白桦叶绿体RNA结合蛋白的蛋白质组学分析

在高等植物叶绿体中,RNA结合蛋白在转录后RNA处理、运输以及mRNA的稳定等方面发挥重要作用.本项研究使用多聚腺苷酸(polyA）吸附柱或单链DNA(ssDNA)吸附柱富集白桦叶绿体的polyA结合蛋白或RNA结合蛋白,并通过MALDI-TOF-MS以及ESI MS/MS进行鉴定,13个叶绿体蛋白质得到了鉴定.按照Swiss Prot数据库的注释,这些蛋白质的功能主要包括4个相关种类,分别为NAD结合蛋白、RNA结合蛋白、DNA结合蛋白和ATP结合蛋白.使用这些方法还鉴定出包括转录因子的4个高丰度蛋白.这些结果加深了对树木中叶绿体RNA结合蛋白的全面了解,可以将其应用于其他树木叶绿体中RNA 蛋白质的相互作用的研究.     

The role of disorder in RNA binding affinity and specificity

Most RNA-binding modules are small and bind few nucleotides. RNA-binding proteins typically attain the physiological specificity and affinity for their RNA targets by combining several RNA-binding modules. Here, we review how disordered linkers connecting RNA-binding modules govern the specificity and affinity of RNA–protein interactions by regulating the effective concentration of these modules and their relative orientation. RNA-binding proteins also often contain extended intrinsically disordered regions that mediate protein–protein and RNA–protein interactions with multiple partners. We discuss how these regions can connect proteins and RNA resulting in heterogeneous higher-order assemblies such as membrane-less compartments and amyloid-like structures that have the characteristics of multi-modular entities. The assembled state generates additional RNA-binding specificity and affinity properties that contribute to further the function of RNA-binding proteins within the cellular environment.     

Prevalent RNA recognition motif duplication in the human genome

The sequence-specific recognition of RNA by proteins is mediated through various RNA binding domains, with the RNA recognition motif (RRM) being the most frequent and present in >50% of RNA-binding proteins (RBPs). Many RBPs contain multiple RRMs, and it is unclear how each RRM contributes to the binding specificity of the entire protein. We found that RRMs within the same RBP (i.e., sibling RRMs) tend to have significantly higher similarity than expected by chance. Sibling RRM pairs from RBPs shared by multiple species tend to have lower similarity than those found only in a single species, suggesting that multiple RRMs within the same protein might arise from domain duplication followed by divergence through random mutations. This finding is exemplified by a recent RRM domain duplication in DAZ proteins and an ancient duplication in PABP proteins. Additionally, we found that different similarities between sibling RRMs are associated with distinct functions of an RBP and that the RBPs tend to contain repetitive sequences with low complexity. Taken together, this study suggests that the number of RBPs with multiple RRMs has expanded in mammals and that the multiple sibling RRMs may recognize similar target motifs in a cooperative manner.     

人乳腺癌cAMP结合蛋白

建立了测定人乳腺癌胞浆ｃＡＭＰ结合蛋白（ｃＡＭＰｂ．ｐ．）方法。综合研究了其温度、保温时间、配体浓度、稳定性等条件。ｃＡＭＰｂ．ｐ．的Ｋ_Ｄ值为２．９０×１０~（－８）ｍｏｌ／Ｌ．并测定了６０例雌激素受体（ＥＲ）Ｆｕ性乳腺癌标本的ｃＡＭＰｂ．ｐ．含量。此组病人术后均接受系统的内分泌治疗,ＥＲ／ｃＡＭＰｂｐ,比值范围为７．７～３６２×１０~（－３）,ＥＲ／ｃＡＭＰｂ．ｐ．比值≥４０×１０~（－３）的五年生存率明显高于比值＜４０×１０~（－３）组,（ｐ＜０．００５）．表明测定ＥＲ／ｃＡＭＰｂ．ｐ．比值对预测患者内分泌治疗疗效,优于单独测定ＥＲ．     

Structural Basis for the Discriminative Recognition of N6-Methyladenosine RNA by the Human YT521-B Homology Domain Family of Proteins

N⁶-Methyladenosine (m⁶A) is the most abundant internal modification in RNA and is specifically recognized by YT521-B homology (YTH) domain-containing proteins. Recently we reported that YTHDC1 prefers guanosine and disfavors adenosine at the position preceding the m⁶A nucleotide in RNA and preferentially binds to the GG(m⁶A)C sequence. Now we systematically characterized the binding affinities of the YTH domains of three other human proteins and yeast YTH domain protein Pho92 and determined the crystal structures of the YTH domains of human YTHDF1 and yeast Pho92 in complex with a 5-mer m⁶A RNA, respectively. Our binding and structural data revealed that the YTH domain used a conserved aromatic cage to recognize m⁶A. Nevertheless, none of these YTH domains, except YTHDC1, display sequence selectivity at the position preceding the m⁶A modification. Structural comparison of these different YTH domains revealed that among those, only YTHDC1 harbors a distinctly selective binding pocket for the nucleotide preceding the m⁶A nucleotide.     

RNA结合蛋白与RNA互作鉴定技术

RNA结合蛋白（RNA binding proteins,RBPs）通过与RNA相互作用,广泛参与到RNA的剪切、转运、编辑、胞内定位及翻译调控等过程中。RNA领域尤其是非编码RNA（non-coding RNA,ncRNA）研究的快速发展,催生了多种RBPs RNAs相互作用鉴定技术。这些技术反之又推动了 RNA领域的研究进程。本文对紫外交联免疫沉淀（ultraviolet crosslinking and immunoprecipitation,CLIP）,CLIP cDNA文库高通量测序 (high-throughput sequencing of CLIP cDNA library,HITS-CLIP),光活化核苷增强的CLIP(photoactivatable-ribonucleoside-enhanced crosslinking and immunoprecipitation,PAR-CLIP),单核苷酸分离CLIP (individual nucleotide resolution CLIP,iCLIP),TRIBE (targets of RNA-binding protein identified by editing),RNA 标记,相互作用组捕获(interactome capture,IC) 和SerIC (serial RNA interactome capture)等RBPs-RNAs相互作用鉴定技术的基本原理和优缺点以及应用进行综述。     

Structures of RNA Complexes with the Escherichia coli RNA Pyrophosphohydrolase RppH Unveil the Basis for Specific 5′-End-dependent mRNA Decay

5′-End-dependent RNA degradation impacts virulence, stress responses, and DNA repair in bacteria by controlling the decay of hundreds of mRNAs. The RNA pyrophosphohydrolase RppH, a member of the Nudix hydrolase superfamily, triggers this degradation pathway by removing pyrophosphate from the triphosphorylated RNA 5′ terminus. Here, we report the x-ray structures of Escherichia coli RppH (EcRppH) in apo- and RNA-bound forms. These structures show distinct conformations of EcRppH·RNA complexes on the catalytic pathway and suggest a common catalytic mechanism for Nudix hydrolases. EcRppH interacts with RNA by a bipartite mechanism involving specific recognition of the 5′-terminal triphosphate and the second nucleotide, thus enabling discrimination against mononucleotides as substrates. The structures also reveal the molecular basis for the preference of the enzyme for RNA substrates bearing guanine in the second position by identifying a protein cleft in which guanine interacts with EcRppH side chains via cation-π contacts and hydrogen bonds. These interactions explain the modest specificity of EcRppH at the 5′ terminus and distinguish the enzyme from the highly selective RppH present in Bacillus subtilis. The divergent means by which RNA is recognized by these two functionally and structurally analogous enzymes have important implications for mRNA decay and the regulation of protein biosynthesis in bacteria.     

Carbohydrate-Binding Proteins in the Leech: I. Isolation and Characterization of Lactose-Binding Proteins

Abstract: Three lactose-binding proteins with apparent molecular masses of 16, 35, and 63 kDa [leech lectin 16, 35, and 63 (LL16, LL35, and LL63, respectively)] were isolated from leech membranes. Polyclonal antibodies raised against LL35 cross-reacted with LL16 and LL63, indicating that all three lectins were immunologically related. These leech lectins, however, can be subdivided into two groups based on their tissue distributions and binding affinities for galactose derivatives. LL16 and LL35 are endogenous to the leech's CNS, whereas LL63 is only present in peripheral organs. LL16 and LL35, found in the CNS, bind both the α and β anomers of methylgalactose, whereas the peripheral lectin LL63 binds only the β form. LL35 and LL63 also differ in their binding affinities for galactosamine and N -acetylgalactosamine. The binding activity of LL35 was calcium independent and active over a wide pH range. Triton X-100 and 2-mercaptoethanol were necessary to recover LL35 binding activity during extraction. These characteristics strongly suggest that LL35 is another member of the calcium-independent galactose/lactose-specific lectins previously described in vertebrates and recently demonstrated in sponges and nematodes. Because a single leech expresses up to 100 µg of LL35, this leech lectin is readily amenable to structural and functional analysis.     

New Insights into the Role of DNA Shape on Its Recognition by p53 Proteins

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Structural behavior of RNA-binding proteins in the free state and in complex with RNA: <Emphasis Type="Italic">Escherichia coli</Emphasis> ribosomal protein L25 and 5S rRNA

A novel approach was proposed to evaluate the steadiness of polar clusters containing the RNA-binding sites on the protein surface. The degree of clustering of RNA-binding polar residues was used as a measure of the steadiness of the corresponding polar clusters. Escherichia coli ribosomal protein L25 utilizes two binding sites, S1 and S2, to complexate with a 5S rRNA fragment. The cluster distribution of RNA-contacting polar residues on the protein surface was studied using the structural data on the complex (in crystal and in solution) and the free state (in solution). The degree of polar residue clustering in S1 and S2 in crystal was estimated at 71.4 and 100%, respectively. For the free state in solution, the degree of clustering of the two sites was 22.8 and 68.6%, respectively. Thus, the steadiness was quantitatively estimated for the RNA-binding sites of two different types, one preexisting in the protein and the other induced by the RNA structure upon complexation. The difference between the protein structures in crystal and in solution was found to be functionally significant. The results can be extrapolated to numerous complexes of proteins with double-stranded RNA and DNA.     

Role of N-terminal helix in interaction of ribosomal protein S15 with 16S rRNA

The position and conformation of the N-terminal helix of free ribosomal protein S15 was earlier found to be modified under various conditions. This variability was supposed to provide the recognition by the protein of its specific site on 16S rRNA. To test this hypothesis, we substituted some amino acid residues in this helix and assessed effects of these substitutions on the affinity of the protein for 16S rRNA. The crystal structure of the complex of one of these mutants (Thr3Cys S15) with the 16S rRNA fragment was determined, and a computer model of the complex containing another mutant (Gln8Met S15) was designed. The available and new information was analyzed in detail, and the N-terminal helix was concluded to play no significant role in the specific binding of the S15 protein to its target on 16S rRNA.     

不溶性基质中天冬氨酸丰富的蛋白在珊瑚的钙质骨片形成中的重要作用

一般认为, 酸性蛋白在控制矿物的形成和发展中发挥重要作用。因此, 在不溶性有机基质中鉴定酸性蛋白对于理解珊瑚中个体蛋白的功能是非常重要的一步。在短指多型软珊瑚(Sinularia polydactyla)的可溶性和不溶性基质层中分析蛋白组分表明, 在不溶性基质和可溶性基质层中天冬氨酸的含量分别是61%和29%。利用体外分析法发现, 基质蛋白诱导碳酸钙形成非晶态析出相先于其形成钙质的结晶态。利用X-射线衍射来鉴定骨片上结晶态的碳酸钙, 结果表明钙质的多晶态呈现强反射。傅利叶变换红外光谱分析表明珊瑚基质中富含天冬氨酸的蛋白和多醣的结构。在不溶性基质组分中用钙离子结合分析显示一个分子量为109 kD的蛋白质可以与形成骨片的钙离子结合, 这一过程对骨片形成非常重要。在对生物钙化过程中起重要作用的碳酸酐酶的分析中显示了此酶的新颖的活性。以上结果显示珊瑚中不溶性基质内的富含天冬氨酸的蛋白在生物矿化调控过程中起重要作用。