马铃薯Y病毒在种薯中检出率及其株系鉴定

马铃薯是我国重要粮食和经济作物。马铃薯Y病毒(potato virus Y,PVY)是危害马铃薯生产的重要病害。种植脱毒种薯是防治PVY最有效的途径。马铃薯种薯携带PVY问题严重,但种薯中PVY株系还不清楚。本研究利用PVY特异性抗体检测了7个马铃薯品种362个种薯,发现不同品种种薯带毒率差异较大,最高达12%。通过RT-PCR方法扩增获得了7个PVY分离物编码区全序列。重组分析发现7个分离物基因组均为重组型,根据重组位点的差异可以分为PVY^NTN-NW(SYR-II型)、Rec-1、Rec-2和Rec-3等4种重组类型,后3种为新重组类型。系统进化分析发现,分离物HQH18G3-10与PVY^NTN-NW(SYR-II型)处于同一个大的分支,但与中国PVY大田分离物聚集在一起形成一个相对独立的组,命名为PVY^NTN-NW(CN型);其余6个分离物与数据库中的中国分离物聚集在PVY^N-Wi组。这暗示PVY中国分离物具有相对独立的进化过程,PVY马铃薯大田分离物和种薯分离物进化上相近。所有分离物均能在珊...     

一株PVYNTN-NW黑龙江马铃薯分离物的检测鉴定

 马铃薯Y病毒(Potato virus Y,PVY)是马铃薯、烟草等茄科作物上的重要病毒,在与寄主共同进化过程中产生了许多株系。本文从黑龙江马铃薯样品中得到PVY分离物A12。ELISA结果表明A12被PVY^O的单克隆抗体特异性识别。A12开放阅读框为9 186个核苷酸,编码3 061个氨基酸,与SYR-II-Be1分离物的核苷酸和氨基酸序列一致率均最高,分别为98.3%和99.2%。系统发育分析发现A12与PVY^NTN-NW株系SYR-II型的分离物聚类到一起;重组分析表明,A12是N-605和O_z的重组体,重组类型与SYR-II-Be1相同。综合以上结果表明,A12属于PVY^NTN-NW株系SYR-II型。但与常见PVY^NTN-NW株系分离物在珊西烟引起叶脉坏死不同,A12产生花叶症状。A12辅助成分-蛋白酶在182位和245位的氨基酸均为精氨酸,而其它PVY^NTN-NW株系分离物为赖氨酸。本研究结果可为黑龙江马铃薯PVY的早期检测和有效防控提供理论指导。     

一株PVYNTN-NW黑龙江马铃薯分离物的检测鉴定

 马铃薯Y病毒(Potato virus Y,PVY)是马铃薯、烟草等茄科作物上的重要病毒,在与寄主共同进化过程中产生了许多株系。本文从黑龙江马铃薯样品中得到PVY分离物A12。ELISA结果表明A12被PVY^O的单克隆抗体特异性识别。A12开放阅读框为9 186个核苷酸,编码3 061个氨基酸,与SYR-II-Be1分离物的核苷酸和氨基酸序列一致率均最高,分别为98.3%和99.2%。系统发育分析发现A12与PVY^NTN-NW株系SYR-II型的分离物聚类到一起;重组分析表明,A12是N-605和O_z的重组体,重组类型与SYR-II-Be1相同。综合以上结果表明,A12属于PVY^NTN-NW株系SYR-II型。但与常见PVY^NTN-NW株系分离物在珊西烟引起叶脉坏死不同,A12产生花叶症状。A12辅助成分-蛋白酶在182位和245位的氨基酸均为精氨酸,而其它PVY^NTN-NW株系分离物为赖氨酸。本研究结果可为黑龙江马铃薯PVY的早期检测和有效防控提供理论指导。     

两个马铃薯Y病毒不同株系分离物在三种寄主上的致病性分析

马铃薯是重要的粮食和经济作物。马铃薯Y病毒(potato virus Y,PVY)是危害马铃薯安全生产的重要病毒。近年来,危害我国马铃薯的PVY株系组成发生了显著变化。PVY重组型株系尤其是PVY^NTN-NW SYRI和SYRII型成为优势株系,但与传统株系分离物相比,优势株系分离物在不同寄主上的侵染性及其致病力还不清楚。本研究分析了PVY^N株系代表性分离物PVY^N605和PVY^NTN-NWSYRI型分离物GZ在本氏烟、普通烟和辣椒上的侵染性,比较了二者在本氏烟和普通烟上的致病力。结果表明,PVY^N605和PVY^NTN-NWSYRI-GZ分离物均能侵染本氏烟和普通烟,并在普通烟上引起叶脉坏死;PVY^N605不能系统侵染辣椒品种‘特大牛角王’,而PVY^NTN-NWSYRI-GZ可系统侵染辣椒品种特大牛角王。PVY^NTN-NWSYRI-GZ在本氏烟细胞间的移动速度明显慢于PVY^N     

马铃薯Y病毒中国分离物的分子株系组成

 马铃薯Y病毒(potato virus Y,PVY)主要侵染马铃薯和烟草等茄科作物,给世界农业造成巨大经济损失。本文对测定的23个及GenBank中注册的52个中国PVY分离物ORF序列进行了系统发育、重组和选择压等分析。系统发育分析表明,根据ORF序列可把我国75个PVY分离物和国外30个参比分离物分成O、C、E、NTN-NW(SYR-I型)、NTN-NW(SYR-II型)、NTN(NTN-a型)、NTN(NTN-b型)、NA-N/NTN、Eu-N、N-Wi(N:O型)和N-Wi(N-Wi型)等11个分子株系,其中中国PVY分离物属于除E和C株系外的9个分子株系。除ME162、guiyang、PVYzu、SD-G、WA-13和CN:JL-1:17等 6个分离物基因组中未检测到重组,其余69个分离物均存在明显重组。根据重组位点的不同,中国PVY可分为11种重组类型,其中5种为新的重组类型。选择压分析表明,中国PVY分离物的11个基因均处于负选择,其中核内含体b基因受到的选择压最大,PIPO受到的选择压最小。基因流分析表明,黑龙江、河南和山东PVY分离物间基因交流频繁,马铃薯与烟草PVY分离物之间基因交流频繁。本研究的结果明确了中国PVY分离物的分子株系组成,对指导PVY的检测和防控具有积极作用。     

马铃薯Y病毒N-Wi株系广西分离物的鉴定

 马铃薯Y病毒 (potato virus Y,PVY) 是一种重要的农作物病毒,可造成产量损失和产品质量下降。其宿主范围广泛,包括马铃薯、烟草、番茄和辣椒等经济作物。在广西从叶片表现斑驳褪绿症状的马铃薯上分离到一株PVY分离物DX,其基因组包含一个大的开放阅读框 (open reading frame,ORF),由9 186 nt组成,编码3 061个氨基酸。系统发育进化分析显示,分离物DX与PVY^N-Wi株系分离物IUNG-12、SGS-AG、MAF-VOY聚类成一个分支。重组分析表明分离物DX基因组在496 nt和2 388 nt存在重组位点,分别位于P1和HC-Pro/P3结合区,是分离物Oz和N605的重组体。通过机械摩擦接种,分离物DX可侵染茄科9种作物,引起本生烟叶片花叶、皱缩和泡状突起等症状;引起普通烟草和番茄的轻微花叶症状;引起马铃薯叶片花叶症状,接种辣椒没有发病。序列比对分析显示,分离物DX缺乏引起烟草叶脉坏死相关的氨基酸位点N₂₀₅、K₄₀₀和E₄₁₉。本研究比较了分离物DX对茄科共12种作物的侵染能力和病害症状差异,结果表明分离物DX可用于探索PVY在不同寄主中的致病机理。     

新疆加工番茄马铃薯Y病毒株系鉴定

 马铃薯Y病毒 (Potato virus Y,PVY) 是世界范围内对茄科属植物造成影响的重要病毒,为了解PVY对新疆加工番茄的危害,本文采集205份加工番茄样品进行血清学检测,结果PVY^O、PVY^O\N\C、PVY^N检出率分别为20%、18.05%和0％,且PVY不同株系总检出率达24.9%。根据血清学检测结果,在苋色藜 (Chenopodium amaranticolor) 上进行单斑分离获得2个PVY分离物S1-10、S2-12,其基因组序列分析结果显示,S1-10分离物是PVY^O与PVY^N的重组体,属于PVY^N∶O株系,S2-12属于PVY^O株系。本研究表明新疆加工番茄上的PVY主要为PVY^N∶O和PVY^O株系。     

两个马铃薯Y病毒黑龙江马铃薯分离物株系鉴定

为明确分离自黑龙江省克山县马铃薯上的2个病毒分离物KS4和KS7的分类地位,通过RTPCR扩增、克隆获得其基因组序列,利用重组分析程序包和最大似然法分别进行重组分析和系统发育分析。结果显示,分离物KS4和KS7的开放阅读框均有9 186个核苷酸,编码3 061个氨基酸,分离物KS4的核苷酸和氨基酸序列均与马铃薯Y病毒(potato virus Y,PVY)分离物Mb112一致率最高,分别为96.9%和98.4%;分离物KS7的核苷酸序列与PVY分离物12-94一致率最高,为97.4%,其氨基酸序列与PVY分离物SYR-Ⅱ-Be1一致率最高,为97.8%。重组分析表明,分离物KS4和KS7均为分离物N-605和Oz的重组体,其中KS4基因组5′-端的2 392个核苷酸来自分离物N-605,其余核苷酸来自分离物Oz;KS7基因组的第800～2 227个核苷酸和第5 637～8 950个核苷酸来自分离物N-605,其余核苷酸来自分离物Oz。系统发育分析发现,分离物KS4被聚类到N:O株系(PVY~(N:O)),分离物KS7被聚类到NTN株系(PVY~(NTN))b型。     

基于小RNA深度测序和RT-PCR检测侵染广东省冬种马铃薯的病毒

为明确侵染广东省冬种马铃薯的病毒种类及优势病毒,结合小RNA深度测序技术及RTPCR检测方法,对采集于广东省冬种马铃薯7个主产区的189份疑似病样进行检测分析。结果表明,经小RNA深度测序技术检测马铃薯病毒病混合样,发现存在马铃薯Y病毒(Potato virus Y,PVY)、马铃薯S病毒(Potato virus S,PVS)和马铃薯卷叶病毒(Potato leaf-roll virus,PLRV)3种病毒。进一步设计3种病毒的特异性引物并利用国内已报道的其它5种马铃薯病毒的特异性引物进行RT-PCR检测,发现189份马铃薯病毒病疑似病样中仅检测到PVY、PVS和PLRV这3种病毒,检出率依次为75.13%、10.05%和4.76%,且3种病毒在马铃薯上还存在复合侵染,复合侵染率为14.19%,其中PVY在各马铃薯产区均可检测到。表明侵染广东省冬种马铃薯的病毒为PVY、PVS和PLRV,其中PVY是优势病毒。     

基于全基因序列的中国北方3省(区)马铃薯Y病毒遗传多样性分析

本研究以马铃薯Y病毒(PVY)全基因组为基础,分析吉林、黑龙江和内蒙古3省(区)PVY群体遗传多样性和群体分化,并评估突变、重组、选择等遗传力所起的作用。根据已报道的PVY全基因序列保守区设计4对引物,采用片段重叠法对来自内蒙古和吉林的24个PVY分离物全基因序列进行测定,并联合NCBI中已登录的9个黑龙江分离物全基因组序列进行遗传多样性参数评估、群体分化检验和分子变异等分析。结果显示,我国北方3省(区)PVY群体遗传多样性高,其中内蒙古和黑龙江PVY群体遗传多样性高于吉林群体,并且3个群体之间呈现一定程度的遗传分化。分子变异分析发现在PVY基因组中存在1 786个变异位点,表明我国北方3省(区)PVY群体变异程度较高,并且这种高变异度有85.54%来自各个马铃薯种植区内PVY个体的遗传变异。重组分析和系统发育分析发现,我国北方3省(区)PVY群体中重组株系占比高达90.3%,并具有明显的株系多样性,表明PVY重组株系已成为我国北方3省(区)马铃薯种植区的流行株系。选择压力分析显示,使用FEL和IFEL法分别检测出501个和315个净化压力选择位点,这表明3省(区)PVY群体受净化选择压力为主。以上结果表明,中国北方3省(区)PVY群体遗传多样性高,突变、重组和自然选择都对遗传多样性和群体分化存在一定影响。     

湖南省马铃薯病毒病发生情况调查

为了解湖南省马铃薯种薯质量和主要病毒病发生情况,2019年-2020年马铃薯秋作和冬作期间,对长沙、益阳、湘潭、澧临等马铃薯生产区的155个马铃薯样品,运用反转录-聚合酶链式反应(RT-PCR)和双抗体夹心酶联免疫吸附检测(DAS-ELISA)技术,筛查6种主要马铃薯病毒,包括马铃薯X病毒Potato virus X(PVX)、马铃薯Y病毒Potato virus Y(PVY)、马铃薯M病毒Potato virus M(PVM)、马铃薯S病毒Potato virus S(PVS)、马铃薯A病毒Potato virus A(PVA)、马铃薯卷叶病毒Potato leaf roll virus(PLRV)。检测结果表明:6种马铃薯病毒病在湖南均有不同程度的发生,单一和两种病毒复合感染植株占比最高,其次是3种病毒复合感染,存在极少数植株复合感染4～5种病毒病情况。在秋作马铃薯中,PVY检出率达到29.41%;PVS和PVA检出率均为27.94%;PVM、PVX、PLRV的检出率分别为20.59%、19.12%、17.65%。在冬作马铃薯中,PVX检出率最高,达到31.03%;其次是PLRV,...     

PVYNTN-NW, a novel recombinant strain of Potato virus Y predominating in potato fields in Syria

Detailed characterization of a number of isolates of PVY^SYR, a novel recombinant strain of Potato virus Y (PVY) from Syria, was conducted to elucidate their origin, assess their significance and achieve a final classification of PVY^SYR. Recombination analysis grouped isolates of PVY^SYR into three recombination patterns, SYR-I, SYR-II and SYR-III, which varied in the first 700 nucleotides of their genomes, with the second recombination pattern, SYR-II, the most frequent. PVY^SYR isolates shared highest genomic identity and close phylogenetic relationships with PVY^NTN and PVY^NW isolates from Syria, suggesting a common origin and local emergence of these isolates in Syria. All PVY^SYR isolates (total of 20) induced tobacco veinal necrosis, but reacted to a PVY^O monoclonal antibody, typical characteristics of the previously reported PVY^NW (or PVY^N:O). In potato, however, four isolates tested (one of SYR-I and three of SYR-II) induced potato tuber necrotic ringspot disease (PTNRD), which is the characteristic phenotype of PVY^NTN. Given the shared properties of SYR-I and SYR-II isolates with PVY^NTN and PVY^NW, it was decided that they represent a new recombinant strain of the PVY^N strain group, with the proposed name PVY^NTN-NW. The classification of SYR-III will be possible only after testing the phenotype in potato. The high prevalence of PVY^NTN-NW in potatoes and weeds, as well as its ability to induce PTNRD, demonstrates its importance and the necessity for its control.     

Production of monoclonal antibodies against synthetic peptides of the N-terminal region of Potato virus Y coat protein and their use in PVY strain differentiation

Antibodies were prepared against two synthetic peptides, P19 and P11, derived from the coat protein N-terminal region of two pepper isolates of Potato virus Y from Tunisia (PVY-P21 and PVY-P2, respectively). The peptides were selected by comparing the predicted amino acid sequences of three pepper and four potato PVY isolates on the basis of their polymorphism and hydrophilicity. Sera with high titres were only obtained against P19. Three MAbs, raised in response to P19, reacted with the homologous virus (PVY-P21) in TAS-ELISA. When tested against a broad range of PVY isolates and related viruses, MAb 3C5 proved to be PVY species specific, whereas MAbs 8A4 and 1D6 reacted specifically with standard isolates of PVY^O, PVY^C and PVY^N-W strains, but not with other PVY isolates. Consequently, epitope(s) recognized by 8A4 and 1D6 MAbs may be specific to a PVY group comprising all serologically PVY^non–N isolates. Surprisingly, and unlike isolate PVY-P21, many Tunisian field pepper isolates did not carry this epitope(s), thus revealing serological heterogeneity within the PVY pepper group. As PVY is one of the most economically important plant pathogens in a range of crops, including pepper, these MAbs will provide a useful tool for practical diagnosis and strain identification of PVY.     

Identification of the molecular make-up of the Potato virus Y strain PVY(Z): genetic typing of PVY(Z)-NTN

Potato virus Y (PVY) strains were originally defined by interactions with different resistance genes in standard potato cultivars. Five distinct strain groups are defined that cause local or systemic hypersensitive responses (HRs) in genetic background with a corresponding N gene: PVY(O), PVY(N), PVY(C), PVY(Z), and PVY(E). The nucleotide sequences of multiple isolates of PVY(O) and PVY(N) differ from each other by ≈8% along their genomes. Additionally, complete genome sequences of multiple recombinant isolates are composed of segments of parental PVY(O) and PVY(N) sequences. Here, we report that recombinant isolate PVY-L26 induces an HR in potato 'Maris Bard' carrying the putative Nz gene, and is not recognized by two other resistance genes, Nc and Ny(tbr). These genetic responses in potato, combined with the inability of PVY-L26 to induce vein necrosis in tobacco, clearly define it as an isolate from the PVY(Z) strain group and provide the first information on genome structure and sequence of PVY(Z). The genome of PVY-L26 displays typical features of European NTN-type isolates with three recombinant junctions (PVY(EU-NTN)), and the PVY-L26 is named PVY(Z)-NTN. Three typical PVY(NTN) isolates and two PVY(N) isolates, all inducing vein necrosis in tobacco, were compared with PVY-L26. One PVY(NTN) isolate elicited HR reactions in Maris Bard, similar to PVY-L26, while two induced a severe systemic HR-like reaction quite different from the quasi-symptomless reaction induced by two PVY(N) isolates. 'Yukon Gold' potato from North America produced HR against several PVY(NTN) isolates, including PVY-L26, but only late and limited systemic necrosis against one PVY(N) isolate. Consequently, according to symptoms in potato indicators, both PVY(Z) and PVY(NTN) isolates appeared biologically very close and clearly distinct from PVY(O) and PVY(N) strain groups.