酸序列有 88%同源性 .进入GenBank国际基因库 (美国 )检索 ,所克隆的基因与基因库中恶性疟原虫基因同源性为 97% ;由所克隆的基因序列推导的TCTP氨基酸序列 ,与国际基因库恶性疟原虫TCTP基因推导的TCTP氨基酸序列仅有 1个氨基酸差异 .恶性疟原虫海南株TCTP基因克隆为进一步研究奠定了基础     

蛋白质相互作用实验技术的最新进展

蛋白质相互作用的研究, 是揭示生物体正常生长发育及其应对各种生物或(和)非生物胁迫的分子机制及其调控网络的重要途径。文章综述了近年来发展起来的研究蛋白质相互作用的常用实验性方法, 如酵母双杂交系统、串联亲和纯化、免疫共沉淀、GST Pull-down、双分子荧光互补、荧光共振能量转移、表面等离子共振分析, 介绍了其原理、发展进程, 并分析了其优缺点。     

内蒙古白绒山羊翻译控制肿瘤蛋白(TCTP)基因克隆及组织表达特性分析

旨在克隆内蒙古白绒山羊翻译控制肿瘤蛋白(Translationally controlled tumor protein,TCTP)基因并分析其表达模式。采用RT-PCR技术扩增TCTP基因编码区cDNA序列,将得到的基因cDNA序列及其编码的氨基酸序列进行生物信息学分析,利用定量RT-PCR方法检测TCTP基因在绒山羊不同组织中的表达特异性。获得的内蒙古白绒山羊TCTP基因编码区cDNA序列全长519 bp,包含了完整的ORF,编码172个氨基酸残基组成的蛋白质。核苷酸序列与绵羊、牛、猪、人、猴及大鼠的同源性在99%-95%之间。生物信息学分析表明,编码的蛋白质理论分子质量19.6 kD,等电点(pI)4.673,含有一个N端糖基化位点,一个蛋白激酶C磷酸化位点,3个酪蛋白激酶Ⅱ磷酸化位点,定位于细胞质中。定量RT-PCR方法检测表明,TCTP基因在绒山羊肾脏、肌肉、胰腺、肝脏、睾丸和脑组织中均有表达,其中在肝脏中的表达量较高,在脑中表达量较低。     

人脑中硒蛋白W与鞘脂激活蛋白原相互作用的筛选与验证

硒蛋白W(SelW)是人脑中一种重要的硒蛋白.在缺硒的条件下,SelW在脑中具有优先储备的特性,但其具体机制和在脑中的功能至今尚不清楚.本文以SelW突变体SelW′为"诱饵",采用酵母双杂交系统对人胎脑文库进行筛选,获得与SelW相互作用的蛋白,其中一种为鞘脂激活蛋白原(PSAP).采用荧光共振能量转移技术中的受体漂白和敏化发射两种方法,验证了SelW与PSAP的相互作用.构建表达载体在大肠杆菌中成功表达出SelW′,利用Pull-down技术验证了SelW′与PSAP在细胞外的直接相互作用.采用免疫共沉淀的方法验证了上述两种蛋白在昆明小鼠脑组织中的内源性相互作用.基于SelW和PSAP的已知生物功能,推测SelW可能在脑部发育和神经退行性疾病形成过程中发挥着重要作用.     

环指蛋白RING1与A型核纤层蛋白的细胞内相互作用

环指蛋白RING1能结合DNA并抑制基因的转录.采用酵母双杂交方法从人骨骼肌文库中筛选出了与A型核纤层蛋白(lamin A)结合的RING1蛋白,回复杂交酵母能在缺陷培养基上生长.RING1与绿色荧光蛋白融合载体转染HEK293细胞,激光共聚焦显微观察发现RING1能与带红色荧光蛋白的lamin A蛋白在细胞核周围共定位.免疫共沉淀结果证明RING1与lamin A能够相互作用.结果证明了一个新的lamin A结合蛋白,为揭示lamin A影响基因表达乃至细胞衰老提供了依据.     

酵母双杂交筛选与甲状旁腺素1型受体相互作用的蛋白

目的:采用Clontech公司第3套酵母双杂交系统,筛选与甲状旁腺素1型受体(PTH1R)相互作用的蛋白。方法:将全长PTH1R基因克隆到载体pGBKT7作为诱饵,用LiAc介导将诱饵蛋白质粒pGBKT7-PTH1R和人肾cDNA文库质粒转化到酵母菌AH109中,检测Mel1报告基因的表达,并进行相互作用的验证。结果:测序和相互作用验证结果表明SNAPIN在酵母系统中能特异地与PTH1R相互作用;根据对SNAPIN基因的功能分析,其可能与细胞内钙稳态的调控有关。结论:为进一步研究PTH1R促进骨肉瘤进展的机制提供了一定的线索。     

免疫共沉淀筛选细胞内与A型流感病毒M2蛋白相互作用的蛋白

摘要：【目的】筛选细胞内与A型流感病毒M2蛋白（A/M2）相互作用的蛋白质。【方法】将A/M2编码序列插入真核表达载体pCAGGS-CFlag,重组质粒pCAGGS-CFlag-A/M2转染HEK-293T细胞,裂解细胞,以Flag单抗偶联的琼脂糖球珠免疫沉淀A/M2-Flag蛋白,清洗去除非特异性结合的杂蛋白后,SDS-PAGE银染法显示与A/M2共沉淀的蛋白,从胶上切下此蛋白条带进行质谱分析。【结果】成功构建了A/M2的表达质粒,免疫印迹证实了A/M2蛋白在293T细胞中能够表达,免疫共沉淀筛选到与A/M2结合的多种蛋白,分析质谱结果,确定ataxin 10和3个真核翻译起始因子(eIF)为候选蛋白。【结论】ataxin 10与A/M2相互作用为流感病毒感染或接种流感疫苗引发小脑性共济失调提供了解释,eIF与A/M2相互作用表明A/M2可能在调控病毒蛋白合成方面起重要作用。     

脑红蛋白与Na^＋，K^＋-ATP酶β2亚基的相互作用及作用位点的鉴定

为研究神经系统特异性携氧蛋白———脑红蛋白 (NGB)保护神经元耐受缺氧损伤的分子机制 ,利用酵母双杂交系统从人胎脑cDNA文库中筛选与其有相互作用的蛋白质。序列分析表明 ,其中一个克隆的编码产物与Na ,K ATP酶 β2亚基 (NKA1b2 )序列一致。随后采用PCR方法从人胎脑cDNA文库中扩增获得NKA1b2全长cDNA。蛋白质结合实验表明 ,原核表达的NGB与体外转录翻译得到的NKA1b2在细胞外有结合作用。免疫共沉淀实验证明二者在生理条件下能够以复合物的形式存在。利用NGB系列短截体研究相互作用的位点发现 ,NGB蛋白N末端 1～ 75位氨基酸可与NKA1b2结合 ,但结合力很弱 ,而其C末端 75个氨基酸则与NKA1b2无结合作用 ,由此推测NGB蛋白整体的三维结构是结合所必需的。     

酵母双杂交筛选与蛋白激酶CK2α′相互作用蛋白——泛素-52氨基酸融合蛋白的鉴定

蛋白激酶CK2是一种真核细胞中普遍存在的信使非依赖性丝/苏氨酸蛋白激酶. 为研究CK2α′亚基在精子发生中的作用机制,将构建于pACT2质粒的人睾丸cDNA文库和人蛋白激酶CK2α′为诱饵蛋白进行酵母双杂交实验. 以初步筛选与人蛋白激酶CK2α′相互作用蛋白的阳性候选克隆,筛选获得8个阳性克隆,其中1个与人泛素-52氨基酸融合蛋白基因（UBA52）的cDNA序列有高度同源性（100％）. GST pull-down实验在细胞外进一步证实了CK2α′与UBA52之间存在相互作用. 本实验证明,人泛素-52氨基酸（UBA52）融合蛋白是人CK2α′亚基的相互作用蛋白, 它们之间的相互作用对精子发生机制的影响尚不清楚,进一步分子机制研究正在进行中.     

A型流感病毒非结构蛋白NS1与宿主相互作用的研究进展

作为A型流感病毒的非结构蛋白,NS1蛋白是流感病毒的一个重要的毒力因子,决定了病毒在宿主细胞内的破坏作用。概述了NS1蛋白对宿主细胞蛋白合成、宿主细胞凋亡的影响,及其拮抗干扰素的作用。     

Identification of a cofilin-like actin-binding site on translationally controlled tumor protein (TCTP)

Translationally controlled tumor protein (TCTP) expression is suppressed during cancer cell reversion to a non-malignant phenotype. We identified a primary sequence of TCTP with homology to ADF/cofilin. We confirm that a synthetic peptide corresponding to this sequence binds specifically to actin and is displaced from actin by cofilin. TCTP peptide has higher affinity for G-actin than F-actin and does not block actin-filament depolymerization by cofilin. These results suggest that TCTP may channel active cofilin to F-actin, enhancing the cofilin-activity cycle in invasive tumor cells. Loss of TCTP may result in sequestration of active cofilin by a monomeric pool of actin.     

Overexpression of Arabidopsis translationally controlled tumor protein gene AtTCTP enhances drought tolerance with rapid ABA-induced stomatal closure

Translationally controlled tumor protein (TCTP), also termed P23 in human, belongs to a family of calcium- and tubulin-binding proteins, and it is generally regarded as a growth-regulating protein. Recently, Arabidopsis TCTP (AtTCTP) has been reported to function as an important growth regulator in plants. On the other hand, plant TCTP has been suggested to be involved in abiotic stress signaling such as aluminum, salt, and water deficit by a number of microarray or proteomic analyses. In this study, the biological functions of AtTCTP were investigated by using transgenic Arabidopsis plants overexpressing AtTCTP. Interestingly, AtTCTP overexpression enhanced drought tolerance in plants. The expression analysis showed that AtTCTP was expressed in guard cells as well as in actively growing tissues. Physiological studies of the overexpression lines showed increased ABA- and calcium-induced stomatal closure ratios and faster stomatal closing responses to ABA. Furthermore, in vitro protein-protein interaction analysis confirmed the interaction between AtTCTP and microtubules, and microtubule cosedimentation assays revealed that the microtubule binding of AtTCTP increased after calcium treatment. These results demonstrate that the overexpression of AtTCTP confers drought tolerance to plants by rapid ABA-mediated stomatal closure via the interaction with microtubules in which calcium binding enhances the interaction. Collectively, the present results suggest that the plant TCTP has molecular properties similar to animal TCTPs, such as tubulin- and calcium-binding, and that it functions in ABA-mediated stomatal movement, in addition to regulating the growth of plants.     

The impact of Arabidopsis thaliana SNF1‐related‐kinase 1 (SnRK1)‐activating kinase 1 (SnAK1) and SnAK2 on SnRK1 phosphorylation status: characterization of a SnAK double mutant

Arabidopsis thaliana SNF1‐related‐kinase 1 (SnRK1)‐activating kinase 1 (AtSnAK1) and AtSnAK2 have been shown to phosphorylate in vitro and activate the energy signalling integrator, SnRK1. To clarify this signalling cascade in planta, a genetic‐ and molecular‐based approach was developed. Homozygous single AtSnAK1 and AtSnAK2 T‐DNA insertional mutants did not display an apparent phenotype. Crossing of the single mutants did not allow the isolation of double‐mutant plants, whereas self‐pollinating the S1?/? S2+/? sesquimutant specifically gave approximatively 22% individuals in their offspring that, when rescued on sugar‐supplemented media in vitro, were shown to be AtSnAK1 AtSnAK2 double mutants. Interestingly, this was not obtained in the case of the other sesquimutant, S1+/? S2?/?. Although reduced in size, the double mutant had the capacity to produce flowers, but not seeds. Immunological characterization established the T‐loop of the SnRK1 catalytic subunit to be non‐phosphorylated in the absence of both SnAKs. When the double mutant was complemented with a DNA construct containing an AtSnAK2 open reading frame driven by its own promoter, a normal phenotype was restored. Therefore, wild‐type plant growth and development is dependent on the presence of SnAK in vivo, and this is correlated with SnRK1 phosphorylation. These data show that both SnAKs are kinases phosphorylating SnRK1, and thereby they contribute to energy signalling in planta.     

Translationally controlled tumor protein is a novel heat shock protein with chaperone-like activity

Translationally controlled tumor protein (TCTP) is often designated as a stress-related protein because of its highly regulated expression in stress conditions. Following a thermal shock, TCTP expression is highly upregulated in a variety of cells. However, at present it is not known whether this upregulation has any cell protective function similar to other heat shock proteins. In this study human TCTP (HuTCTP) and a TCTP homolog (SmTCTP) from Schistosoma mansoni were evaluated for heat shock protein-like function and molecular chaperone activity. Our results show that similar to other molecular chaperones, both human and parasite TCTPs can bind to a variety of denatured proteins and protect them from the harmful effects of thermal shock. An important observation was the ability of both HuTCTP and SmTCTP to bind to native protein and protect them from thermal denaturation. Over expression of TCTP in bacterial cells protected them from heat shock-induced death. These findings suggest that TCTP may belong to a novel small molecular weight heat shock protein.     

Molecular cloning,expression analysis and chromosome localization of the <Emphasis Type="Italic">Tpt1</Emphasis> gene coding for the pig translationally controlled tumor protein (TCTP)

This work describes the cloning and structural analysis of a Tpt1 cDNA coding for the porcine translationally controlled tumor protein (TCTP) molecule and its expression in porcine cells and tissues. Pig Tpt1 cDNA is 842-pb long that displays typical features of translationally controlled mRNAs, including a 5′-UTR containing a 5′-terminal oligopyrimidine tract (5′-TOP), and a 3′-UTR with a high CG-content and one AU rich element (ARE). Both 5′-UTR and 3′-UTR are highly conserved when they are compared with those of other mammals. The pig Tpt1 cDNA contains a 516-b open reading frame that encodes a predicted TCTP protein composed of 172 amino acids that exhibits extensive conservation compared with TCTP sequences from other species and a common structural feature with all the other TCTP proteins analyzed in mammals. Expression analysis demonstrated that Tpt1 mRNA is ubiquitously expressed in normal porcine tissues and cells, showing a higher expression in spleen, lymph nodes and lung, and a lower one in skin and heart. The pig Tpt1 gene localizes on the porcine chromosome 11, region p11.     

HTLV—1转录激活因子Tax和Taxreb107的相互作用

Tax是人类T淋巴细胞白血病病毒编码的转录因子。核糖体蛋白RpL6又称Taxreb10 7,是Tax应答序列结合蛋白 ,二者均作用于HTLV 1的启动子LTR。用酵母双杂交法和GST下拉检测 (pull down)法研究了Tax和Taxreb10 7/RpL6之间的相互关系。结果显示 ,二者在酵母细胞内和体外均具有直接相互作用。这些结果提示Taxreb10 7/RpL6可能通过与Tax的相互作用而调节Tax在病毒感染中的作用     

Inhibition of Na,K-ATPase-suppressive activity of translationally controlled tumor protein by sorting nexin 6

Translationally controlled tumor protein (TCTP) has both extra- and intracellular functions. Our group recently reported that TCTP interacts with Na,K-ATPase and suppresses its activity. Our studies led to the identification of sorting nexin 6 (SNX6) which binds with TCTP as a potential negative regulator of TCTP. SNX6 does not interact directly with any cytoplasmic domains of Na,K-ATPase. However, when overexpressed, it restores the Na,K-ATPase activity suppressed by TCTP. This was confirmed by measurements of purified plasma membrane Na,K-ATPase activity after incubation with recombinant TCTP and SNX6. SNX6 alone has no effect on Na,K-ATPase activity, but activates Na,K-ATPase via inhibition of TCTP. Inhibition of endogenous TCTP by the overexpression of SNX6 or knockdown of TCTP expression by siTCTP increased Na,K-ATPase activity above the basal level. The interaction between SNX6 and TCTP thus appears to regulate Na,K-ATPase activity.