Protein Subcellular Localization Prediction and Genomic Polymorphism Analysis of the SARS Coronavirus

Introduction In March 2003, a novel coronavirus (CoV) was dis-covered in association with the outbreak of severe acute respiratory syndrome (SARS)[1-3]. The complete genome sequence of several SARS-CoV isolates was soon determined and characterized[4,5]. Comparison of variant SARS-CoV genome sequences has identified certain genetic signatures that can be used to trace sources of infection[6]. Vaccines are now being devel-oped and molecular modeling has suggested that modi-fied rhinovir…     

Genome sequence variation analysis of two SARS coronavirus isolates after passage in Vero cell culture

SARS coronavirus is an RNA virus whose replication is error-prone, which provides possibility for escape of host defenses, and even leads to evolution of new viral strains during the passage or the transmission. Lots of variations have been detected among different SARS-CoV strains. And a study on these variations is helpful for development of efficient vaccine. Moreover, the test of nucleic acid characterization and genetic stability of SARS-CoV is important in the research of inactivated vaccine. The whole genome sequences of two SARS coronavirus strains after passage in Vero cell culture were determined and were compared with those of early passages, respectively. Results showed that both SAPS coronavirus strains have high genetic stability, although nearly 10 generations were passed. Four nucleotide variations were observed between the second passage and the llth passage of Sinol strain for identification of SARS inactivated vaccine. Moreover, only one nucleotide was different between the third passage and the 10th passage of Sino3 strain for SARS inactivated vaccine. Therefore, this study suggested it was possible to develop inactivated vaccine against SARS-CoV in the future.     

冠状病毒主蛋白酶及其化学抑制剂研究进展

一个新的冠状病毒已经被鉴定为急性呼吸道综合症(SARS)的病原体,控制该病毒复制复合体活性的主蛋白酶(Mpro或3CLpro)将很可能成为开发针对SARS特效治疗药物的靶位点.综述了人冠状病毒株229E(HCoV 229E)和一种在猪体内引发传染性胃肠炎的病毒(TGEV)的Mpro的晶体结构以及以此为基础构建的SARS冠状病毒(SARS-CoV)同源蛋白酶的空间结构模型.通过对这些同源蛋白酶的结构及其与已知的蛋白酶化学抑制剂的结合特征进行分析后发现Mpro的底物结合位点具有惊人的保守性,这种保守性也被重组SARS-CoV Mpro能介导的TGEV Mpro的底物剪切实验所进一步证实.分子模型表明已有的鼻病毒3Cpro抑制剂经过改进后或许能用于SARS的治疗.     

Infection of SARS-CoV on juvenile and adult Brandt’s vole Microtus brandtii

We studied the infectious effect of SARS-CoV virus on juvenile and adult Brandt‘s Vole (Microtus brandtii) by nasal cavity spraying method (CCIDso is 10^5.7). SARS virus caused serious deaths in adults. The death adults demonstrated hemorrhage from mouth, nasal cavity and intestine, hemorrhageious interstitial pneumonia and gore in liver, spleen and kidney. The survival adults demonstrated local hemorrhagic spot in lung and emphysema, but the other organs showed no pathological abnormality. SARS virus caused no deaths in juveniles, but locomotion of infected juveniles became slower. In the early stage, there was local pneumonia in lung and SARS viruses were isolated from the pathological tissue. Only one control juvenile lived and the infected juvenile showed local pneumonia in lung. The results demonstrated that SARS-CoV infected Brandt‘s vole seriously and adults were more susceptive to SARS-CoV than juveniles. The Brandt‘s vole may be a potential animal model for SARS research.     

Angiotensin-converting enzyme 2 is a functional receptor for the SARS coronavirus

Spike (S) proteins of coronaviruses, including the coronavirus that causes severe acute respiratory syndrome (SARS), associate with cellular receptors to mediate infection of their target cells. Here we identify a metallopeptidase, angiotensin-converting enzyme 2 (ACE2), isolated from SARS coronavirus (SARS-CoV)-permissive Vero E6 cells, that efficiently binds the S1 domain of the SARS-CoV S protein. We found that a soluble form of ACE2, but not of the related enzyme ACE1, blocked association of the S1 domain with Vero E6 cells. 293T cells transfected with ACE2, but not those transfected with human immunodeficiency virus-1 receptors, formed multinucleated syncytia with cells expressing S protein. Furthermore, SARS-CoV replicated efficiently on ACE2-transfected but not mock-transfected 293T cells. Finally, anti-ACE2 but not anti-ACE1 antibody blocked viral replication on Vero E6 cells. Together our data indicate that ACE2 is a functional receptor for SARS-CoV.     

SARS相关冠状病毒刺突糖蛋白的研究(综述)

概述了SARS—CoV的S蛋白的结构及功能相关研究。严重急性呼吸综合症相关的冠状病毒(SARS-CoV)引起2003年我国南方非典型肺炎爆发流行，波及多个国家和地区。目前全球许多学对SARS-CoV进行了广泛的研究，发现S蛋白是病毒表面的主要蛋白，它构成冠状病毒科特征性的冠状样结构，在严重急性呼吸综合症的发病机制起着关键性作用，可介导表达相关受体的宿主细胞感染。现已鉴定出SARS-CoV的S蛋白相关受体，同时它在抗病毒感染中是一个关键靶蛋白。     

SARS冠状病毒的诊断性实验研究

严重急性呼吸综合征(SARS)是一种新的人类感染性疾病，其致病菌为SARS冠状病毒(SARS-CoV)。本文就SARS-CoV发现过程、病毒特点及检测方法的研究进展和应用情况加以概述。     

SARS的研究进展

2003年3月,发现SARS病原是一种从未在人类或动物中发现过的新的冠状病毒.其基因组结构与其他的冠状病毒相似,由29727核苷酸组成,有11个开放阅读框.通过多基因分析序列比较说明,SARS冠状病毒与已知的冠状病毒无关.针对SARS冠状病毒的各种特征及研究进展进行了综述.     

SARS-CoVS基因表达及纯化

严重急性呼吸道综合症是由一种新的冠状病毒SARS-CoY引起的．作者通过PCR扩增得到了S蛋白的6个编码片段，并利用表达载体pET28a( )在E．coli BL21中进行了原核表达．通过亲和层析纯化了包含大部分ACE2结合区域的S蛋白片段(S4)．ELISA分析结果表明S4与SARS病人恢复期血清具有良好的反应能力．     

Phylogeny of SARS-CoV as inferred from complete genome comparison

SARS-CoV, as the pathogeny of severe acute respi-ratory syndrome (SARS), seems to be the first coronavirus that is lethal to humans. Coronavirus (family Coronaviri-dae, genus Coronavirus) is an enveloped, single-stranded plus sense RNA virus whose genome has approximately 30 kb size. Whereas coronaviruses may cause severe dis-ease in animals, coronaviruses human strains only cause mild diseases until SARS-CoV was discovered. To date, SARS-CoV genomes from 12 isolates have been comp…     

SARS冠状病毒的系统发育基因组研究

对SARS冠状病毒(SARS Coronavirus,SARS-CoV)进行了系统发育基因组研究.应用CLUSAL-X1.83程序,将来自GenBank数据库的全部102条SARS-CoV全基因组序列记录做多序列联配,然后采用MEGA3软件包进行系统发育基因组分析,使用邻接法构建系统发育树.根据该系统树,SARS-CoV全基因组记录可以分为2类.第1类包括2个来源于动物的分离株;第2类则覆盖了所有的人源分离株,并且可进一步分为2组,其中第1组包括5个来自于广东省的分离株,而第2组则覆盖了其他的来自于香港、内地和海外的分离株.这一分支格局代表了SARS-CoV从兽到人、从广东到全球的传播过程,并且基因组的替代变异幅度在传播过程中由大到小,逐渐稳定下来.还详细地给出了区分上述2群和2组的分子标签,为新毒株的鉴定和分型提供了理论依据.     

Molecular phylogeny of coronaviruses including human SARS-CoV

The outbreak of SARS sets an urgent task to reveal the origin of human SARS-CoV, i.e. its relation to other known species of coronavirus, and to trace the genetic variation in the spreading process of SARS. Partial answer to the problem may be obtained from phylogenetic analy-sis of available genomes. We call a phylogenetic tree of different species of coronavirus including the human SARS-Cov a CoV Tree and that of different isolates of SARS-CoV a SARS Tree. CoV trees have been c…     

基于密码子使用模式的冠状病毒亲缘关系分析

重症急性呼吸综合症(severe acute respiratorysyndrome,SARS),临床表现为非典型肺炎.由于SARS具有很高的传染性和一种新型的冠状病毒(SARS-CoV)被认为是引起SARS的病原体.SARS冠状病毒(SARS-CoV)属于巢状病毒目(OrderN idovirales),冠状病毒科(Fam ily Coronaviri-dae),冠状病     

Bioinformatical study on the proteomics and evolution of SARS-CoV

A novel coronavirus has been identified as the causative agent of the severe acute respiratory syndrome (SARS). For all the SARS-CoV associated proteins derivated from the SARS-CoV genome, the physiochemical properties such as the molecular weight, isoelectric point and extinction coefficient of each protein were calculated. The transmembrane segments and subeellular localization (SubLoeation) prediction and conserved protein motifs search against database were employed to analyze the function of SARS-CoV proteins. Also, the homology protein sequence alignment and evolutionary distance matrix calculation between SARS-CoV associated proteins and the corresponding proteins of other coronaviruses were employed to identify the classification and phylogenetic relationship between SARS-CoV and other coronaviruses. The results showed that SARS-CoV is a novel coronavirus which is different from any of the three previously known groups of coronviruses, but it is closer to BoCoV and MHV than to other coronaviruses. This study is in aid of experimental determination of SARS-CoV proteomics and the development of antiviral vaccine.     

A DNA vaccine induces SARS coronavirus neutralization and protective immunity in mice

Public health measures have successfully identified and contained outbreaks of the severe acute respiratory syndrome (SARS) coronavirus (SARS-CoV), but concerns remain over the possibility of future recurrences. Finding a vaccine for this virus therefore remains a high priority. Here, we show that a DNA vaccine encoding the spike (S) glycoprotein of the SARS-CoV induces T cell and neutralizing antibody responses, as well as protective immunity, in a mouse model. Alternative forms of S were analysed by DNA immunization. These expression vectors induced robust immune responses mediated by CD4 and CD8 cells, as well as significant antibody titres, measured by enzyme-linked immunosorbent assay. Moreover, antibody responses in mice vaccinated with an expression vector encoding a form of S that includes its transmembrane domain elicited neutralizing antibodies. Viral replication was reduced by more than six orders of magnitude in the lungs of mice vaccinated with these S plasmid DNA expression vectors, and protection was mediated by a humoral but not a T-cell-dependent immune mechanism. Gene-based vaccination for the SARS-CoV elicits effective immune responses that generate protective immunity in an animal model.     

Analysis of proteins that interact with nucleocapsid protein of SARS-CoV using 1 5-mer phage-displayed library

Analysis of proteins that interact with N protein of SARS-CoV using 15-mer phage-displayed library will help to explore the virus pathogenesis and to develop new drugs and vaccines against SARS. In this study, we cloned, expressed and purified N protein of SARS-CoV. This 46-kD N protein was verified by SDS-PAGE and Western-blot. Then, the peptides binding-specific to N protein were identified using 15-mer phage-displayed library. Surprisingly, all of the 89 clones from monoclonal ELISA were positive （S/N〉2.1） and the result was further confirmed experimentally once again. Six N protein-binding peptides, designated separately as SNA1, SNA2, SNA4, SNA5, SNA9 and SNG11, were selected for sequencing. Sequence analysis suggested that SNA5 shared approximatively 100% sequence identity to SNA4, SNA2, SNA9 and SNA1. In addition, the binding specificity of the 15-mer peptides with the SARS-CoV N protein was further demonstrated by blocking ELISA using the synthetical 15-mer peptide according to the deduced amino acid sequence of SNA5. Also, the deduced amino sequence of SNA5 was compared with proteins in translated database using the tblastx program, and the results showed that the proteins with the highest homology were Ubiquinol-cytochrome c reductase iron-sulfur subunits （UCRI or UQCR）, otherwise known as the Rieske iron-sulfur proteins （RISP）. Notablely, in the [2Fe-2S] redox centre of UCRI, there were 6 residues [GGW（Y）F（Y）CP] compatible to the residues （position 2→7, GGWFCP7） of the NH2-terminal of the 15-mer peptide, which indicated higher binding specificity between the N protein of SARS-CoV and the redox centre of UCRI to some extent. Here, the possible molecular mechanisms of SARS-CoV N protein in the pathogenesis of SARS are discussed.     

传染性非典型肺炎病毒核蛋白的表达与活性检测

用PCR方法，人工合成传染性非典型肺炎病毒(SARS-CoV)核蛋白(N)全编码基因，并构建原核表达载体．在大肠杆菌中进行表达．结果重组N蛋白表达产量占菌体总蛋白的40％以上，主要以可溶形式存在．用SARS患者急性期血清进行蛋白印迹检测，表明可溶形式和包含体形式均有明显活性．包含体形式的重组蛋白经纯化后纯度可达90％以上，活性与纯化前相当，可作为SARS抗体诊断试剂盒的抗原原料．     

天然产物活性化合物抗SARS-CoV研究

针对系统综合征冠状病毒 2 (SARS-CoV-2),在全球范围大流行并呈指数级传播,迫切需要有 效的抗病毒药物和疫苗来控制和预防 SARS-CoV-2 疫情,寻找与开发有效、价格低廉的治疗 SARS-CoV-2 药物,是全世界面临的挑战;结合国内外最新文献,介绍了冠状病毒的起源、种类、人类感染的危害与应对措 施,发现药用植物与其它天然产物,其活性化合物抗 SARS-CoV 和增强免疫力廉价、可行,中医临床也证实 天然药物治疗 SARS-CoV 的有效性;天然产物包括药用植物、真菌和海洋生物的活性成分,可能成为 SARS- CoV-2 抑制剂研究与开发的新前沿。     

SARS冠状病毒核衣壳蛋白基因的表达及其在SARS诊断中的应用

目的为SARS感染后建立一种特异性免疫学诊断方法,为基因疫苗的研制提供备选实验材料.方法利用基因重组的方法,在大肠杆菌中表达了SARS冠状病毒(SARS-CoV)N蛋白全长基因,经包涵体的初步纯化,金属螯合层析进一步纯化N蛋白,SDS-PAGE电泳和ELISA方法进行结果检测.结果N蛋白抗原与30名SARS感染患者血清结合全部为阳性,对照组30名正常人血清为阴性,30名发热但非SARS患者血清为阴性.结论利用基因重组的方法对SARS-CoV N蛋白进行了表达和纯化,证明该重组N蛋白抗原具有良好的反应特异性,是良好的应用于病毒感染早期诊断的抗原.完全可用于组构检测核心抗体的诊断试剂.并建立了免疫学的检测方法,为抗体检测提供了安全、方便的手段,并为基因工程疫苗研究奠定了基础.     

SARS冠状病毒的起源和进化初探

发展了一种研究基因序列进化的随机替代模型,根据一组从某个最近共同祖先演化而来的若干序列,可以预测此共同祖先序列,并计算随机替代概率矩阵,确定了从祖先序列的各个碱基到进化序列的各个碱基之间的替代概率。将这一模型应用于分析包括SARS冠状病毒在内的4种冠状病毒全基因组的演化规律,确定了在若干较保守的编码蛋白基因序列中同义替代位点的最近共同祖先序列以及分歧进化后的累计同义替代数目。结果表明,SARS病毒和其他几种已知的冠状病毒具有相当的进化历程,但存在不同的进化途径,支持了SARS病毒在造成此次大规模感染人体之前已经历了较长的进化历程的猜测。