一个引起玉米矮花叶病的甘蔗花叶病毒基因组全序列测定及其结构分析

测定了从浙江省呈现矮花叶病症状的玉米上分离得到的一个马铃薯Y病毒属病毒RNA的核苷酸全序列. 该病毒分离物的RNA基因组由9596个核苷酸组成(不包括polyA尾). 单一的ORF由9192个核苷酸组成, 编码一个分子量为346.1 ku的聚合蛋白. 该蛋白结构特征与高粱花叶病毒(SrMV)中国甘蔗分离物和一个玉米矮花叶病毒(MDMV)保加利亚分离物基因组编码的蛋白非常相似. 序列分析表明, 该病毒分离物与甘蔗花叶病毒(SCMV)各分离物(已报道的仅为基因组3′末端序列)同源性最高, 与SrMV和MDMV同源性次之, 而与约翰逊草花叶病毒(JGMV)同源性最低. 根据马铃薯Y病毒属区分不同病毒和株系的分类标准, 报道的玉米病毒分离物应当鉴定为SCMV的一个株系. 然而, 该分离物在HC-Pro, P3和CI蛋白区域和SrMV中国甘蔗分离物具有极高的氨基酸同源性.     

杭州地区发生的玉米花叶病由甘蔗花叶病毒引起

从杭州地区呈现玉米矮花叶典型症状的玉米病组织中提纯得到大量线状病毒粒子,大多数长度为750?nm。病组织中含有大量风轮状内含体和板状集结体。病毒外壳蛋白为33.6 kD。病毒RNA13’端序列(1.8 kb)与甘蔗花叶病毒(SCMV)同源性最高,达71.5%～99.1%,与高梁花叶病毒(SrMV)同源性次之,为67.8%～68.5%,与玉米矮花叶病毒(MDMV)同源性最低,仅为38.4%～48.4%,从而初步认为此病害由SCMV引起。根据已发表的SCMV外壳蛋白氨基酸序列作亲缘性分析,表明SCMV可分为美国、南非、澳大利亚;德国和中国三大类。     

由高粱花叶病毒和甘蔗花叶病毒引发的浙江甘蔗花叶病害

从浙江省5个地区采集表现花叶症状的甘蔗病叶,用马铃薯Y病毒科简并引物做PCR扩增及测序鉴定.序列分析表明,5个甘蔗样品均含有高粱花叶病毒(SrMV),其中3个样品中还存在甘蔗花叶病毒(SCMV)的复合侵染.序列比较和系统进化树分析表明,浙江甘蔗样品中的SrMV序列彼此很相似,核苷酸同源性大于93%,与已报道的4个美国分离物在CP区域同源性很高,但是3′非编码区的同源性却仅为70%左右.SCMV欧洲和中国玉米分离物及美国、南非和澳大利亚甘蔗分离物分别形成两个远缘群体,浙江甘蔗分离物群体位于两者之间;群体间CP氨基酸序列同源性均大于80%.甘蔗和玉米上的SCMV差异明显,多为无义突变.     

杭州地区发生的玉米花叶病由甘蔗花叶病毒引起

从杭州地区呈现玉米矮花叶典型症状的玉米病组织中提纯得到大量线状病毒粒子,大多数长度为750nm。病组织中含有大量风轮状内含体和板状集结体,病毒外壳蛋白为33.6kD。病毒RNA1 3'端序列（1.8kb）与甘蔗茶花经叶病毒（SCMV）同源性最高,达71.5%-99.1%,与高梁花叶病毒（SrMV）同源性次之,为67.8%-68.5%,与玉米矮花叶病毒（MDMV）同泊性最低,仅为38.4%-48.4%,从而初步认为此病害由SCMV引起。根据已发表的SCMV外壳蛋白氨基酸序列作亲缘性分析,表明SCMV可分为美国、南非、澳大利亚、德国和中国三大类。     

甘蔗花叶病毒3‘末端基因的克隆及外壳蛋白序列分析比较

选取我国SCMV优势株系A株系的分离物SCMV－CA为材料,经过病毒和病毒RNA的提纯,反转录获得病毒cDNA,并克隆到载体pUC19的SmaⅠ位点上,筛选得到多个重组质粒,选取其中一个克隆SCMV－CA54进行测序,得到一个全长为1296bp的苷酸序列,这段序列由一个长为1044bp的开放阅读框架（ORF）和一个长279bp的3‘末端非编码区序列（3‘-UTR)及poly（A）尾巴组成。这个ORF包括病毒完整的外壳蛋白（CP）及部分核内含体蛋白（b(NIb）基因序列,将所得序列同已知SCMV亚组中各株系分离物的核苷酸和氨基酸进行同源性比较,结果表明该序列与其它株系分离的CP核苷酸序列的同源性介于63.7％－77.6％之间,氨基酸的同源性介于64％－89％之间。根据马玲薯Y病毒属的序列同源性划分标准,SCMV－CA与其它株系或分离物的同源性关系均介于种与株系进分标准之间,这是我国首次报道SCMV CP基因序列。     

大麦黄矮病毒GAV基因组全序列测定及其结构分析

测定了在中国分离得到由麦二叉蚜和麦长管蚜传播的大麦黄矮病毒GAV的基因组核苷酸全序列, 该病毒分离物的RNA由5685个核苷酸组成, 内含6个开放阅读框架(ORF)和4个非编码区(UTR), 基因组大小和结构与黄症病毒属(Luteovirus)的大麦黄矮病毒PAV(BYDV-PAV)和MAV(BYDV-MAV)相似. 序列分析表明, 它与BYDV-MAV的PS1分离物基因组序列的同源性最高. 在6个开放阅读框架中, 除ORF6核苷酸序列同源性为72.0%外, 其他ORF的核苷酸序列同源性均大于90%. 两者全基因组的同源性为90.4%. 推导的编码产物氨基酸序列同源性除P6和通读蛋白(RTP)分别为67.4%和87.4%外, 其他均大于90%, 其中外壳蛋白(CP)为95.5%. 根据与BYDV-MAV的相似性, BYDV-GAV应是一种与BYDV-MAV类似的病毒.     

大豆花叶病毒外壳蛋白基因的克隆和其在大肠杆菌中的表达

通过多聚酶连锁反应(PCR),我们合成了包括病毒外壳蛋白基因在内的病毒基因组3’端区域,并完成了其全部序列分析,比较SMV(北京分离物)和SMv—N株的序列发现;外壳蛋白基因的核苷酸序列同源性达93．D％,其氨氢基酸序列同源性高达98．5％,就基因组3,端非编码序列而言,其同源性达88．8％。Western b1ot分析结果表明所克隆的cDNA片段在大肠杆菌JMl07中能表达正常的病毒外壳蛋白。     

浙江和河北发生的一种水稻、小麦、玉米矮缩病是水稻黑条矮缩病毒引起的

以浙江省的水稻黑条矮缩病和河北省的玉米粗缩病的病毒分离物为材料,对我国南北方两种病毒分离物进行了比较研究。两种病毒分离物的粒子大小形态相似,且在血清学上密切相关;二者的介体、寄主相同,并引起相同的症状,提纯两种病毒分离物的基因组片段凝胶电泳显示它们相应的基因组片段之间大小极相似。根据水稻黑条矮缩病毒（Rice black strecaked dwarf virus),RBSDV的S7和S8设计引物,利用PR－PCR技术,在两种病毒分离物中均可特异扩增到预期大小的片段,序列测定比较分析表明：它们的同源性达97．0％－98．9％,与日本RBSDV的同源性（92．2％－95．5％）高于与意大利MRDV的同源性（76．6％－88．4％）。从而认为我国南方的水稻黑条矮缩病和北方和玉米粗缩病都是同一种病毒－RBSDV引起的,也就是说我国北方的玉米粗缩病病原实际上是水稻黑条矮缩病毒,而不玉米粗缩病毒。     

水稻黑条矮缩病毒基因组片段S7的cDNA克隆及全序列分析

应用RTPCR技术克隆了2个水稻黑条矮缩病毒 (rice blackstreaked dwarf virus,RBSDV)中国分离物,即浙江分离物和河北分离物的基因组片段S7,并测定了他们的全序列。结果表明：RBSDV浙江分离物(RBSDVZj)基因组片段S7全长2193nts(EMBL登录号为AJ297427),RBSDV河北分离物基因组片段S7全长2190nts(EMBL登录号为AJ297428),二者均含有两个开放阅读框(open reading frame,ORF),分别编码约41kD和36kD多肽,2个中国分离物核苷酸同源性高达99%,相应的ORF编码的多肽同源性分别为100%和94.4%,与日本RBSDV基因组片段S7核苷酸同源性为93.4%和93.8%,相应ORF编码的多肽同源性分别为98.1%(ORF1)、96.5%和97.8%(ORF2),与意大利MRDV S6核苷酸同源性为85.1%和85.3%,相应多肽同源性分别为92.3%(ORF1)、85.5%和86.8%(ORF2)。     

马铃薯X病毒湖南分离物的鉴定与分组研究

从湖南石门采集表现重花叶症状的马铃薯叶片中分离纯化到一株线状病毒HN021。经双链RNA(ds—RNA)抽提、寄主反应测定、病毒粒子和内含体的形状观察,初步确定该病毒为马铃薯X病毒(Potato virus X)。以ds—RNA作为模板,用相应引物对HN021分离物的ORF4-UTR-ORF5片段进行RT—PCRP得到1kb左右的双链cDNA片段。对该片段进行克隆和测序,并将测序所得的核苷酸序列与Genbank(登录的11株不同分离物的相应片段的核苷酸序列进行同源性比较和分析。结果表明,HN021与分离自南美洲的三株分离物(COAT,KPA和HB)的同源性为78．4％—79．4％,与其它8株(分离自亚洲、欧洲、大洋洲和北美洲)分离物的同源性为96．4％—97．8％。从氨基酸水平比较,HN021与COAT,KPA和HB三者CP和8kDa蛋白氨基酸序列同源性分别为86．5％—89．0％和74．3％—75．7％,相应地与其它8株分离物的同源性分别为97．1％—98．7％和97．1％—100％。序列分析的结果证实了HN021分离物为马铃薯X病毒,同时表明PVX明显存在两个组(组Ⅰ和组Ⅱ),HN021和其它来自亚洲、欧洲、大洋洲、北美洲分离物的组Ⅱ,3个南美洲分离物属于组Ⅰ。     

Evolutionary relationship of alfalfa mosaic virus with cucumber mosaic virus and brome mosaic virus

The amino acid sequences of the non-structural protein (molecular weight 35,000; 3a protein) from three plant viruses — cucumber mosaic, brome mosaic and alfalfa mosaic have been systematically compared using the partial genomic sequences for these three viruses already available. The 3a protein of cucumber mosaic virus has an amino acid sequence homology of 33.7% with the corresponding protein of brome mosaic virus. A similar protein from alfalfa mosaic virus has a homology of 18.2% and 14.2% with the protein from brome mosaic virus and cucumber mosaic virus, respectively. These results suggest that the three plant viruses are evolutionarily related, although, the evolutionary distance between alfalfa mosaic virus and cucumber mosaic virus or brome mosaic virus is much larger than the corresponding distance between the latter two viruses.     

Characterization and Complete Nucleotide Sequence of Two Isolates of Tomato mosaic virus

Two virus isolates, designated S1 and TL, were obtained from tomato and camellia root in China, respectively, and their host ranges, symptomatology, serological reactions and complete nucleotide sequences were determined. Isolate TL systemically infected Chenopodium amaranticolor causing leaf chlorosis, but the isolate S1 induced only local necrotic lesions. The complete nucleotide sequences of S1 and TL were determined and consisted of 6384 and 6383 nucleotides (Genbank accessions AJ132845 and AJ417701 ), respectively. Sequence analysis revealed that both isolates have the highest nucleotide sequence identity (over 92%) with Tomato mosaic virus (ToMV), but less (80%) with other tobamoviruses. Phylogenetic analyses based on the amino acid sequences of 30‐kD and 17.5‐kD proteins also indicated that both the isolates form a cluster with the isolates of ToMV. These data suggest that S1 and TL are isolates of ToMV. The possible reasons that TL infected C. amaranticolor systemically but S1 induced only local necrotic lesions are discussed.     

大豆花叶病毒黄淮5号株系的基因组全序列分析

测定了大豆花叶病毒(SMV)我国黄淮5号(Y5)株系的基因组全序列.该病毒基因组全长9*!585个核苷酸,3′-末端具poly(A)尾,包含单一开放读码框,编码一个349.2kD的多聚蛋白.基因组全序列和美国SMV G2和G7株系的核苷酸同源性分别为97.4%和96.9%.多聚蛋白酶解后产生马铃薯Y病毒属典型的10个成熟蛋白.Y5、G2和G7 3个株系的不同成熟蛋白间氨基酸序列的同源性为89.6%～100%.多重比较分析表明,Y5株系P1蛋白N-末端区域与G2和G7存在明显差异.进一步分析显示,这3个株系的6K1、6K2、NIa-Pro、NIa-VPg、NIb蛋白中心区域和CP蛋白高度保守,P1蛋白N-末端,CI和P3蛋白C-末端以及HC-Pro蛋白变异较大,但是美国G2和G7株系已报道序列P1蛋白区域存在可能的测序错误.     

莴苣花叶病毒浙江余杭分离物基因组全序列及其结构分析

测定了莴苣花叶病毒(LMV)浙江余杭分离物基因组全序列.此病毒分离物基因组由10*!080个核苷酸组成,具典型的马铃薯Y病毒科成员基因组结构,与已报道的欧洲、美国和巴西LMV核苷酸同源性为96.7%～98.8%,氨基酸同源性97.8%～99.0%.根据外壳蛋白氨基酸序列和5′端非编码区核苷酸序列分析比较及分子进化树分析,可将全球LMV分为西欧-加利福尼亚、希腊和也门3个类群.LMV有可能起源于加利福尼亚州向西欧,进而向希腊和也门扩展,浙江余杭LMV有可能来源于加利福尼亚州和西欧.     

Inheritance of resistance to potyviruses in Phaseolus vulgaris L. IV. Inheritance, linkage relations, and environmental effects on systemic resistance to four potyviruses

We have examined the genetics of systemic resistance in Phaseolus vulgaris to azuki bean mosaic virus (AzMV) and cowpea aphid-borne mosaic virus (CABMV) and the relationship of this resistance to a phenotypically similar resistance to watermelon mosaic virus (WMV) and soybean mosaic virus (SMV). In P. vulgaris cv Great Northern 1140 (GN1140), resistance to SMV and WMV has been attributed to the genes Smv and Wmv, respectively, which have been shown to segregate as a unit. Systemic resistance to AzMV is conferred by two incompletely dominant alleles, Azm1 and Azm2, at unlinked loci. At least three resistance alleles must be present at these two loci for systemic resistance to be expressed in the plant. Systemic resistance to CABMV in GN 1140 is conditioned by a dominant allele that has been designated Cam2. Under some environmental conditions, a recessive allele at an unlinked locus, cam3, also controls a resistant response to CABMV. Resistance to AzMV and CABMV does not assort independently from Wmv/Smv, but also does not consistently cosegregate, suggesting that perhaps in each case one of the factors involved in resistance is associated with Smv/Wmv.     

Complete nucleotide sequence and genome organization of tobacco mosaic virus isolated from Viciafaba

Based on reported TMV-U1 sequence, primers were designed and fragments covering the entire genome of TMV broad bean strain (TMV-B) were obtained with RT-PCR. These fragments were cloned and sequenced and the 5' and 3' end sequences of genome were confirmed with RACE. The complete sequence of TMV-B comprises 6 395 nucleotides (nt) and four open reading frames, which correspond to 126 ku (1 116 amino acids), 183 ku (1 616 amino acids), 30 ku (268 amino acids) and 17.5 ku proteins (159 amino acids). The complete nucleotide sequence of TMV-B is 99.4% identical to that of TMV-U1. The two virus isolates share the same sequence of 5', 3' non-coding region and 17.5 K ORF, and 6, 1 and 3 amino acid changes are found in 126 K protein, 54 K protein and 30 K protein, respectively. The possible mechanism on the infection of TMV-B in Vicia faba is discussed.     

Homology between the proteins encoded by tobacco mosaic virus and two tricornaviruses

Summary A comparison was made of the amino acid sequences of the proteins encoded by RNAs 1 and 2 of alfalfa mosaic virus (A1MV) and brome mosaic virus (BMV), and the 126K and 183K proteins encoded by tobacco mosaic virus (TMV). Three blocks of extensive homology of about 200 to 350 amino acids each were observed. Two of these blocks are located in the A1MV and BMV RNA 1 encoded proteins and the TMV encoded 126K protein; they are situated at the N-terminus and C-terminus, respectively. The third block is located in the A1MV and BMV RNA 2 encoded proteins and the C-terminal part of the TMV encoded 183K protein. These homologies are discussed with respect to the functional equivalence of these putative replicase proteins and a possible evolutionary connection between A1MV, BMV and TMV.     

黄瓜花叶病毒香蕉株系（CMV—Xb）RNA3cDNA的克隆和序列分析

通过PR－PCR方法,设计两对引物,克隆了黄瓜花叶病毒香蕉株系（CMV-Xb)RNA3,并进行了核苷酸和蛋白质水平上的分析,结果表明Xb株系RNA3全长2205nt,具有两个蛋白编码阅读框型架（ORF）,其中5'端（97－936nt)编码一个279aa的3a蛋白;3'端（1225－1871nt)编码一个2188aa的CP蛋白。5'非编码域为96nt;其因间隔区（IR）长288nt;3'NR含有324nt。通过与亚组Ⅱ其它株系RNA3核苷酸和所编码产物推导的氨基酸序列分析发现,亚组Ⅱ株系无论在编码区还是非编码区的核苷酸同源性都相对较高;亚组Ⅱ株系在进化过程中具有连续性。     

Characterization of cymbidium mosaic virus coat protein gene and its expression in transgenic tobacco plants

Cymbidium mosaic virus (CyMV) is the most prevalent virus infecting orchids. Here, we report the isolation of partial cDNA clones encoding the genomic RNA of CyMV. Like most of the polyadenylated monopartite positive-strand RNA viruses, the open reading frame (ORF) coding for the viral coat protein (CP) is located at the 3 end. The ORF predicts a polypeptide chain of 220 amino acids with a molecular weight of 23 600. Sequence comparison of this ORF to the CP sequences of potato virus X(PVX) and white clover mosaic virus (WCIMV) revealed a strong amino acid homology in the mid-portion of the CP, but the overall homology was low. The CyMV CP gene was placed downstream of a cauliflower mosaic virus 35S promoter and the chimaeric gene was transferred into Nicotiana benthamiana. Transgenic plants expressing the CyMV CP were protected against CyMV infection.