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1.
The cold shock proteins are evolutionarily conserved nucleic acid-binding proteins. Their eukaryotic homologs are present as cold shock domain (CSD) in Y-box proteins. CSDs too share striking similarity among different organisms and show nucleic acid binding properties. The purpose of the study was to investigate the preferential binding affinity of CSD protein for nucleic acids in Philosamia ricini. We have cloned and sequenced the first cDNA coding for Y-box protein in P. ricini; the sequence has been deposited in GenBank. Comparative genomics and phylogenetic analytics further confirmed that the deduced amino acid sequence belongs to the CSD protein family. A comparative study employing molecular docking was performed with P. ricini CSD, human CSD, and bacterial cold shock protein with a range of nucleic acid entities. The results indicate that CSD per se exhibits preferential binding affinity for single-stranded RNA and DNA. Possibly, the flanking N- and C-terminal domains are additionally involved in interactions with dsDNA or in conferring extra stability to CSD for improved binding.  相似文献   

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Proteome analysis of Enterobacter ludwigii PAS1 provide a powerful set of tool to study the cold shock proteins along with that combination of bioinformatics is useful for interpretation of comparative results from many species. There is a considerable interest in the use of psychrotrophic bacteria for nitrogen fixation, especially at hilly regions, thus better understanding of cold adaptation mechanisms too. The psychrotrophic E. ludwigii PAS1 grown at 30 and 4 °C, isolated from Himalaya soil was undertaken for proteomic responses during optimal and cold shock conditions. Comparative proteomic analyses using two-dimensional gel electrophoresis (2-DE) and MALDI-TOF/TOF MS revealed the presence of Cold shock protein E (CspE). Three-dimensional structure of CspE of E. ludwigii PAS1 divulge the presence of five antiparallel β-sheets forming a β-barrel structure with surface exposed aromatic and basic residues that were responsible for nucleic acid binding and also reveals the presence of highly conserved nucleic acid-binding motifs RNP1 and RNP2 in Csp family.  相似文献   

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The cold shock proteins are evolutionarily conserved nucleic acid-binding proteins. Their eukaryotic homologs are present as cold shock domain (CSD) in Y-box proteins. CSDs too share striking similarity among different organisms and show nucleic acid binding properties. The purpose of the study was to investigate the preferential binding affinity of CSD protein for nucleic acids in Philosamia ricini. We have cloned and sequenced the first cDNA coding for Y-box protein in P. ricini; the sequence has been deposited in GenBank. Comparative genomics and phylogenetic analytics further confirmed that the deduced amino acid sequence belongs to the CSD protein family. A comparative study employing molecular docking was performed with P. ricini CSD, human CSD, and bacterial cold shock protein with a range of nucleic acid entities. The results indicate that CSD per se exhibits preferential binding affinity for single-stranded RNA and DNA. Possibly, the flanking N- and C-terminal domains are additionally involved in interactions with dsDNA or in conferring extra stability to CSD for improved binding.  相似文献   

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Cold shock proteins (CSPs) are ancient nucleic acid-binding proteins and well conserved from bacteria to animals as well as plants. In prokaryotes, CSPs possess a single cold shock domain (CSD) while animal CSPs, flanked by N- and C-terminal domains, are commonly named Y-box proteins. Interestingly, the plants CSPs contain auxiliary C-terminal domains in addition to their N-terminal CSD. The CSPs have been shown to play important role in development and stress adaptation in various plant species. The objective of this study was to find out the possible nucleic acid-binding affinities of whole CSP as well as independent domains, so that role of each individual domain may be revealed in Arabidopsis thaliana, the model plant species. The structure of CSP 3 protein from A. thaliana was modeled by homology-based approach and docking was done with different nucleic acid types.  相似文献   

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冷激蛋白是存在于细菌、植物与动物中的一类高度保守的核酸结合蛋白,其通过RNA分子伴侣活性参与转录、翻译及生长发育和逆境胁迫应答等细胞生理活动。本文主要从植物冷激蛋白的结构、表达模式、生物学功能以及应用前景等几个方面介绍了植物冷激蛋白的研究进展。  相似文献   

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干旱和低温是影响农作物生长发育的重要因素,培育转基因作物是解决此问题的有效途径。冷激蛋白(Cold Shock Proteins,CSPs)是一类高度保守的核酸结合蛋白,参与非生物胁迫应答等细胞生理活动,转CSP基因可增强作物抗逆能力。以海洋微生物宏基因组DNA为模板,采用锚定PCR的方法克隆得到了MbCSP基因,其ORF为216 bp,编码一个由71个氨基酸构成的蛋白;对其进行同源性分析,显示该氨基酸序列与EcCSPG、EcCSPA(大肠杆菌 Escherichia coli),BsCspB(枯草芽孢杆菌Bacillus subtilis)和BcCspA(蜡样芽孢杆菌 Bacillus cereus)等冷休克蛋白氨基酸序列同源性在60%~90%;对该氨基酸序列进行多重序列比对和系统发育树分析,结果发现MbCSP蛋白包含RNP1(KGFGFI)和RNP2(VFVHF)等CSP蛋白经典的保守结构域,其与EcCspG(大肠杆菌)和CmCspG、CmCspB(堆肥宏基因组)等生物的冷休克蛋白亲缘关系较近。为进一步探讨冷休克蛋白MbCSP的功能,构建了植物表达载体pTF101-MbCSP,采用花序浸染法转化拟南芥,经过除草剂筛选和PCR检测,获得转基因植株。进行半定量RT-PCR分析,选择表达量最高的阳性株系进行后续的生理检测。结果表明:在干旱胁迫及低温胁迫下,转基因拟南芥的生长状况明显优于野生型,其生物量显著高于野生型植株;转基因拟南芥的叶片相对含水量、叶绿素含量和超氧化物歧化酶活性均高于野生型拟南芥,而丙二醛含量则低于野生型拟南芥。上述结果表明,过表达海洋微生物宏基因组MbCSP能够提高转基因拟南芥的抗旱和耐寒能力,为培育转基因作物新品种奠定了基础。  相似文献   

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Upon cold shock, the amounts of most proteins dramatically decrease from normal levels, but those of cold shock proteins (CSPs) and proteins containing cold-shock domains (CSDs) greatly increase. Although their biological function is still not completely clear, cold-shock proteins might control translation via RNA chaperoning. Many cold-shock proteins contain the motifs (Y/F)GFI and (V/F)(V/F)H, which are known as ribonucleoprotein (RNP)-1 and RNP-2 motifs implicated in RNA/DNA binding. We determined the solution NMR structures of all five constituent CSDs of the human UNR (upstream of N-ras) protein. The spatial arrangements of the sidechains in the RNP-1 and RNP-2 motifs are mostly conserved; however, the conformations of the following residues in the first CSD are different: F43 and H45 (the first phenylalanine residue and the histidine residue in the putative binding site RNP-2) and Y30 (the first residue in the putative binding site RNP-1). F43 and H45 affect each other, and H45 is further influenced by C46. The altered binding site of the first CSD, and its putatively enhanced intrinsic stability, may provide an explanation for the observation that the first CSD has 20-fold higher RNA-binding activity than the fifth CSD. It also lends support to the hypothesis that the UNR protein arose by repeated duplication of a protein that originally contained just one CSD, and that the proto-UNR protein acquired cysteine C46 by mutation during evolution.  相似文献   

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The cold-induced wheat WCSP1 protein belongs to the cold shock domain (CSD) protein family. In prokaryotes and eukaryotes, the CSD functions as a nucleic acid-binding domain. Here, we demonstrated that purified recombinant WCSP1 is boiling soluble and binds ss/dsDNA and mRNA. Furthermore, boiled-WCSP1 retained its characteristic nucleic acid-binding activity. A WCSP1 deletion mutant, containing only a CSD, lost ssDNA/RNA-binding activity; while a mutant containing the CSD and the first glycine-rich region (GR) displayed the activity. These data indicated that the first GR of WCSP1 is necessary for the binding activity but is not for the heat stability of the protein.  相似文献   

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The cold shock domain (CSD) is an evolutionarily conserved nucleic acid binding domain that exhibits binding activity to RNA, ssDNA, and dsDNA. Mammalian CRHSP-24 contains CSD, but its structure-functional relationship has remained elusive. Here we report the crystal structure of human CRHSP-24 and characterization of the molecular trafficking of CRHSP-24 between stress granules and processing bodies in response to oxidative stress. The structure of CRHSP-24 determined by single-wavelength anomalous dispersion exhibits an α-helix and a compact β-barrel formed by five curved anti-parallel β strands. Ligand binding activity of the CSD is orchestrated by residues Ser(41) to Leu(43). Interestingly, a phosphomimetic S41D mutant abolishes the ssDNA binding in vitro and causes CRHSP-24 liberated from stress granules in vivo without apparent alternation of its localization to the processing bodies. This new class of phosphorylation-regulated interaction between the CSD and nucleic acids is unique in stress granule plasticity. Importantly, the association of CRHSP-24 with stress granules is blocked by PP4/PP2A inhibitor calyculin A as PP2A catalyzes the dephosphorylation of Ser(41) of CRHSP-24. Therefore, we speculate that CRHSP-24 participates in oxidative stress response via a dynamic and temporal association between stress granules and processing bodies.  相似文献   

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Biochemistry (Moscow) - Y-box binding protein 1 is a member of the cold shock domain (CSD) protein family and one of the most studied proteins associated with a large number of human diseases. This...  相似文献   

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Cold shock proteins (CSPs) have a widespread occurrence from prokaryotes to eukaryotes including plants. These proteins are known to possess nucleic acid binding properties. CSPs have a single cold shock domain in prokaryotes while N-terminal and C-terminal flanking regions are present in eukaryotic CSPs. The objective of this study was to investigate nucleic acid binding preferential for the chickpea CSP. Full cDNA of chickpea CSP was cloned and sequenced. The sequence was submitted to GenBank (accession no. KM036036) at NCBI. Multiple sequence alignment and phylogenetic analysis further revealed that the inferred amino acid sequence belongs to CSP family. Molecular docking was performed between the CSP and variety of nucleic acids entities. These results suggest that CSPs of chickpea possess preferential binding affinity for single stranded nucleic acids. Docking results suggest that homo-polymer entities of RNA polyU RNA (20mer) form most stable complex.  相似文献   

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