侵染稀硷的中国番茄黄化曲叶病毒及其卫星DNA全基因组结构特征

从云南红河稀硷上分离到病毒分离物Y64,全序列测定表明,Y64 DNA_A全长2730个核苷酸。基因组比较发现,Y64 DNA_A与中国番茄黄化曲叶病毒Y38分离物（TYLCCNV_［Y38］）同源性最高（99％）,与中国番茄黄化曲叶病毒广西分离物（TYLCCNV）的同源性次之（96％）,而与亚洲地区的其它双生病毒的同源性均在83％以下, 表明稀硷上的分离物Y64是TYLCCNV的1个分离物。利用DNAβ的特异性引物beta01和beta02,在病毒分离物Y64中扩增到卫星DNA分子（Y64β）。序列分析表明,Y64β全长1340个核苷酸,至少在其互补链上编码1个有功能的ORF（C1）。Y64β的全序列与TYLCCNV的各个分离物的卫星分子（Y38β、Y36β和Y8β）的同源性最高,分别为99.5％、99.5％和99.3％;与其它已报道的卫星DNAβ的同源性均低于66.4％。系统关系树研究表明,卫星DNAβ分子与其辅助病毒是共同进化的。     

从烟草上分离的中国番茄曲叶病毒及其卫星DNA全基因组结构特征

本研究从具有典型曲叶病症状的广西靖西烟草病植株上分离到病毒分离物JX-2,全基因组序列测定结果表明,JX-2 DNA-A 全长2 738个核苷酸,共编码6个开放阅读框架(open reading frames,ORFs),其中病毒链编码AV1 (CP)和AV2两个ORFs,互补链编码AC1、AC2、AC3和AC4 共4个ORFs.BLAST结果表明,JX-2 DNA-A与中国番茄曲叶病毒(Tomato leaf curl China virus,ToLCCNV)各分离物的相似性在93.0%~99.7%之间,其中与ToLCCNV广西番茄分离物ToLCCNV-G32的相似性最高,达99.7%,而与其它双生病毒的同源性均在88.0%以下,表明JX-2是ToLCCNV的一个分离物.基于JX-2和已报道的双生病毒属代表种DNA-A全基因组核苷酸序列构建的系统进化树显示,JX-2与ToLCCNV-G32分离物的亲缘关系最近,并与ToLCCNV其它分离物形成一个分支,而与其它10种双生病毒的亲缘关系均相对较远.利用双生病毒卫星DNAβ的特异性引物β01/β02在JX-2样品中扩增到DNAβ分子(JX-2β),全长为1 341个核苷酸,其互补链编码1个ORF (即βC1),并包含一个富含A序列和一个卫星病毒保守序列.序列分析表明,JX-2β与ToLCCNV伴随的DNAβ的相似性在91.0%~96.1%之间,其中与ToLCCNV-G61DNAβ和ToLCCNV-G18 DNAβ的相似性最高(96.1%),与其它卫星DNAβ的相似性均低于61.8%.基于JX-2β全基因组核苷酸序列构建的系统进化关系树显示,JX-2β与ToLCCNV G61分离物伴随的DNAβ亲缘关系最近,并形成一个独立的分支,再与ToLCCNV 其余两个分离物伴随的DNAβ形成一个较大的分支.这是首次报道从烟草中分离到的中国番茄曲叶病毒及其伴随卫星DNA分子的全基因组结构特征.     

侵染朱槿的木尔坦棉花曲叶病毒及其卫星DNA全基因组结构特征

从广州朱槿上分离到病毒分离物G6,全序列测定结果表明,G6 DNA-A全长为2 737个核苷酸.序列比较显示,G6 DNA-A与木尔坦棉花曲叶病毒(CLCuMV)各分离物的同源率均大于89%,其中与CLCuMV-[62]的同源率最高(96.1%),与拉贾斯坦棉花曲叶病毒(CLCuRV)的同源率87.1%～89.8%,而与其他菜豆金色花叶病毒属病毒同源率均在87%以下.DNA-A系统进化关系分析显示,G6与CLCuMV各分离物的亲缘关系最近,聚在一起形成一个分支,而与其他几种双生病毒的亲缘关系相对较远.利用DNAβ特异引物β01和β02,从G6中扩增到卫星DNA分子(DNAβ).序列分析结果表明,G6 DNAβ全长1 346个核苷酸,推导其互补链上编码一个ORF(C1).序列比较结果表明,G6 DNAβ与CLCuMV DNAβ的同源率最高(92.1%),与CLCuRV DNAβ的同源率为88.7%,而与其他已报道的DNAβ的同源率均在80%以下.DNAβ系统进化关系分析显示,G6 DNAβ与CLCuMV DNAβ形成一个独立的分支,再与CLCuRV及MYVV-[Y47]的DNAβ形成一个较大分支.从上述研究结果可以得出,侵染广东朱槿的病毒分离物G6应该是CLCuMV一个分离物.     

中国番茄黄化曲叶病毒——双生病毒的一个新种

用 2 0个单抗对中国番茄黄化曲叶病毒 (TYLCV CHI)和其他双生病毒进行了测定 ,在血清学水平上证实中国番茄黄化曲叶病毒与中国烟草曲叶病毒有较大的亲缘关系 ;同时报道了TYLCV CHI部分共同区、外壳蛋白N端基因和AV1基因的PCR及其克隆和序列分析 ,从分子水平上证实TYLCV CHI与世界各地的其他双生病毒不同 ,是一种新的粉虱传双生病毒     

番茄黄化曲叶病毒的快速分子检测

番茄黄化曲叶病毒是当前世界范围内危害番茄生产的毁灭性病害。文章针对番茄黄化曲叶病毒全基因组序列的特异区段自主设计了1对特异性PCR引物(上游引物TYLCV-F:5′-ACGCATGCCTCTAATCCAGTGTA-3′,下游引物TYLCV-R:5′-CCAATAAGGCGTAAGCGTGTAGAC-3′),依据PCR扩增特异片段543 bp的有无可以快速、准确、高效、特异地检测出是否感染了TYLCV病毒,这项技术可以方便地应用到工厂化育苗的带毒性检测、蔬菜大规模生产中植株发病情况的快速检测以及抗病毒育种,从而为蔬菜安全可持续生产提供科技支撑。     

番茄黄化曲叶病毒的快速分子检测

番茄黄化曲叶病毒是当前世界范围内危害番茄生产的毁灭性病害。文章针对番茄黄化曲叶病毒全基因组序列的特异区段自主设计了1对特异性PCR引物(上游引物TYLCV-F：5′-ACGCATGCCTCTAATCCAGTGTA-3′, 下游引物TYLCV-R：5′-CCAATAAGGCGTAAGCGTGTAGAC-3′), 依据PCR扩增特异片段543 bp的有无可以快速、准确、高效、特异地检测出是否感染了TYLCV病毒, 这项技术可以方便地应用到工厂化育苗的带毒性检测、蔬菜大规模生产中植株发病情况的快速检测以及抗病毒育种, 从而为蔬菜安全可持续生产提供科技支撑。     

番茄抗黄化曲叶病毒育种研究进展

本文分别对近年番茄抗黄化曲叶病毒的传统育种、分子辅助育种、基因工程育种进展进行了综述.栽培番茄均不抗番茄黄化曲叶病毒,所以传统育种采用从野生近缘种中筛选抗性材料,以其为亲本与栽培番茄进行杂交来获得抗性;野生近缘种中的抗性位点Ty-1、Ty-2和Ty-3及一些QTLs先后被定位,也筛选出了可鉴定Ty-1基因的SSR-47标记及鉴定Ty-3的SCAR标记;通过转基因技术获得抗性是研究热点之一,目前转入番茄后表现出抗性的序列有TYLCV病毒的CP基因、尺EP基因的部分序列或反义序列、不编码的保守序列以及源于白粉虱的GroEL基因.同时讨论了今后的主要发展方向.     

广东番茄曲叶病毒G2分离物基因组DNA-A的分子特征

从采集于广东的番茄曲叶病病株上分离到病毒分离物G2 ,序列分析结果表明 ,其DNA_A为单链环状 ,全长2 74 4nt,共有 6个ORF ,其中病毒链上编码AV1(CP)、AV2 ,互补链上编码AC1、AC2、AC3和AC4。BLAST结果显示 ,与G2基因组有同源关系的病毒均属双生病毒科菜豆金色花叶病毒属。序列比较结果显示 ,G2与菜豆金色花叶病毒属病毒的DNA_A序列同源率均不超过 83% ,其中同源率最高的是PaLCuCNV_[G10 ](82 8% )。进一步比较发现 ,它们的基因间隔区 (IR)变异最大 (同源率为 30 9%～ 81 8% ) ;CP氨基酸序列的同源率较高 (77 6 %～ 99 2 % ) ,AC4蛋白氨基酸序列的同源率较低 (4 3 5 %～ 78 8% )。系统进化关系分析结果也显示 ,G2与已报道的菜豆金色花叶病毒属病毒的亲缘关系均较远。因此 ,G2可能是双生病毒科菜豆金色花叶病毒属中一个未报道的新种 ,命名为广东番茄曲叶病毒 (TomatoleafcurlGuangdongVirus ,ToLCGDV)     

番茄黄化曲叶病毒对番茄叶片光合特性和叶绿体超微结构的影响

以番茄为试验材料,研究番茄黄化曲叶病毒(TYLCV)侵染对植株叶片叶绿素含量、净光合速率、气孔导度、胞间CO2浓度和叶绿体超微结构的影响.结果表明:TYLCV侵染番茄后,叶片叶绿素a、b以及总叶绿素含量分别下降50.2%、24.19%和43.84%,叶片净光合速率和气孔导度分别下降43.28%、27.07%,胞间CO2浓度增加13.04%.与健康叶片相比,叶绿体变形,叶绿体基质片层大部分消解,基粒结构消失,叶绿体外膜和内膜剥离,质壁分离和细胞膜内陷,细胞器消解.研究表明,TYLCV侵染破坏了番茄叶片的叶绿体结构,严重影响番茄叶片的光合作用.     

上海地区番茄黄化曲叶病毒病的鉴定及嫁接接种法研究

番茄黄化曲叶病毒(tomato yellow leafcurl virus,TYLCV)是一种由烟粉虱(Bemisia tabaci)和嫁接传播的双生病毒,在热带、亚热带地区给番茄生产造成严重威胁.根据番茄黄化曲叶病毒的保守序列设计一对引物,运用PCR技术从上海地区的感病番茄中扩增出一条575bp的特异带,而健康植株无此带.测序表明该序列与番茄黄化曲叶病毒具有极高的同源性(97%～99%).将健康接穗嫁接到感染番茄黄化曲叶病毒的番茄砧木上,间隔15 d和30 d,分别提取接穗的DNA,并用PCR法检测病毒,发现嫁接15 d后在部分接穗中检测到TYLCV病毒,嫁接30 d后在所有的接穗中均检测到病毒,因此,嫁接法可以作为番茄黄化曲叶病毒病的接种鉴定方法.     

Tomato yellow leaf curl virus and Tomato leaf curl Taiwan virus Invade South-east Coast of China

An epidemic outbreak of severe yellow leaf curl disease was reported in field grown tomato within Zhejiang Province of China in the autumn–winter cropping season of 2006. A molecular diagnostic survey was carried out based on comparisons of partial and complete viral DNA sequences. Comparison of partial DNA‐A sequences amplified with degenerate primers specific for begomoviruses confirmed the presence of two types of begomoviruses. The complete DNA sequences of five isolates, corresponding to the two types, were determined. Sequence comparisons and phylogenetic analysis revealed that they correspond to two previously identified begomoviruses, Tomato yellow leaf curl virus and Tomato leaf curl Taiwan virus. The satellite DNAβ molecule was not detected in these samples by either PCR or Southern blot hybridization analysis. There has been no previous report of geminivirus disease incidence in Zhejiang Province, indicating that the introduction of these two tomato infecting geminiviruses into the agro‐ecological zone of South‐eastern China is a fairly recent event. The implications for disease control are discussed.     

Tomato leaf curl geminivirus associated with cantaloupe yellow leaf disease in Thailand

Geminivirus associated with yellow leaf disease of cantaloupe plants was detected using polymerase chain reaction (PCR) with geminivirus-specific degenerate primers which anneal within the AC1 ORF (replication initiator protein gene) and the AV1 ORF (coat protein gene). A DNA fragment of 1.2 kbp was amplified, cloned and sequenced. The 32-base stem loop region was found in the amplified fragment. This included the conserved nonanucleotide sequence TAATATTAC present in all geminiviruses. The nucleotide sequence of the intergenic region (IR) was compared with 28 whitefly-transmitted geminiviruses. The geminivirus associated with yellow leaf disease of cantaloupe plants showed 96.2% sequence identity with DNA A of tomato leaf curl geminivirus from India (ToLCV-In2). These data suggest that cantaloupe yellow leaf disease was caused by ToLCV.     

Tomato yellow leaf curl virus DNA in callus cultures derived from infected tomato leaves

Callus cultures were induced from leaves of a tomato plant infected with tomato yellow leaf curl virus (TYLCV) and analyzed for viral DNA presence during successive subcultures. No TYLCV DNA was detected in calli sampled after eight months of culture. Considerable differences in the presence of TYLCV DNA were found within sectors of a callus culture and between different callus cultures, throughout the entire eight months period. Infected calli which were cultured at sub-optimal temperature (15°C) retained the viral DNA longer than at 25 °C. The results suggested that TYLCV disappearance during callus culture was due to a disruption of some of the cell-to-cell connections, resulting in islands of infected cells in the midst of uninfected tissue and/or to the competition between the rate of cell division and that of viral DNA replication.Abbreviations BA benzyladenine - CMV cucumber mosaic virus - NAA naphthaleneacetic acid - TMV tobacco mosaic virus - TYLCV tomato yellow leaf curl virus     

Molecular characterization of tomato leaf curl China virus, infecting tomato plants in China, and functional analyses of its associated betasatellite

A novel tomato-infecting begomovirus from Guangxi province, China, was identified and characterized, for which the name Tomato leaf curl China virus (ToLCCNV) was proposed. Phylogenetic and recombination analyses of the virus genomic sequences suggested that ToLCCNV may have arisen by recombination among Tomato leaf curl Vietnam virus (ToLCVV), Tomato leaf curl Gujarat virus (ToLCGV), and an unknown virus. A betasatellite molecule was found to be associated with ToLCCNV (ToLCCNB), and its complete nucleotide sequences were determined. Infectious clones of ToLCCNV and ToLCCNB were constructed and then used for agro-inoculation of plants; ToLCCNV alone infected Nicotiana benthamiana, Nicotiana glutinosa, Petunia hybrida, and Solanum lycopersicum plants, but no symptoms were induced. ToLCCNB was required for induction of leaf curl disease in these hosts. The βC1 protein of ToLCCNB was identified as a suppressor of RNA silencing and accumulated primarily in the nucleus. Deletion mutagenesis of βC1 showed that the central part of βC1 (amino acids 44 to 74) was responsible for both the suppressor activity and nuclear localization.     

The circulative pathway of begomoviruses in the whitefly vector Bemisia tabaci— insights from studies with Tomato yellow leaf curl virus

Our current knowledge concerning the transmission of begomoviruses by the whitefly vector Bemisia tabaci is based mainly on research performed on the Tomato yellow leaf curl virus (TYLCV) complex and on a number of viruses originating from the Old World, such as Tomato leaf curl virus, and from the New World, including Abutilon mosaic virus, Tomato mottle virus, and Squash leaf curl virus. In this review we discuss the characteristics of acquisition, transmission and retention of begomoviruses by the whitefly vector, concentrating on the TYLCV complex, based on both published and recent unpublished data. We describe the cells and organs encountered by begomoviruses in B. tabaci. We show immunolocalisation of TYLCV to the B. tabaci stylet food canal and to the proximal part of the descending midgut, and TYLCV‐specific labelling was also associated with food in the lumen. The microvilli and electron‐dense material in the epithelial cells of the gut wall were also labelled by the anti TYLCV serum, pointing to a possible virus translocation route through the gut wall and to a putative site of long‐term virus storage. We describe the path of begomoviruses in their vector B. tabaci and in the non‐vector whitefly Trialeurodes vaporariorum, and we follow the rate of virus translocation in these insects. We discuss TYLCV transmission between B. tabaci during mating, probably by exchange of haemolymph. We show that following a short acquisition access to infected tomato plants, TYLCV remains associated with the B. tabaci vector for weeks, while the virus is undetectable after a few hours in the non‐vector T. vaporariorum. The implications of the long‐term association of TYLCV with B. tabaci in the light of interactions of the begomovirus with insect receptors are discussed.     

烟粉虱及海氏桨角蚜小蜂对中国番茄黄化曲叶病毒感染烟草的嗅觉反应

双生病毒可通过调控寄主植物促进媒介昆虫烟粉虱种群增长,然而病毒侵染植物后是否通过调控植物挥发物来影响烟粉虱及其天敌的嗅觉反应还未见报道。【目的】本文旨在研究烟草植株感染中国番茄黄化曲叶病毒(Tomato yellow leaf curl China virus,TYLCCNV)后对烟粉虱Bemisia tabaci(Gennadius)及其重要寄生性天敌海氏桨角蚜小蜂Eretmocerus hayati(Zolnerowich and Rose)嗅觉反应行为的影响。【方法】利用Y形嗅觉仪方法,我们测试了烟粉虱及海氏桨角蚜小蜂对带毒植株、健康植株及烟粉虱危害植株的选择偏好性。【结果】烟粉虱及海氏桨角蚜小蜂选择携带TYLCCNV病毒的烟草显著多于健康烟草植株,但烟草被病毒与烟粉虱共同侵染时,烟粉虱对带毒烟草的选择仍显著多于无毒植株,而寄生蜂虽然仍较多选择带毒植株,但无显著差异。【结论】这些结果表明烟粉虱及海氏桨角蚜小蜂偏好选择携带TYLCCNV病毒的烟草,但这种偏好作用在烟粉虱取食共同危害时有一定程度的减弱。本研究首次报道了双生病毒侵染植物可增加烟粉虱及其天敌对植物的选择作用,并就其功能及机制进行了讨论。