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1.
哺乳动物骨形态发生蛋白(BMPs)具有促进动物软骨形成,调节细胞增殖、分化及迁移的多种功能。此外,该蛋白在动物个体发育及人(Homo sapiens)肿瘤的发生、发展过程中也扮演着重要角色。本文以人源骨形态发生蛋白4(BMP4)为种子序列,利用多种生物信息学工具进行哺乳动物BMP4蛋白的序列查找及其同源蛋白的搜索,共得到具有完整结构域的同源蛋白序列72条,并以此为基础对哺乳动物BMP4的进化踪迹位点及相关的功能位点进行比较研究。结果表明,BMP4蛋白家族的TGFβ-propeptide结构域具22个全家族保守残基,而TGF-β结构域仅具84个亚家族特异性残基。人BMP4蛋白TGF-β结构域的配基结合位点主要分布于结合口袋的边缘区域。本研究可为BMP4蛋白重要功能区残基的确定及未知功能位点的预测提供信息。  相似文献   

2.
胶质细胞源神经营养因子 (glialcellline derivedneurotrophicfactor,GDNF)对神经退行性疾病具有潜在的治疗作用 ,因此解析GDNF及其糖基磷脂酰肌醇锚联受体GFRα的相互作用机制具有重要意义。根据蛋白质残基的功能重要性与自然选择压力相互关联的分子进化原理 ,对GDNF家族及其受体GFRα家族进行了进化踪迹分析 ,搜索到相互作用的功能决定位点。其中一些位点已被突变实验所证实 ,尤其大鼠GFRα1的功能位点N152 N153 ,R2 59、S3 16N3 17S3 18和Q2 47D2 48S2 49经丙氨酸替换突变实验确认是GFRα1同GDNF或跨膜受体酪氨酸蛋白激酶Ret相结合的关键位点 ,在GDNF GFRα1 Ret复合体的形成中起到重要作用。  相似文献   

3.
eEF1A1基因克隆、原核分泌表达及融合蛋白纯化   总被引:1,自引:0,他引:1  
eEF1A1作为蛋白合成中的重要翻译延伸因子,可与多种功能性蛋白如F-actin、BPOZ-2结合,并在细胞凋亡、蛋白降解方面起重要作用.以往原核基因工程蛋白表达系统大多为包涵体表达的变性分子,需要复性.为了获得eEF1A1原核分泌性可溶性蛋白分子,克隆了人eEF1A1蛋白编码序列(约1 300 bp),并成功构建pET22b-A原核分泌表达重组质粒,转化到大肠杆菌BL21(DE3)菌株,0.4 mmol/L终浓度IPTG诱导,经不同温度下包涵体与胞浆蛋白组分分析,快速明确蛋白表达情况,即诱导4 h后,37℃表达于包涵体组分,在30℃分泌表达至胞浆组分.通过His-Trap亲和层析纯化柱进行线性洗脱,Bradford法测定蛋白浓度高达620 mg/mL,SDS-PAGE分析纯度约为95%,蛋白大小符合50 kD,Western blotting显示目的蛋白能被eEF1A1抗体识别;质谱分析证实重组蛋白为人eEF1A1蛋白分子.为进一步研究其与重要功能性蛋白的相互作用及在细胞凋亡和蛋白降解中的作用奠定基础.  相似文献   

4.
在蛋白质合成过程中,除核糖体、氨酰 tRNA和mRNA外,还有多种翻译因子参与其中。真核翻译起始因子5A(eukaryotic translation initiation factor 5A, eIF5A)是维持细胞活性必不可少的翻译因子,在进化上高度保守。eIF5A是真核细胞中唯一含有羟腐胺赖氨酸(hypusine)的蛋白质,该翻译后修饰对eIF5A的活性至关重要。1978年,人们首次鉴定出eIF5A,认为它在翻译起始阶段促进第1个肽键的形成。直到2013年才证实它主要在翻译延伸阶段调控含多聚脯氨酸基序蛋白质的翻译。在经过四十多年研究后,人们对eIF5A的功能有了新的认识。近期基于核糖体图谱数据的分析表明,eIF5A能够缓解翻译延伸过程中核糖体在多种基序处的停滞,并不局限于多聚脯氨酸基序,并且它还能够通过促进肽链的释放增强翻译终止。此外,eIF5A还可以通过调控某些蛋白质的翻译,间接影响细胞内的各种生命活动。本文综述了eIF5A的多种翻译后修饰、在蛋白质合成和细胞自噬过程中的调控作用以及与人类疾病的关系,并与细菌及古细菌中的同源蛋白质进行了比较,探讨了该因子在进化中的保守性,以期为相关领域的研究提供一定的理论基础。  相似文献   

5.
判定直系同源关系的进化分析方法   总被引:1,自引:0,他引:1  
如何正确判定基因之间的直系同源 (ortholog)和旁系同源 (paralog)关系 ,仍是基因组功能诠释和比较基因组学中有待更好解决的关键问题。在以前的工作中 ,曾用进化分析方法解决多基因家族的直系 /旁系同源关系的判定问题 ,现进而完整地展开判定直系同源关系的进化分析方法。从 44个同源蛋白质家族的案例观察表明 ,与流行的COG方法 (直系同源蛋白质的聚类 )比较 ,本方法能一般的判定直系同源关系以及能准确的诠释基因组的分子功能  相似文献   

6.
植物蛋白质合成延伸因子   总被引:1,自引:0,他引:1  
蛋白质的生物合成是一个需要许多大分子如起动因子、延伸因子、终止因子、核糖体、信使RNA、氨酰合成酶和tR NA协同作用的复杂的生理生化过程。植物蛋白质合成延伸因子eEF1和eEF2通过在核糖体上催化氨基酸链的延伸而推动、控制蛋白质的合成。文章介绍植物蛋白质生物合成延伸因子的研究进展  相似文献   

7.
目的 探讨真核翻译延长因子1A1(eukaryotic translation elongation factor 1 α 1,eEF1A1)对肝癌细胞的侵袭、迁移和HGF/c-MET通路的影响及作用机制。方法 采用qRT-PCR和Western bolt检测肝癌细胞和组织中eEF1A1表达。构建eEF1A1敲除载体转染HLF和Alex肝癌细胞,CCK-8和Transwell实验检测细胞的增殖、侵袭和迁移能力。KM plotter分析患者的总体预后。通过eEF1A1基因敲除的转录组测序,Western bolt检测HGF、c-MET和p-c-MET蛋白的表达。裸鼠皮下成瘤实验检测eEF1A1对肝癌肿瘤的影响。结果 eEF1A1在肝癌细胞和组织中显著升高,敲低eEF1A1能抑制HCC细胞的增殖、迁移和侵袭。eEF1A1高表达与肝癌的不良预后相关。此外,敲除eEF1A1显著降低HGF和p-c-MET蛋白水平,抑制肝癌肿瘤的生长,但c-MET蛋白水平无显著差异。结论 eEF1A1通过抑制HGF/c-MET信号通路抑制肝癌细胞迁移和侵袭。  相似文献   

8.
翻译延伸因子1A的研究进展   总被引:2,自引:0,他引:2  
翻译延伸因子1A(EF1α)是一个主要的翻译因子,EF1α.GTP催化氨酰tRNA结合到核糖体的A位点。EF1α不仅仅是翻译必须的蛋白,而且是一个重要的多功能蛋白。EF1α参与许多重要的细胞过程和疾病,包括信号传导、翻译控制、凋亡、细胞骨架组成、病毒复制及癌基因转化等。  相似文献   

9.
目的:研究百脉根(Lotus japonicus)NIN转录因子和它的旁系同源蛋白的结构歧异和功能分化。方法:从百脉根基因组中获取完全的NIN旁系同源蛋白质序列,通过生物信息学手段进行系统发育、理化性质、功能位点和蛋白质三级结构同源建模分析。结果:总共获得5个NIN旁系同源蛋白序列,其中2个属于新鉴别的成员,它们分属于两个不同的进化分支;脯氨酸含量在LjNLP3中比次高的LjNLP1增加33%,提示其具有耐旱的功能特征;功能位点分析显示NIN旁系同源蛋白之间存在差异,提示它们可能通过翻译后修饰发生了功能分化;LjNIN蛋白在进化过程中用一段α螺旋替代了LjNLP1的一段β折叠,这一差异可能导致百脉根Nin招募为根瘤感受基因。结论:初步揭示了百脉根NIN旁系同源蛋白的结构歧异与功能分化的关系,为进一步的实验研究奠定了基础。  相似文献   

10.
蛋白质O-GlcNAc糖基化修饰对tau蛋白磷酸化修饰的影响   总被引:6,自引:1,他引:5  
蛋白质的O位N-乙酰葡萄糖胺(O-GlcNAc)糖基化修饰是一种新近发现的广泛存在于细胞核蛋白与细胞浆蛋白的蛋白质翻译后修饰.其性质与经典的膜蛋白和分泌蛋白的糖基化修饰不同,而与蛋白质磷酸化修饰更相似.O-GlcNAc糖基化和磷酸化均修饰tau蛋白的丝氨酸和苏氨酸残基,通过改变O-GlcNAc糖基化供体底物浓度以及其关键酶活性等方法,改变分化后成神经细胞样的PC12细胞中的蛋白质O-GlcNAc糖基化修饰水平,然后用特异性识别不同位点磷酸化的tau蛋白抗体,进行蛋白质印迹分析来检测tau蛋白磷酸化水平的变化.结果发现细胞内蛋白质O-GlcNAc糖基化对tau蛋白磷酸化的影响,在不同的磷酸化位点其影响不同.增加蛋白质O-GlcNAc糖基化修饰导致tau蛋白大多数磷酸位点的磷酸化水平降低,反之亦然.这些结果说明,tau磷酸化在大多数位点受到O-GlcNAc糖基化修饰的负性调节.这一研究为阐明调节tau蛋白磷酸化水平的机理和阿尔茨海默病脑中tau异常过度磷酸化的分子机制提供了新的线索.  相似文献   

11.

Background

Despite sharing 92% sequence identity, paralogous human translation elongation factor 1 alpha-1 (eEF1A1) and elongation factor 1 alpha-2 (eEF1A2) have different but overlapping functional profiles. This may reflect the differential requirements of the cell-types in which they are expressed and is consistent with complex roles for these proteins that extend beyond delivery of tRNA to the ribosome.

Methodology/Principal Findings

To investigate the structural basis of these functional differences, we created and validated comparative three-dimensional (3-D) models of eEF1A1 and eEF1A2 on the basis of the crystal structure of homologous eEF1A from yeast. The spatial location of amino acid residues that vary between the two proteins was thereby pinpointed, and their surface electrostatic and lipophilic properties were compared. None of the variations amongst buried amino acid residues are judged likely to have a major structural effect on the protein fold, or to affect domain-domain interactions. Nearly all the variant surface-exposed amino acid residues lie on one face of the protein, in two proximal but distinct sub-clusters. The result of previously performed mutagenesis in yeast may be interpreted as confirming the importance of one of these clusters in actin-bundling and filament disorganization. Interestingly, some variant residues lie in close proximity to, and in a few cases show differences in interactions with, residues previously inferred to be directly involved in binding GTP/GDP, eEF1Bα and aminoacyl-tRNA. Additional sequence-based predictions, in conjunction with the 3-D models, reveal likely differences in phosphorylation sites that could reconcile some of the functional differences between the two proteins.

Conclusions

The revelation and putative functional assignment of two distinct sub-clusters on the surface of the protein models should enable rational site-directed mutagenesis, including homologous reverse-substitution experiments, to map surface binding patches onto these proteins. The predicted variant-specific phosphorylation sites also provide a basis for experimental verification by mutagenesis. The models provide a structural framework for interpretation of the resulting functional analysis.  相似文献   

12.
13.
Numerous models of molecular evolution have been formulated to describe the forces that shape sequence divergence among homologous proteins. These models have greatly enhanced our understanding of evolutionary processes. Rarely are such models empirically tested in the laboratory, and even more rare, are such models exploited to generate novel molecules useful for synthetic biology. Here, we experimentally demonstrate that the heterotachy model of evolution captures signatures of functional divergence among homologous elongation factors (EFs) between bacterial EF-Tu and eukaryotic eEF1A. These EFs are GTPases that participate in protein translation by presenting aminoacylated-tRNAs to the ribosome. Upon release from the ribosome, the EFs are recharged by nucleotide exchange factors EF-Ts in bacteria or eEF1B in eukaryotes. The two nucleotide exchange factors perform analogous functions despite not being homologous proteins. The heterotachy model was used to identify a set of sites in eEF1A/EF-Tu associated with eEF1B binding in eukaryotes and another reciprocal set associated with EF-Ts binding in bacteria. Introduction of bacterial EF-Tu residues at these sites into eEF1A protein efficiently disrupted binding of cognate eEF1B as well as endowed eEF1A with the novel ability to bind bacterial EF-Ts. We further demonstrate that eEF1A variants, unlike yeast wild-type, can function in a reconstituted in vitro bacterial translation system.  相似文献   

14.
We identified eukaryotic translation elongation factor 1A (eEF1A) Raf-mediated phosphorylation sites and defined their role in the regulation of eEF1A half-life and of apoptosis of human cancer cells. Mass spectrometry identified in vitro S21 and T88 as phosphorylation sites mediated by B-Raf but not C-Raf on eEF1A1 whereas S21 was phosphorylated on eEF1A2 by both B- and C-Raf. Interestingly, S21 belongs to the first eEF1A GTP/GDP-binding consensus sequence. Phosphorylation of S21 was strongly enhanced when both eEF1A isoforms were preincubated prior the assay with C-Raf, suggesting that the eEF1A isoforms can heterodimerize thus increasing the accessibility of S21 to the phosphate. Overexpression of eEF1A1 in COS 7 cells confirmed the phosphorylation of T88 also in vivo. Compared with wt, in COS 7 cells overexpressed phosphodeficient (A) and phospho-mimicking (D) mutants of eEF1A1 (S21A/D and T88A/D) and of eEF1A2 (S21A/D), resulted less stable and more rapidly proteasome degraded. Transfection of S21 A/D eEF1A mutants in H1355 cells increased apoptosis in comparison with the wt isoforms. It indicates that the blockage of S21 interferes with or even supports C-Raf induced apoptosis rather than cell survival. Raf-mediated regulation of this site could be a crucial mechanism involved in the functional switching of eEF1A between its role in protein biosynthesis and its participation in other cellular processes.  相似文献   

15.
In addition to the conserved translation elongation factors eEF1A and eEF2, fungi require a third essential elongation factor, eEF3. While eEF3 has been implicated in tRNA binding and release at the ribosomal A and E sites, its exact mechanism of action is unclear. Here, we show that eEF3 acts at the mRNA–tRNA translocation step by promoting the dissociation of the tRNA from the E site, but independent of aminoacyl‐tRNA recruitment to the A site. Depletion of eEF3 in vivo leads to a general slowdown in translation elongation due to accumulation of ribosomes with an occupied A site. Cryo‐EM analysis of native eEF3‐ribosome complexes shows that eEF3 facilitates late steps of translocation by favoring non‐rotated ribosomal states, as well as by opening the L1 stalk to release the E‐site tRNA. Additionally, our analysis provides structural insights into novel translation elongation states, enabling presentation of a revised yeast translation elongation cycle.  相似文献   

16.
We characterized four eEF1A genes in the alternative rhabditid nematode model organism Oscheius tipulae. This is twice the copy number of eEF1A genes in C. elegans, C. briggsae, and, probably, many other free-living and parasitic nematodes. The introns show features remarkably different from those of other metazoan eEF1A genes. Most of the introns in the eEF1A genes are specific to O. tipulae and are not shared with any of the other genes described in metazoans. Most of the introns are phase 0 (inserted between two codons), and few are inserted in protosplice sites (introns inserted between the nucleotide sequence A/CAG and G/A). Two of these phase 0 introns are conserved in sequence in two or more of the four eEF1A gene copies, and are inserted in the same position in the genes. Neither of these characteristics has been detected in any of the nematode eEF1A genes characterized to date. The coding sequences were also compared with other eEF1A cDNAs from 11 different nematodes to determine the variability of these genes within the phylum Nematoda. Parsimony and distance trees yielded similar topologies, which were similar to those created using other molecular markers. The presence of more than one copy of the eEF1A gene with nearly identical coding regions makes it difficult to define the orthologous cDNAs. As shown by our data on O. tipulae, careful and extensive examination of intron positions in the eEF1A gene across the phylum is necessary to define their potential for use as valid phylogenetic markers.  相似文献   

17.
Eukaryotic elongation factor 2 kinase (eEF2K) is the best-characterized member of the α-kinase family. Within this group, only eEF2K and myosin heavy chain kinases (MHCKs) have known substrates. Here we have studied the roles of specific residues, selected on the basis of structural data for MHCK A and TRPM7, in the function of eEF2K. Our data provide the first information regarding the basis of the substrate specificity of α-kinases, in particular the roles of residues in the so-called N/D loop, which appears to occupy a position in the structure of α-kinases similar to that of the activation loop in other kinases. Several mutations in the EEF2K gene occur in tumors, one of which (Arg303Cys) is at a highly conserved residue in the N/D loop. This mutation greatly enhances eEF2K activity and may be cytoprotective. Our data support the concept that the major autophosphorylation site (Thr348 in eEF2K) docks into a binding pocket to help create the kinase-competent conformation. This is similar to the situation for MHCK A and is consistent with this being a common feature of α-kinases.  相似文献   

18.
The three-dimensional structures of globins are known, from crystallographic analyses, to be very similar. Their amino acid sequences, however, differ greatly. Only two residues are absolutely conserved in all sequences, and the residue identities of some pairs of sequences are only 16%. We have determined the nature and exact extent of the sequence variations and the extent to which the conserved features of the globin sequences are unique to this family. The 226 globin sequences now known were aligned and analysed. Because distantly related protein sequences cannot be aligned correctly without the use of structural data, we developed a method that incorporated structural information into the alignment procedure. Analysis of the aligned sequences show that: (1) Although individual chains vary in size between 132 and 157 residues, deletions and insertions result in there being only 102 residue sites common to all globins. These sites form six separate regions. Insertions and deletions between these regions means that their separations can vary in different sequences. (2) Within the conserved regions there are 32 sites that almost always contain hydrophobic residues. In the known structures, these sites are in the protein interior. We measured the variations in the size of the residues that occur in the 226 sequences at these sites. At six sites the residues differ in size by less than 40 A3, at 11 sites they differ by 40 to 100 A3, and at 15 sites they differ by more than 100 A3. There are two other conserved buried sites: one contains the His linked to the haem iron and the other usually contains a His involved with the haem ligand. (3) Within the conserved regions there are another 32 sites that are almost always occupied by charged, polar or small non-polar (Gly or Ala) residues. In the known structures, these sites are on the protein surface. To determine the extent to which the conserved features found for the globin sequences are unique to that protein family, the following procedure was used. The six conserved regions, and the residue restrictions that occur at the 66 sites within these regions, were encoded into two "templates". One was based only on the sequences so far determined; the other was extended to include as yet unobserved substitutions that seemed plausible on the basis of size, hydrophobicity and polarity. Each of the 3286 non-globin sequences in the data bank was then examined by a computer program to see how closely it could be matched to these templates.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

19.
The analysis of sequence conservation is commonly used to predict functionally important sites in proteins. We have developed an approach that first identifies highly conserved sites in a set of orthologous sequences using a weighted substitution‐matrix‐based conservation score and then filters these conserved sites based on the pattern of conservation present in a wider alignment of sequences from the same family and structural information to identify surface‐exposed sites. This allows us to detect specific functional sites in the target protein and exclude regions that are likely to be generally important for the structure or function of the wider protein family. We applied our method to two members of the serpin family of serine protease inhibitors. We first confirmed that our method successfully detected the known heparin binding site in antithrombin while excluding residues known to be generally important in the serpin family. We next applied our sequence analysis approach to neuroserpin and used our results to guide site‐directed polyalanine mutagenesis experiments. The majority of the mutant neuroserpin proteins were found to fold correctly and could still form inhibitory complexes with tissue plasminogen activator (tPA). Kinetic analysis of tPA inhibition, however, revealed altered inhibitory kinetics in several of the mutant proteins, with some mutants showing decreased association with tPA and others showing more rapid dissociation of the covalent complex. Altogether, these results confirm that our sequence analysis approach is a useful tool that can be used to guide mutagenesis experiments for the detection of specific functional sites in proteins. Proteins 2015; 83:135–152. © 2014 Wiley Periodicals, Inc.  相似文献   

20.
Protein methylation reactions can play important roles in cell physiology. After labeling intact Saccharomyces cerevisiae cells with S-adenosyl-l-[methyl-(3)H]methionine, we identified a major methylated 49-kDa polypeptide containing [(3)H]methyl groups in two distinct types of linkages. Peptide sequence analysis of the purified methylated protein revealed that it is eukaryotic elongation factor 1A (eEF1A, formerly EF-1alpha), the protein that forms a complex with GTP and aminoacyl-tRNAs for binding to the ribosomal A site during protein translation. Previous studies have shown that eEF1A is methylated on several internal lysine residues to give mono-, di-, and tri-N-epsilon-methyl-lysine derivatives. We confirm this finding but also detect methylation that is released as volatile methyl groups after base hydrolysis, characteristic of ester linkages. In cycloheximide-treated cells, methyl esterified eEF1A was detected largely in the ribosome and polysome fractions; little or no methylated protein was found in the soluble fraction. Because the base-labile, volatile [methyl-(3)H]radioactivity of eEF1A could be released by trypsin treatment but not by carboxypeptidase Y or chymotrypsin treatment, we suggest that the methyl ester is present on the alpha-carboxyl group of its C-terminal lysine residue. From the results of pulse-chase experiments using radiolabeled intact yeast cells, we find that the N-methylated lysine residues of eEF1A are stable over 4 h, whereas the eEF1A carboxyl methyl ester has a half-life of less than 10 min. The rapid turnover of the methyl ester suggests that the methylation/demethylation of eEF1A at the C-terminal carboxyl group may represent a novel mode of regulation of the activity of this protein in yeast.  相似文献   

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