烟草果胶甲基酯酶（PME）基因的克隆及功能分析(英)

为了研究果胶甲基酯酶（pectin methyl-esterase,PME）（EC 3.1.1.11）与植物病毒运动蛋白之间的相互作用,应用RT-PCR方法从烟草(Nicotiana benthamiana)中克隆了PME基因,并测定了全序列(GenBank登录号AY238968).序列分析显示该基因由两个保守的结构域组成(PMEI和pectinesterase). DNA印迹结果表明,该基因在基因组中存在多个拷贝,蛋白质印迹表明,植物总蛋白中存在两种形式的PME蛋白,但RNA印迹结果显示,在烟草细胞中只检测到全长的PME转录产物.酵母双杂交结果表明,PME与水稻矮缩病毒Pns11(具有非特异的核酸结合活性)之间存在相互作用,而没有检测到PME与已知的运动蛋白Pns6之间的相互作用,推测Pns11蛋白可能参与了水稻矮缩病毒粒子的运动.     

Movement protein Pns6 of rice dwarf phytoreovirus has both ATPase and RNA binding activities

Cell-to-cell movement is essential for plant viruses to systemically infect host plants. Plant viruses encode movement proteins (MP) to facilitate such movement. Unlike the well-characterized MPs of DNA viruses and single-stranded RNA (ssRNA) viruses, knowledge of the functional mechanisms of MPs encoded by double-stranded RNA (dsRNA) viruses is very limited. In particular, many studied MPs of DNA and ssRNA viruses bind non-specifically ssRNAs, leading to models in which ribonucleoprotein complexes (RNPs) move from cell to cell. Thus, it will be of special interest to determine whether MPs of dsRNA viruses interact with genomic dsRNAs or their derivative sRNAs. To this end, we studied the biochemical functions of MP Pns6 of Rice dwarf phytoreovirus (RDV), a member of Phytoreovirus that contains a 12-segmented dsRNA genome. We report here that Pns6 binds both dsRNAs and ssRNAs. Intriguingly, Pns6 exhibits non-sequence specificity for dsRNA but shows preference for ssRNA sequences derived from the conserved genomic 5'- and 3'-terminal consensus sequences of RDV. Furthermore, Pns6 exhibits magnesium-dependent ATPase activities. Mutagenesis identified the RNA binding and ATPase activity sites of Pns6 at the N- and C-termini, respectively. Our results uncovered the novel property of a viral MP in differentially recognizing dsRNA and ssRNA and establish a biochemical basis to enable further studies on the mechanisms of dsRNA viral MP functions.     

Sequence Analysis of Segment 8 of Five Chinese Isolates of Rice Gall Dwarf Virus and Expression of a Main Outer Capsid Protein in Escherichia coli

The rice gall dwarf disease, caused by the Rice gall dwarf virus (RGDV) is a serious disease occurring in rice in many regions of Guangdong province. As a basis to control the disease we have studied the genomic diversity of a variety of isolates from different locations. Genome segment 8(S8), encoding a main outer capsid protein (Pns8) of RGDV five isolates (BL, CH, DQ, GZ, XY) from Guangdong province was cloned and sequenced. The results revealed that all the S8 segments of the five isolates consisted of 1 578 nucleotides and had a single open reading frame (ORF) extending for 1 301 nucleotides from nucleotide 21 which encoded a polypeptide of 426 amino acids with an estimated molecular weight of 47.4 kDa. The S8 full-length sequence and the ORF sequence shared 97.3%-98.8% and 97.3%-99.1% nucleotide sequence identities within the five Chinese isolates, and shared 94.8%-95.6% and 95.0%-96.0% identities with those of the Thailand isolate respectively. The deduced amino acid sequence of Pns8 in GZ isolate was identical to that in the Thailand isolate, while the amino acid sequence variability of Pns8 within five Chinese isolates ranged from 0.5% to 2.1%. These results indicate that the S8 segment of RGDV is highly conserved in different isolates from different locations. The S8 cDNA from the XY isolate was cloned into the plasmid vector pET-28b(+) and a fused expression protein with an apparent molecular mass of 51kDa was specifically detected in an analysis of Escherichia coli Rossetta(DE3)Ⅱcells. To our knowledge, this is the first report on analysis of the RGDV segment 8 sequence and genetic comparison of different RGDV isolates and their protein expression.     

水稻瘤矮病毒基因组S9片段的基因结构特征

应用RT-PCR技术克隆了水稻瘤矮病毒(RGDV)中国广东信宜分离物(RGDV-C)的基因组S9片段,测定了全序列并进行了生物信息学分析。结果表明,RGDV-C S9片段全长共有1202bp(登录号AY556483),含有一个长的开放阅读框,这一开放阅读框编码一个由323个氨基酸残基组成的多肽,推测分子量约35.6kDa,与泰国分离物(RGDV-T)的全序列相比,它们的核苷酸长度相等,核苷酸同源性为98.1%,氨基酸同源性为98.5%。RGDV S9片段编码的Pns9蛋白在植物呼肠孤病毒属内未发现同源蛋白,其功能尚待确定。利用NCBI的BLAST查找与比较,发现Pns9与伯氏疏螺旋体(Borrelia burgdorferi)ATP依赖的Clp蛋白水解酶组分[ATP-dependent Clp prote-ase proteolytic component(clpP-1)]有21.8%的氨基酸序列同源性。     

Sequence analysis of segment 8 of five Chinese isolates of Rice gall dwarf virus and expression of a main outer capsid protein in <Emphasis Type="Italic">Escherichia coli</Emphasis>

The rice gall dwarf disease, caused by the Rice gall dwarf virus (RGDV) is a serious disease occurring in rice in many regions of Guangdong province. As a basis to control the disease we have studied the genomic diversity of a variety of isolates from different locations. Genome segment 8 (S8), encoding a main outer capsid protein (Pns8) of RGDV five isolates (BL, CH, DQ, GZ, XY) from Guangdong province was cloned and sequenced. The results revealed that all the S8 segments of the five isolates consisted of 1 578 nucleotides and had a single open reading frame (ORF) extending for 1 301 nucleotides from nucleotide 21 which encoded a polypeptide of 426 amino acids with an estimated molecular weight of 47.4 kDa. The S8 full-length sequence and the ORF sequence shared 97.3%–98.8% and 97.3%–99.1% nucleotide sequence identities within the five Chinese isolates, and shared 94.8%–95.6% and 95.0%–96.0% identities with those of the Thailand isolate respectively. The deduced amino acid sequence of Pns8 in GZ isolate was identical to that in the Thailand isolate, while the amino acid sequence variability of Pns8 within five Chinese isolates ranged from 0.5% to 2.1%. These results indicate that the S8 segment of RGDV is highly conserved in different isolates from different locations. The S8 cDNA from the XY isolate was cloned into the plasmid vector pET-28b(+) and a fused expression protein with an apparent molecular mass of 51kDa was specifically detected in an analysis of Escherichia coli Rossetta (DE3) II cells. To our knowledge, this is the first report on analysis of the RGDV segment 8 sequence and genetic comparison of different RGDV isolates and their protein expression. Foundation item: National natural science foundation of China (30370929) and Guangdong province natural science foundation (C036845)     

Expression of rice dwarf phytoreovirus Pns6 and the specificity analysis of its monoclonal antibodies

The genome of rice dwarf phytoreovirus (RDV) is composed of 12 double-stranded RNA segments, of which segment S6 encodes a non-structural protein Pns6 identified as the movement protein. In this report, Pns6 with a 6-histidine tag at the N-terminal was expressed in E. coli after induction under low temperature (18℃) and low concentration (0.4 mmol/L and 0.2 mmol/L) of IPTG, and then purified by Ni-chelated affinity chromatography. Stability analysis indicated that the expressed HisPns6 protein was stable at 37℃ after 24 h treatment. This recombinant protein was then used to make monoclonal antibody. Total 18 hybridoma clones were obtained. The specificity of antibodies was tested by Western blot using native Pns6 extracted from RDV-infected rice leaves, and 15 positive clones were confirmed. Mapping of the antigenic sites of Pns6 using antibodies showed that the most sensitive antigen determinant is located in the C-terminal region (the 296th—509th amino acids) of Pns6, which is confirms bioinformatics analysis.     

水稻齿叶矮缩病毒S8基因编码的结构蛋白质及其自聚集性质

水稻齿叶矮缩病毒是一种以水稻为侵害寄主的植物呼肠孤病毒 ,其基因组 1 0条dsRNA编码的蛋白质产物的功能除S9外的大部分还未阐明。报道了该病毒菲律宾分离株S8的开放阅读框序列 ,在大肠杆菌中表达和纯化出了其 6 7kD的蛋白质产物 ,并进一步研究了该产物的功能。实验结果表明 ,S8的蛋白质产物是病毒的一种主要结构蛋白质 ,在体外具有自剪切活性和自聚集性质 ,并推测可能是病毒的内层衣壳蛋白     

Molecular characterization of Bombyx mori cytoplasmic polyhedrosis virus genome segment 4

The complete nucleotide sequence of the genome segment 4 (S4) of Bombyx mori cytoplasmic polyhedrosis virus (BmCPV) was determined. The 3,259-nucleotide sequence contains a single long open reading frame which spans nucleotides 14 to 3187 and which is predicted to encode a protein with a molecular mass of about 130 kDa. Western blot analysis showed that S4 encodes BmCPV protein VP3, which is one of the outer components of the BmCPV virion. Sequence analysis of the deduced amino acid sequence of BmCPV VP3 revealed possible sequence homology with proteins from rice ragged stunt virus (RRSV) S2, Nilaparvata lugens reovirus S4, and Fiji disease fijivirus S4. This may suggest that plant reoviruses originated from insect viruses and that RRSV emerged more recently than other plant reoviruses. A chimeric protein consisting of BmCPV VP3 and green fluorescent protein (GFP) was constructed and expressed with BmCPV polyhedrin using a baculovirus expression vector. The VP3-GFP chimera was incorporated into BmCPV polyhedra and released under alkaline conditions. The results indicate that specific interactions occur between BmCPV polyhedrin and VP3 which might facilitate BmCPV virion occlusion into the polyhedra.     

Viroplasm Protein P9-1 of Rice Black-Streaked Dwarf Virus Preferentially Binds to Single-Stranded RNA in Its Octamer Form,and the Central Interior Structure Formed by This Octamer Constitutes the Major RNA Binding Site

The P9-1 protein of Rice black-streaked dwarf virus (RBSDV) is an essential part of the viroplasm. However, little is known about its nature or biological function in the viroplasm. In this study, the structure and function of P9-1 were analyzed for in vitro binding to nucleic acids. We found that the P9-1 protein preferentially bound to single-stranded versus double-stranded nucleic acids; however, the protein displayed no preference for RBSDV versus non-RBSDV single-stranded ssRNA (ssRNA). A gel mobility shift assay revealed that the RNA gradually shifted as increasing amounts of P9-1 were added, suggesting that multiple subunits of P9-1 bind to ssRNA. By using discontinuous blue native gel and chromatography analysis, we found that the P9-1 protein was capable of forming dimers, tetramers, and octamers. Strikingly, we demonstrated that P9-1 preferentially bound to ssRNA in the octamer, rather than the dimer, form. Deletion of the C-terminal arm resulted in P9-1 no longer forming octamers; consequently, the deletion mutant protein bound to ssRNA with significantly lower affinity and with fewer copies bound per ssRNA. Alanine substitution analysis revealed that electropositive amino acids among residues 25 to 44 are important for RNA binding and map to the central interior structure that was formed only by P9-1 octamers. Collectively, our findings provide novel insights into the structure and function of RBSDV viroplasm protein P9-1 binding to RNA.     

水稻齿叶矮缩病毒Segment 9 dsRNA的序列分析及其在大肠杆菌DE3中的表达

通过有机试剂抽提,ＣＦ－１１纤维素柱层析,从感染水稻齿叶矮缩病毒菲律宾分离株（ＲｉｃｅＲａｇｇｅｄＳｔｕｎｔＶｉｒｕｓ,Ｐｈｉｌｉｐｐｉｎｅｉｓｏｌａｔｅ,简称ＲＲＳＶ－Ｐ）的水稻植株中获取该病毒的全基因组,即获得从Ｓｅｇｍｅｎｔ１到Ｓｅｇｍｅｎｔ１０（Ｓ１－Ｓ１０）的１０条双链ＲＮＡ（ｄｓＲＮＡ）,然后设计合适的引物,用ＲＴ－ＰＣＲ方法得到Ｓ９的ｃＤＮＡ并将其克隆到ｐＵＣ１１９质粒上扩增,以双链测序法测定该ｃＤＮＡ的全序列。同时又将此ｃＤＮＡ克隆到大肠杆菌表达质粒ｐＧＥＸ－３Ｘ上,在大肠杆菌菌株ＤＥ３中用ＩＰＴＧ诱导表达,经超声波破菌、离心、Ｇｌｕｔａｔｈｉｏｎｅ－ｓｅｐｈａｒｏｓｅ４Ｂ亲和层析,得到纯化的分子量为６４ｋＤ的融合蛋白。     

RNA–LIM: A novel procedure for analyzing protein/single-stranded RNA propensity data with concomitant estimation of interface structure

RNA–LIM is a procedure that can analyze various pseudo-potentials describing the affinity between single-stranded RNA (ssRNA) ribonucleotides and surface amino acids to produce a coarse-grained estimate of the structure of the ssRNA at the protein interface. The search algorithm works by evolving an ssRNA chain, of known sequence, as a series of walks between fixed sites on a protein surface. Optimal routes are found by application of a set of minimal “limiting” restraints derived jointly from (i) selective sampling of the ribonucleotide amino acid affinity pseudo-potential data, (ii) limited surface path exploration by prior determination of surface arc lengths, and (iii) RNA structural specification obtained from a statistical potential gathered from a library of experimentally determined ssRNA structures. We describe the general approach using a NAST (Nucleic Acid Simulation Tool)-like approximation of the ssRNA chain and a generalized pseudo-potential reflecting the location of nucleic acid binding residues. Minimum and maximum performance indicators of the methodology are established using both synthetic data, for which the pseudo-potential defining nucleic acid binding affinity is systematically degraded, and a representative real case, where the RNA binding sites are predicted by the amplified antisense RNA (aaRNA) method. Some potential uses and extensions of the routine are discussed. RNA–LIM analysis programs along with detailed instructions for their use are available on request from the authors.     

Crystal structure of the ribosomal protein S6 from Thermus thermophilus.

The amino acid sequence and crystal structure of the ribosomal protein S6 from the small ribosomal subunit of Thermus thermophilus have been determined. S6 is a small protein with 101 amino acid residues. The 3D structure, which was determined to 2.0 A resolution, consists of a four-stranded anti-parallel beta-sheet with two alpha-helices packed on one side. Similar folding patterns have been observed for other ribosomal proteins and may suggest an original RNA-interacting motif. Related topologies are also found in several other nucleic acid-interacting proteins and based on the assumption that the structure of the ribosome was established early in the molecular evolution, the possibility that an ancestral RNA-interacting motif in ribosomal proteins is the evolutionary origin for the nucleic acid-interacting domain in large classes of ribonucleic acid binding proteins should be considered.     

RNA-binding domain in the nucleocapsid protein of gill-associated nidovirus of penaeid shrimp

Gill-associated virus (GAV) infects Penaeus monodon shrimp and is the type species okavirus in the Roniviridae, the only invertebrate nidoviruses known currently. Electrophoretic mobility shift assays (EMSAs) using His(6)-tagged full-length and truncated proteins were employed to examine the nucleic acid binding properties of the GAV nucleocapsid (N) protein in vitro. The EMSAs showed full-length N protein to bind to all synthetic single-stranded (ss)RNAs tested independent of their sequence. The ssRNAs included (+) and (-) sense regions of the GAV genome as well as a (+) sense region of the M RNA segment of Mourilyan virus, a crustacean bunya-like virus. GAV N protein also bound to double-stranded (ds)RNAs prepared to GAV ORF1b gene regions and to bacteriophage M13 genomic ssDNA. EMSAs using the five N protein constructs with variable-length N-terminal and/or C-terminal truncations localized the RNA binding domain to a 50 amino acid (aa) N-terminal sequence spanning Met(11) to Arg(60). Similarly to other RNA binding proteins, the first 16 aa portion of this sequence was proline/arginine rich. To examine this domain in more detail, the 18 aa peptide (M(11)PVRRPLPPQPPRNARLI(29)) encompassing this sequence was synthesized and found to bind nucleic acids similarly to the full-length N protein in EMSAs. The data indicate a fundamental role for the GAV N protein proline/arginine-rich domain in nucleating genomic ssRNA to form nucleocapsids. Moreover, as the synthetic peptide formed higher-order complexes in the presence of RNA, the domain might also play some role in protein/protein interactions stabilizing the helical structure of GAV nucleocapsids.     

RNA aptamers that bind the nucleocapsid protein contain pseudoknots

We screened two independent RNA libraries consisting of molecules of 50 nucleotides of random sequence, one of which had additional viral psi-sequences to isolate RNA aptamers that bound to the mature form of the nucleocapsid (NC) protein of Human Immunodeficiency Virus Type-1 (HIV-1). Surface Plasmon Resonance measurements and gel shift assays showed that the RNA aptamers bound with high affinity and specificity. We employed RNase footprinting to characterize the RNA structures and to map their protein binding sites. Most of the selected RNA aptamers contained a plausible pseudoknot in addition to the characteristic stem-loop structure. Moreover, the pseudoknots were part of the NC binding sites. We propose that higher order structures such as pseudoknots may constitute binding motifs for nucleic acid binding proteins, especially for NC protein, which is a nucleic acid chaperone.     

Transformation of rice plants by plant reovirus genes

Rice dwarf phytoreovirus (RDV), and rice ragged stunt oryzairus (RRSV) genes were introduced into rice protoplasts by using the cauliflower mosaic virus 35S promoter, tissue culture techniques and electroporation. The translation products of cDNA to RDV segment 8 were detected in transformed rice. Plants transgenic for RRSV S9 also expressed an mRNA of appropriate size but the protein was not apparently expressed. These latter plants did not show any resistance when inoculated with RRSV; on the contrary, symptom expression was intensified. Since most plant reoviruses are phloem-limited, an alternative promoter could be that of rice tungro bacilliform virus (RTBV), which is itself phloem-limited. When the β-glucuronidase (GUS) gene was coupled to this promoter and introduced into rice, GUS activity was successfully expressed only in the phloem, so the system could be of interest in the reovirus context.     

超级杂交稻乙烯反应元件结合蛋白cDNA的生物信息学分析与克隆

目的：从超级杂交稻中克隆乙烯反应元件结合蛋白（EREBP）的cDNA。方法：利用模式植物拟南芥中编码乙烯反应元件结合蛋白的cDNA,对现有的水稻基因组数据库进行搜索,获得一条高同源的未知序列。对这条未知序列的核酸序列蛋白质序列及其结构、性质、功能等进行生物信息学分析后,以超级杂交稻为材料,用未知序列设计一对简并引物,用RTPCR技术扩增后进行T-A克隆。结果：生物信息学分析结果表明,这个未知序列应为水稻中编码EREBP的cDNA;克隆后经测序获得一条915bp的cDNA,BLAST表明这条cDNA序列与未知序列的部分核酸序列的同源性达到了99％;提NCBI的GenBank后被接受,登录号为EF507537。结论：以生物信息学分析为基础,结合RT-PCR和T-A克隆技术,成功地从超级杂交稻中克隆了EREBP cDNA。     

Human herpesvirus 6B origin-binding protein: DNA-binding domain and consensus binding sequence.

We previously demonstrated by a DNA-binding assay that the human herpesvirus 6B (HHV-6B) replication origin has a structure similar to those of alphaherpesviruses, although the HHV-6B and herpes simplex virus type 1 (HSV-1) origin-binding proteins (OBPs) and origins are not interchangeable. Here we describe additional properties of the interaction between HHV-6B OBP and the HHV-6B origin. Competitive electrophoretic mobility shift assays (EMSAs) with DNA duplexes containing single-base alterations allowed deduction of a consensus DNA sequence for HHV-6B-specific OBP binding, YGWYCWCCY, where Y is T or C and W is T or A, while that for HSV-1-specific binding was reported to be YGYTCGCACT. By EMSA, the HHV-6B OBP DNA-binding domain was mapped to a segment containing amino acids 482 to 770. However, in Southwestern (protein-DNA) blotting, the region sufficient for the DNA binding encompassed only amino acids 657 to 770. Similarly, Southwestern blotting showed that amino acids 689 to 851 of HSV-1 OBP had HSV-1 origin-binding activity, although this region was insufficient for origin binding in the EMSA. Although the longer DNA-binding domains identified by EMSA have marginal overall homology among HHV-6B and alphaherpesvirus OBP homologs, the smaller regions sufficient for the binding observed by Southwestern blotting have significant similarity. From these results, we propose a hypothesis that the DNA-binding domain of herpesvirus OBPs consists of two subdomains, one containing a conserved motif that contacts DNA directly, and another, less well conserved, that may modulate either the conformation or accessibility of the binding domain.     

Interaction of nucleolar phosphoprotein B23 with nucleic acids

The interaction of eukaryotic nucleolar phosphoprotein B23 with nucleic acids was examined by gel retardation and filter binding assays, by fluorescence techniques, and by circular dichroism. All studies utilized protein prepared under native conditions by a newly developed purification procedure. Electrophoretic gel mobility shift assays with phage M13 DNA suggested that protein B23 is a single-stranded nucleic acid binding protein. This was confirmed in competition binding assays with native or heat-denatured linearized plasmid pUC18 DNA where the protein showed a marked preference for the denatured form. In other competition assays, there was no apparent preference for single-stranded synthetic ribo- versus deoxyribonucleotides. Equilibrium binding with poly(riboethenoadenylic acid) indicated cooperative ligand binding with a protein binding site size of 11 nucleotides and an apparent binding constant (K omega) of 5 x 10(7) M-1 which includes an intrinsic binding constant (K) of 6.3 x 10(4) M-1 and a cooperativity factor (omega) of 800. In circular dichroism (CD) studies, protein B23, when combined with the single-stranded synthetic nucleic acids poly(rA) and poly(rC), effected a decrease in ellipticity and a shift of the positive peak at 260-270 nm toward higher wavelengths, indicating helix destabilizing activity. No CD changes were seen with double-stranded poly(dA.dT). The change in ellipticity of poly(rA) was sigmoidal upon addition of protein, confirming the cooperative behavior seen with fluorescence methods. These studies indicate that protein B23 binds cooperatively with high affinity for single-stranded nucleic acids and exhibits RNA helix destabilizing activity. These features may be related to its role in ribosome assembly.     

1株H6N6亚型禽流感病毒分子遗传特性分析

本研究采用无特定病原体(specific pathogen free,SPF)鸡胚,从某活禽市场环境中分离出1株H6N6亚型禽流感病毒(A/environment/Zhenjiang/zj18/2013,en/zj18)。通过二代测序技术进行全基因组测序,通过BLASTn 进行同源性检索,并采用MEGA5.0软件构建系统发生树。基因进化树分析表明,分离株en/zj18的所有8个基因节段(PB2、PB1、PA、HA、NP、NA、M和NS)均与近年来中国华东地区流行的H6N6亚型禽流感病毒的相应基因位于同一进化分支,与参考株的核苷酸同源性达96.7%～99.6%。分离株en/zj18的HA蛋白裂解位点为PQIETR↓GL,是低致病性禽流感病毒的分子特征。HA蛋白上关键受体结合位点190和228位(按H3亚型的HA蛋白序列排序)氨基酸分别是E和G,理论上更易与α2,3-半乳糖苷唾液酸受体结合。结果提示,需加强活禽市场禽流感病毒的持续监测,从而为有效应对禽流感病毒对公共卫生的持续威胁提供科学依据。