全基因组序列的系统发育与重组分析鉴定我国马铃薯Y病毒株系

为明确我国马铃薯Y病毒(Potato virus Y,PVY)株系组成及其在不同寄主上的分布特征,文章对31条PVY中国分离物的基因组编码区进行了系统发育及重组分析。系统发育分析结果显示,最大似然法(maximum likelihood,ML)和邻接法(neighbor-joining,NJ)重建的系统发育拓扑结构基本一致,GF_YL20、FZ10、DF、SD1、1116和9703-3等6个分离物均未与已知株系相聚,其他株系来源相同的分离物以较高的自展值相聚成簇,显示出较强的株系特异性。重组分析显示,31个PVY分离物中,共有28个PVY分离物均检测到具有显著的重组信号,这些分离物主要包括PVY~(N-Wi)、PVY~(NTN)和PVY~(NTN-NW)三种株系。进一步分析显示,分离物1104、DF、SD1、1116和9703-3为未报道过的PVY新重组分离物。株系统计结果显示PVY重组株系已上升为优势株系,生产上需要密切注意这些株系,尤其新重组分离物的发展动态。以上结果表明,综合应用PVY全基因组序列的系统发育和重组分析,可以实现PVY株系的准确鉴定。     

马铃薯病毒一步法多重RT-PCR检测技术的构建

根据马铃薯病毒PVX、PVY、PVA、PLRV的CP基因序列设计4对特异性引物,通过对试剂浓度和反应条件进行优化,建立了能够同步检测PVX、PVY、PVA、PLRV的一步法多重RT-PCR检测方法。该方法对PVX、PVY、PVA、PLRV扩增出的靶带大小分别为732、422、132和336 bp,凝胶电泳易辨别区分。病毒RNA最低检测限度为7.8 pg/μL,对PVM、PVS、AMV、TMV及PSTVd的扩增为阴性。研究结果表明,该方法特异、灵敏,比两步法多重RT-PCR检测更加快速、简便,提高了检测效率,降低检测成本,为马铃薯病毒的高效检测提供了有效手段。     

Characterization of Viruses Infecting Potato Plants from a Single Location in Shetland,an Isolated Scottish Archipelago

Sequence data were obtained from 29 isolates of Potato virus A (PVA), Potato virus S (PVS), Potato virus V (PVV) and Potato virus X (PVX) infecting nine tubers from Shetland, one of the most remote inhabited islands in the United Kingdom. These isolates were sequenced in the coat protein region, as were 29 Scottish mainland isolates of the same four potato virus species, and these 58 isolates were compared to previously published sequence data. This has allowed the characterization of viruses from a relatively isolated location, where there is little production of ware potatoes and no seed potato production. Phylogenetic homogeneity of the Shetland isolates of PVS and PVV was apparent. PVX was more heterogeneous, and Shetland isolates cluster with the Scottish isolates in a group which includes Asian and European isolates. For PVA, the majority of the Shetland and Scottish mainland isolates formed a predominantly Scottish grouping, with the remaining Shetland and Scottish mainland isolates clustering with a previously characterized Scottish isolate. There were three main groups of PVA, of which the Scottish grouping was the only one which did not have a fully characterized representative. To extend the characterization of PVA, the nucleotide sequence of the full polyprotein region encoding all the gene products of an isolate from Shetland was determined.     

Potato virus Y Strain Spectrum in New Zealand – Absence of Recombinant N:O Strains

Potato virus Y (PVY) is a serious plant pathogen, causing severe yield losses worldwide on members of the Solanaceae, including potato, pepper, tomato and tobacco. During the last two decades new virus strains have been detected, including those representing recombinants between N- and O-strains, now designated PVY^NTN and PVY^N-Wilga, respectively. The question of whether recombination is easily induced in nature by mixed infections of potato might be answered by an investigation of strains appearing under isolated conditions such as those in New Zealand. More than 30 PVY isolates collected during the last 20 years were characterized biologically, serologically and using molecular biological approaches. The New Zealand population of PVY isolates was mainly composed of PVY^N and PVY^O. To date no recombinant strains have been found among the isolates tested. Similarly, experiments performed with these isolates on potatoes under greenhouse conditions with mixed infection PVY^N/PVY^O did not result in signs of recombination. This raises the question as to the driving force for the appearance of recombinant strains. It also demonstrates the efficacy of plant quarantine measures in New Zealand over the past 20 years.     

Experimental and natural weed host-virus relations

Weeds, as alternative hosts of plant viruses and nutrient plants of virus vectors play important role in virus ecology and epidemiology. The aim of our study was to discover new weed-virus relations. Therefore some weed species were mechanically inoculated with 28 viruses (strains or isolates) maintained in our glasshouse. Different weed species with and without visible symptoms were collected from agro-, water ecosystems and wastelands of Hungary between 1997 and 2003. Virus infections were evaluated by biotests, DAS ELISA serological methods, electronmicroscopy and immunosorbent electronmicroscopy (ISEM). Under glasshouse conditions Ambrosia artemisifolia was considered as a virophob species, showing resistance to all viruses listed above. A series of new artificial (Chenopodium album--SoMV (LH+SH)*, AMV (LH+SH); C. berlandieri--PVY(NTN) (LH), AMV (LH+SH), CMV (LH), SoMV (LH+SH), ObPV (LH+SH), ZYMV-10 (LH): C. ugandae--ObPV (LH), SoMV (L); C. glaucum--ObPV (LH), SoMV (L); Echinocystis lobata--PVX (L), ZYMV (LH+SH); Solanum nigrum--MYFV (LH+SH), PVY(N) (L), PVY(NTN) (LH+SH), SoMV (LH), TMV (SH), CMV (SH); S. dulcamara--CMV-U/246 (SH), PVY(NTN) (LH), SoMV-H (L), TMV-O (L); S. luteum--PVY(N) (SH), PVY(NTN) (LH+L), TMV(SH).) and natural (Asclepias syriaca--TMV, AMV, TSWV; Alisma plantago-aquatica--PVY, SoMV; Ambrosia artemisiifolia--CMV; Chenopodium album--CMV, PVS, PLRV; C. hybridum--CMV; Cirsium canum--CMV, PVM; Carex vulpina--CMV; Comium maculatum--PVY; Datura stramonium--PVA, PVX, PVS, PVM, CMV, TMV; Lysimachia vulgaris--ArMV, BNYVV, CMV, TMV; Lythrum salicaria--ArMV; Malva neglecta--CMV; Mercurialis annua--SoMV; Solanum nigrum--CMV, PVY, PVY(N); Solidago gigantea--CMV, RpRSV, BNYVV; Stenactis annua--PVM, PVA) weed--virus relations were detected. The epidemiological role of perennial hosts (A. syriaca, A. planlago aquatica, C. canurm, L. vulgaris, L. salicaria, S. gigantea) is especially high, because they can serve as infection sources as well as overwintering hosts of different plant viruses.     

A multiplex PCR approach to simultaneously genotype potato towards the resistance alleles Ry-f sto and Ns

A simple and robust multiplex PCR approach was developed for detection of the alleles Ry-f _sto and Ns conferring resistance of potato to Potato Virus Y (PVY) and Potato Virus S (PVS), respectively. Cleaved amplified polymorphic sequence (CAPS) markers GP122₅₆₄ linked to Ry-f _sto and SC811₂₆₀ linked to Ns were amplified in one PCR reaction and identified after simultaneous digestion of the amplicons with restriction enzymes EcoRV and MboI. Effectiveness of this procedure for marker-assisted selection was confirmed in 55 potato cultivars.     

Interactions of the Solanum spp. of the Etuberosa group and nine potato-infecting viruses and a viroid

All 26 accessions of Solanum brevidens, one accession of S. etuberosum and one accession of S. fernandezianum tested were all extremely resistant to potato leafroll virus (PLRV) and potato viruses Y (PVY) and A (PVA). S. brevidens and S. etuberosum were also resistant to Andean potato mottle virus (APMV) and moderately resistant to potato virus X (PVX), whereas S. fernandezianum was susceptible to these viruses. Additionally, S. brevidens was resistant to sap-inoculated potato viruses M (PVM) and S (PVS). All the Etuberosa accessions were susceptible by graft-inoculation to PVM, PVS, potato virus T (PVT) and Andean potato latent virus (APLV). Infections by the above mentioned viruses were symptomless in all of the Etuberosa spp. S. etuberosum and S. fernandezianum were infected by mechanical inoculation with potato spindle tuber viroid, S. etuberosum developing severe stunting and leaf-curl symptoms, but S. brevidens was infected only by graft-inoculation. The genes conferring resistance to PVY and PVX in S. brevidens and S. etuberosum appeared to be different from those currently utilised by plant breeders.     

Improved Dot-Blot Hybridization Assay for Large-Scale Detection of Potato Viruses in Crude Potato Tuber Extracts

Abstract A rapid and simple technique has been developed to enhance the sensitivity of virus detection in dot-blot hybridization assay by up to 1000 fold. The procedure generally follows that of B aulcombe et al. (1984) but includes moderate heating of the nitrocellulose filter in 10XSSC, 0.5% SDS solution at 55°C after sample application. Using this procedure, four potato viruses (PVX, PVS, PVM and PVY) were detected with cloned virus-specific ³²P-cDNA probes in 2 μl spots containing 0.2–2 pg of purufied virus (0.1–1 ng/ml). The procedure was also successfully applied for the detection of PVX, PVS, PVM and PVY in crude potato tuber extracts.     

Incidence and altitudinal distribution of 13 virus cultures in Solanum tuberosum (Solanaceae) from Costa Rica

A survey was conducted in 30 fields located at three different altitudes in Cartago, Costa Rica's main potato producing area. Twenty plants were sampled per farm, for a total of 600 samples with 200 samples per altitude. ELISA was used with commercial reagents to independently test for PVX, PVY, PVM, PVA, PVS, PLRV, PMTV, PAMV, PVV, PVT, APLV, APMoV and TRSV. The presence of the following viruses was determined: PVX (77 %), PAMV (62 %), PLRV (42 %), TRSV (42 %), PVT (39 %), PVV (37 %), PMTV (31%), PVY (30 %), PVS (19 %), PVM (13 %), PVA (8 %), and APMoV (8%). APLV was not detected in any sample. This is the first report in Costa Rica of the presence of the viruses PMTV, PAMV, PVV, PVT and APMoV. A high viral incidence in the tuber seed production area as well as a high rate of mixed infections is reported.     

用IgG指示试纸同时检测多种马铃薯病毒病

用硝基纤维素膜(NCM)为载体制备的抗体IgG指示试纸,可同时检测马铃薯X病毒(PVX)、马铃薯Y病毒(PVY)、马铃薯S病毒(PVS)和马铃薯卷叶病毒(PLRV)的感染。以pH10.0的1％甘氨酸溶液为PVX、PVY和PVS的研磨缓冲液,比已报道的缓冲液效果好。在提取病毒抗原时加入4％纤维素酶,可提高病毒得率及所制备的抗血清灵敏度。     

Distribution and accumulation of PVM and PVY,PVX in infected potato plants

The ability of PVM, PVY and PVX viruses and their progeny to distribute themselves and accumulate in primary infected potato plants by mono‐ and mixed infections is analysed. It is shown, that the transport and accumulation of virus in inoculated potato plants depends on variety resistance, combination of viruses and sequence of their application.     

Strain specificity and simultaneous transmission of closely related strains of a Potyvirus by Myzus persicae

Potato virus Y (PVY), a Potyvirus, is transmitted by aphids in a nonpersistent manner. PVY severely affects potato production worldwide. Single and mixed infections of PVY strains, namely PVY(O), PVY(NTN), and PVY(N:O) are a common occurrence in potato systems. However, information available on the ability of aphids to simultaneously transmit multiple PVY strains, specificity associated with simultaneous transmission, and factors affecting specificity are limited. Aphid-mediated transmission experiments were conducted to test the ability of individual aphids to transmit multiple strains using a PVY indicator host. Preliminary results revealed that aphids can transmit at least two viral strains simultaneously. Subsequently, aphid-mediated transmission of three dual-strain combinations was tested using potato plants. Individual aphids transmitted two viral strains simultaneously for all three dual-strain combinations. In all aphid-mediated dual-strain infections involving PVY(NTN), the rate of PVY(NTN) infection was greater than the infection rates of the second strain and dual-strain combinations, indicating specificity associated with transmission of PVY strains. Results of aphid-mediated transmission experiments were compared with results obtained through mechanical transmission. In general, PVY infection rates from aphid-mediated transmission were lower than the rates obtained through mechanical transmission. Unlike aphid-mediated transmission, component strains in dual-strain inoculations were not eliminated during mechanical transmission. These results suggest that there may also be interference associated with aphid-mediated transmission of closely related PVY strains. Perhaps, the observed specificity and/or interference may explain the increase in the incidence of PVY(NTN) and other necrotic strains in recent years.     

Generation of virus‐resistant potato plants by RNA genome targeting

CRISPR/Cas systems provide bacteria and archaea with molecular immunity against invading phages and foreign plasmids. The class 2 type VI CRISPR/Cas effector Cas13a is an RNA‐targeting CRISPR effector that provides protection against RNA phages. Here we report the repurposing of CRISPR/Cas13a to protect potato plants from a eukaryotic virus, Potato virus Y (PVY). Transgenic potato lines expressing Cas13a/sgRNA (small guide RNA) constructs showed suppressed PVY accumulation and disease symptoms. The levels of viral resistance correlated with the expression levels of the Cas13a/sgRNA construct in the plants. Our data further demonstrate that appropriately designed sgRNAs can specifically interfere with multiple PVY strains, while having no effect on unrelated viruses such as PVA or Potato virus S. Our findings provide a novel and highly efficient strategy for engineering crops with resistances to viral diseases.     

A new lineage sheds light on the evolutionary history of Potato virus Y

Potato virus Y (PVY) is one of the rare plant viruses for which some biological traits (host range and symptomatology) are highly correlated with phylogeny, allowing the reconstruction of the evolutionary history of these traits. In this article, a new lineage of PVY isolates from Chile is described, showing unique genomic and biological properties. This lineage was found to be the sister group of all other PVY isolates and helped in the reconstruction of the ancestral traits and evolutionary history of PVY, suggesting that veinal necrosis in tobacco is an ancestral state and that adaptation to pepper ( Capsicum spp.) and potato ( Solanum tuberosum ) has been modified several times during PVY history.     

The Effect of the Sequence of Infection of the Causal Agents of Sweet Potato Virus Disease on Symptom Severity and Individual Virus Titres in Sweet Potato cv. Beauregard

Sweet potato virus disease (SPVD) is caused by dual infection of plants with Sweet Potato Feathery Mottle Virus (SPFMV) and Sweet Potato Chlorotic Stunt Virus (SPCSV). Because SPFMV and SPCSV are transmitted by aphids and whiteflies, respectively, infection in nature occurs independently rather than simultaneously. To investigate the effect of consecutive infection on symptom development and individual virus titres, plants infected with a single virus were later inoculated with the second virus. Symptoms were significantly more severe in plants infected with SPCSV followed by SPFMV compared to plants infected with SPFMV followed by SPCSV. Virus titres were not significantly different for SPCSV, but SPFMV titres, in plants infected with SPCSV followed by SPFMV, were significantly higher than all other treatments. The results indicate that the sequence of infection of sweetpotato plants with the causal agents of SPVD influence the severity of symptoms and SPFMV titres in SPVD affected plants.     

Preliminary survey of potato virus Y (PVy) strains in potato samples from Kurdistan (Iran)

Potato virus Y (PVY) is the type species in the potyvirus genus of the family potyviridae. This plant pathogenic virus is transmitted through plant sap inoculation by stem and core grafting and by at least 25 aphid species in a non-persistent manner. According to potato specialists in most parts of the world, PVY is currently considered as the most harmful virus in cultivated potatoes. This is also the case for potato production in Iran. In this project we investigated potato leaves that were collected in the Kurdistan province in Iran for the presence of PVY with use of different biochemical/molecular techniques as ELISA, RT-PCR and qPCR. The different PVY strains, including PVY-O, PVY-N, PVYN-TN, PVY-NWi, were determined by using a triplex RT-PCR. In conclusion, the results demonstrated the presence of PVY-NWi strains in the potato leaf samples from Kurdistan (Iran). The data are discussed in relation to prevalence of PVY strains in Iran.     

Phylogeography and molecular evolution of potato virus Y

Potato virus Y (PVY) is an important plant pathogen, whose host range includes economically important crops such as potato, tobacco, tomato, and pepper. PVY presents three main strains (PVY(O), PVY(N) and PVY(C)) and several recombinant forms. PVY has a worldwide distribution, yet the mechanisms that promote and maintain its population structure and genetic diversity are still unclear. In this study, we used a pool of 77 complete PVY genomes from isolates collected worldwide. After removing the effect of recombination in our data set, we used bayesian techniques to study the influence of geography and host species in both PVY population structure and dynamics. We have also performed selection and covariation analyses to identify evolutionarily relevant amino acid residues. Our results show that both geographic and host-driven adaptations explain PVY diversification. Furthermore, purifying selection is the main force driving PVY evolution, although some indications of positive selection accounted for the diversification of the different strains. Interestingly, the analysis of P3N-PIPO, a recently described gene in potyviruses, seems to show a variable length among the isolates analyzed, and this variability is explained, in part, by host-driven adaptation.     

马铃薯Y病毒pl基因的克隆与序列分析

利用依据马铃薯Y病毒(PVY)pl基因序列设计合成的一对引物YP1,YP2,以带毒烟草总RNA为模板,通过RT-PCR方法扩增得到了0.83kb的目的条带,测序结果表明为PVY pl基因。通过对PVY P1蛋白氨基酸序列分析发现PVY不同分离物间P1蛋白氨基酸序列存在明显差异,氨基酸序列同源性在64％～94％间。依据P1蛋白氨基酸序列建立了PVY系统关系树并对PVY进行了类型分析。