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   总被引：1，自引：0，他引：1  

H. Ounouna  C. Kerlan †  P. Lafaye  M. J. Loukili  A. ElGaaied 《Plant pathology》2002,51(4):487-494

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.  相似文献   

Characterization of potato potyvirus Y (PVY) isolates from seed potato batches. Situation of the NTN, Wilga and Z isolates     

B. Blanco-Urgoiti  M. Tribodet  S. Leclere  F. Ponz  C. Pérez de san román  F.J. Legorburu  C. Kerlan 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(8):811-819

A collection of 38 PVY isolates from seed potato batches, originating from several Western European countries, was characterized by using current biological, serological and molecular tools differentiating PVY strains and groups. The correlation between the three kinds of tests was good but not absolute. No single serological or PCR method was able to discriminate among the five isolate groups found. Twenty-nine isolates belonged to the PVY^N strain and six to the PVY^O strain. No PVY^C was found. Two other isolates reacted serologically like PVY^O, but were unable to elicit a hypersensitive response from the Ny_tbr gene and probably represent the PVY^Z group. At the molecular level, these two isolates showed a combination of both PVY^O and PVY^N and could be recombinants of these strains. Another isolate reacted serologically like PVY^O, but induced vein necrosis in tobacco, like PVY^N-Wilga. Some PVY^N isolates caused tuber ring necrosis in glasshouse conditions. These might belong to the PVY^NTN group. The PVY^NTN, PVY^N-Wilga and PVY^Z groups probably represent pathotypes within strains PVY^N and PVY^O, respectively. The present study also confirms previous reports showing a high genetic variation at the 5 end within the PVYN strain.  相似文献   

Biological, serological, and molecular variabilities of clover yellow vein virus     

Sasaya T  Shimizu T  Nozu Y  Nishiguchi M  Inouye N  Koganezawa H 《Phytopathology》1997,87(10):1014-1019

ABSTRACT A comparative study was made on the host reactions, serological properties, and nucleotide sequences of the coat protein (CP) gene of 10 clover yellow vein virus (C1YVV) isolates and one bean yellow mosaic virus (BYMV) isolate collected from different host plant species and locations in Japan. Two strains of C1YVV isolates, grouped on the basis of host reactions on Chenopodium amaranticolor, C. quinoa, Nicotianaclevelandii, N. benthamiana, Vicia faba, and Trifolium repens, corresponded to two serotypes determined by double-antibody sandwich- and triple-antibody sandwich-enzyme-linked immunosorbent assay using three polyclonal and nine monoclonal antibodies. These results were also confirmed by nucleotide sequence analysis of the CP gene. The CP gene of C1YVV isolates of strain 1, including the Australian isolate C1YVV-B, had 93 to 98% nucleotide identities and 97 to 99.6% amino acid identities. The CP of C1YVV isolates of strain 2, including the New Zealand isolate C1YVV-NZ, had 92 to 98% nucleotide identities and 95 to 98% amino acid identities. The nucleotide identities and the amino acid identities between the two C1YVV strains were 82 to 84%, and 90 to 94%, respectively. When compared with the CP sequences of 12 C1YVV isolates, the CP sequence of the BYMV isolate had 71 to 73% nucleotide identity and 73 to 77% amino acid identity. Amino acid sequence differences among C1YVV isolates from strains 1 and 2 were located mostly at the N-terminal regions of the CP. Our results indicated that the C1YVV isolates studied could be separated into two strains on the basis of host reactions, serology, and the nucleotide sequence of the CP gene.  相似文献   

Helper component mutations in nonconserved residues associated with aphid transmission efficiency of a pepper isolate of potato virus y     

Llave C  Martínez B  Díaz-Ruíz JR  López-Abella D 《Phytopathology》1999,89(12):1176-1181

ABSTRACT The aphid transmission properties of a pepper isolate of potato virus Y belonging to the pathotype 1-2 (PVY 1-2) have been characterized. PVY 1-2 was not transmitted in plant-to-plant experiments, although purified virus particles were efficiently transmitted when supplemented with heterologous helper component (HC) of the transmissible isolate PVY 0 AT through membrane acquisition assays, indicating that its coat protein was functional in transmission. Additionally, virions of PVY 1-2 were able to bind to different HCs in in vitro binding assays. Analysis of the sequence of the PVY 1-2 HC gene and comparison with that of PVY 0 AT revealed 19 nucleotide differences, but only 2 resulted in amino acid changes, one of which induced a change of charge. Neither of these two amino acid changes occurred within the cysteine-rich domain, nor did they coincide with conserved motifs of the HC protein known to be involved in aphid transmission and which are present in all known potyvi-ruses. However, both changes are located in positions highly conserved among PVY strains. The possible role of both mutations on the activity of the PVY 1-2 HC in aphid transmission is discussed.  相似文献   

Characterization of a potyvirus from eggplant (Solanum melongena) as a strain of potato virus Y by N-terminal serology and sequence relationships     

Bhat  Varma  Pappu  Rajamannar  Jain  & Praveen 《Plant pathology》1999,48(5):648-654

A potyvirus (eggplant mottle virus, EMoV) causing mosaic mottling in eggplant ( Solanum melongena ) was characterized on the basis of biological, serological and partial nucleotide sequence properties. EMoV infected Chenopodium amaranticolor and members of the Solanaceae. Polyclonal antiserum against EMoV showed antigenic relationship with henbane mosaic potyvirus (HMV) and potato Y potyvirus (PVY). Virus-specific antibodies directed to the N-terminal region of EMoV cross-reacted only with PVY. Determination and comparison of nucleotide sequence of the coat protein (CP) and the 3'-untranslated region (UTR) of EMoV with other potyviruses showed that the level of homology was highest with PVY isolates. Comparative sequence analyses of the CP amino acid and 3'-UTR sequences with distinct PVY isolates placed EMoV within the PVY^O subgroup.  相似文献   

Molecular Characterization of Potato virus V Genomes from Europe Indicates Limited Spatiotemporal Strain Differentiation     

Oruetxebarria I  Kekarainen T  Spetz C  Valkonen JP 《Phytopathology》2000,90(4):437-444

ABSTRACT Because there were no previous reports on the molecular characterization of Potato virus V (PVV, genus Potyvirus, family Potyviridae), the complete genomic sequence of PVV isolate Dv42 was determined. The length of the single-stranded messenger-polarity RNA genome was 9,851 nt (nucleotides), followed by a poly(A) tail. The genome contained a 5'-terminal nontranslated region (5'-NTR; 204 nt), a single open reading frame (nucleotides 205-9406; 3,067 amino acids), and a 3'-NTR that was unusually long (446 nt) compared with that of Potato virus Y (PVY; 331-nt 3'-NTR), Potato virus A (PVA; 207-nt 3'-NTR), and other potyviruses that naturally infect Solanaceae species. Phylogenetic analysis with the cylindrical inclusion protein-encoding and coat protein (CP)-encoding regions indicated that PVV Dv42 was most closely related to Pepper mottle virus and PVY, respectively. Seven PVV isolates (including Dv42) collected from cultivated potatoes in the Netherlands, the United Kingdom, and Norway from 1964 to 1997 were uniform in serological properties and symptomatology in indicator hosts that could distinguish strains of PVY and PVA. The nucleotide sequences of the 5'-NTR, P1, CP, and 3'-NTR regions of the PVV isolates were determined and were 94.6 to 99.5, 96.3 to 98.8, 96.4 to 98.7, and 96.3 to 99.6% identical, respectively. The amino acid similarities for the P1 and CP were 95.8 to 98.6 and 96.0 to 97.8%, respectively. Phylogenetic analysis of the CP sequences of PVV revealed no significant grouping, in contrast to PVY and PVA, which were grouped largely according to the previously recognized strains based on host responses. However, the relatively few differences in the P1 sequences of PVV were correlated with the different countries of origin. Hence, the PVV isolates infecting potatoes in Europe seem to vary little genetically and may belong to a single strain.  相似文献   

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

Kerlan C  Nikolaeva OV  Hu X  Meacham T  Gray SM  Karasev AV 《Phytopathology》2011,101(9):1052-1060

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.  相似文献   

Serological, Molecular, and Pathotype Diversity of Pepper veinal mottle virus and Chili veinal mottle virus   总被引：1，自引：0，他引：1  

Moury B  Palloix A  Caranta C  Gognalons P  Souche S  Selassie KG  Marchoux G 《Phytopathology》2005,95(3):227-232

  相似文献   

利用RNA介导的抗病性获得高度抗马铃薯Y病毒的转基因烟草   总被引：29，自引：8，他引：21  

郭兴启  吕士恩  朱常香  宋云枝  孟祥兵  郑成超  温孚江 《植物病理学报》2001,31(4):349-356

 以马铃薯Y病毒坏死株系(PVY^N)的RNA为模板,应用反转录-聚合酶链式反应(RT-PCR)方法,扩增出长度为801 bp的非翻译的马铃薯Y病毒外壳蛋白基因。将扩增的片段克隆到pBSK的BamHI和KpnI之间并进行了序列测定。用BamHI和KpnI从重组克隆载体上切下该基因并插入到质粒pROKII内得到植物表达载体pPVYCP。通过根癌农杆菌(LBA4404)介导的方法转化烟草NC89,经卡那霉素抗性筛选、PCR和Southern blot检测,获得82株转基因植株。Northern blot和Western blot分析表明,转基因植株只在RNA水平上得到了表达。抗病性试验表明转基因植株之间抗性水平存在着差异,其中有7株是对PVY^N高度抗病性的植株。转基因植株抗病特异性试验初步表明,对PVY^N表现高度抗病的植株对PVY^O也具有高度抗病性。  相似文献   

Genetic diversity of the ordinary strain of Potato virus Y (PVY) and origin of recombinant PVY strains     

Karasev AV  Hu X  Brown CJ  Kerlan C  Nikolaeva OV  Crosslin JM  Gray SM 《Phytopathology》2011,101(7):778-785

The ordinary strain of Potato virus Y (PVY), PVY(O), causes mild mosaic in tobacco and induces necrosis and severe stunting in potato cultivars carrying the Ny gene. A novel substrain of PVY(O) was recently reported, PVY(O)-O5, which is spreading in the United States and is distinguished from other PVY(O) isolates serologically (i.e., reacting to the otherwise PVY(N)-specific monoclonal antibody 1F5). To characterize this new PVY(O)-O5 subgroup and address possible reasons for its continued spread, we conducted a molecular study of PVY(O) and PVY(O)-O5 isolates from a North American collection of PVY through whole-genome sequencing and phylogenetic analysis. In all, 44 PVY(O) isolates were sequenced, including 31 from the previously defined PVY(O)-O5 group, and subjected to whole-genome analysis. PVY(O)-O5 isolates formed a separate lineage within the PVY(O) genome cluster in the whole-genome phylogenetic tree and represented a novel evolutionary lineage of PVY from potato. On the other hand, the PVY(O) sequences separated into at least two distinct lineages on the whole-genome phylogenetic tree. To shed light on the origin of the three most common PVY recombinants, a more detailed phylogenetic analysis of a sequence fragment, nucleotides 2,406 to 5,821, that is present in all recombinant and nonrecombinant PVY(O) genomes was conducted. The analysis revealed that PVY(N:O) and PVY(N-Wi) recombinants acquired their PVY(O) segments from two separate PVY(O) lineages, whereas the PVY(NTN) recombinant acquired its PVY(O) segment from the same lineage as PVY(N:O). These data suggest that PVY(N:O) and PVY(N-Wi) recombinants originated from two separate recombination events involving two different PVY(O) parental genomes, whereas the PVY(NTN) recombinants likely originated from the PVY(N:O) genome via additional recombination events.  相似文献   

马铃薯Y 病毒贵州黔西烟草分离物P1 基因序列分析   总被引：1，自引：0，他引：1  

张俊祺  代昌明  杨军  宋纪真  罗朝鹏  王燃  林福呈 《植物病理学报》2012,42(1):88-92

 Potato virus Y (PVY) is the type member of the genus Potyvirus and infects several important solanaceous crops, including tobacco. PVY is one of the most widespread and economically destructive viruses.The P1 region of PVY had been used to determine the diversity, evolution and the homology based on the
geographic location of the virus. The P1 region of PVY tobacco isolate from Qianxi in Guizhou Province was cloned and sequenced. Database searches and multiple sequence alignment showed subtle variation within the same strain, while apparent variation between O strain and the other three strains, N, NTN and N∶O. Moreover, variation in P1 region of Qianxi isolate derived from the gene mutation rather than the recombination among genomes. Phylogenic analysis revealed that the clustering only discriminated O strain from others. Consequently, sequence analysis in P1 region is unable to afford strain determination.  相似文献   

Molecular characterization of the CP gene and 3'UTR of Chilli veinal mottle virus from South and Southeast Asia     

W. S. Tsai  Y. C. Huang  D. Y. Zhang  K. Reddy  S. H. Hidayat  W. Srithongchai  S. K. Green  F. -J. Jan 《Plant pathology》2008,57(3):408-416

Twenty-four isolates of Chilli veinal mottle virus (ChiVMV) from China, India, Indonesia, Taiwan and Thailand were analysed to determine their genetic relatedness. Pathogenicity of virus isolates was confirmed by induction of systemic mosaic and/or necrotic ringspot symptoms on Capsicum annuum after mechanical inoculation. The 3' terminal sequences of the viral genomic RNA were determined. The coat protein (CP) coding regions ranged from 858 to 864 nucleotides and the 3' untranslated regions (3'UTR) from 275 to 289 nucleotides in length. All isolates had the inverted repeat sequence GUGGNNNCCAC in the 3'UTR. The DAG motif, conserved in aphid-transmitted potyviruses, was observed in all isolates. All 24 isolates were considered as belonging to ChiVMV because of their high CP amino acid and nucleotide identity (more than 94·8 and 89·5%, respectively) with the reported ChiVMV isolates including the pepper vein banding virus (PVBV), the chilli vein-banding mottle virus (CVbMV) and the CVbMV Chiengmai isolate (CVbMV-CM1). Based on phylogenetic analysis, ChiVMV isolates including all 24 isolates tested, PVBV, CVbMV and CVbMV-CM1 can be classified into three groups. In addition, a conserved region of 204 amino acids with more than 90·2% identity was identified in the C terminal of the CP gene of ChiVMV and Pepper veinal mottle virus (PVMV), and may explain the serological cross reaction between these two viruses. The conserved region may also provide useful information for developing transgenic resistance to both ChiVMV and PVMV.  相似文献   

Interaction between tobacco Ribulose-l,5-biphosphate Carboxylase/Oxygenase large subunit (RubisCO-LSU) and the PVY Coat Protein (PVY-CP)   总被引：1，自引：0，他引：1  

S. Feki  M. J. Loukili  R. Triki-Marrakchi  G. Karimova  I. Old  H. Ounouna  A. Nato  F. Nato  J. -L. Guesdon  P. Lafaye  A. Ben Ammar. Elgaaied 《European journal of plant pathology / European Foundation for Plant Pathology》2005,112(3):221-234

A 54 kDa band (P54) was continually detected with the 30 kDa viral capsid protein (CP) on the SDS-PAGE migration profile of purified potato virus Y (PVY). P54 was observed following the use of two different procedures for the purification of the PVY from infected tobacco. It was a constitutively expressed tobacco protein. The analysis of the PVY preparation showed that P54 has aggregation properties and precipitates, thus pulling down the virus. We used an enzyme-linked immunosorbent assay (ELISA) to study the relationship between P54 and the PVY particles. We performed an inhibition test with monoclonal antibodies (mAb) directed against the PVY-CP, to show that these two components interact. This result was confirmed by western blot. The internal sequence of five major peptides, obtained by C-lysine endoprotease digestion of the P54 followed by HPLC separation, showed 100% homology with the large subunit of the ribulose-1,5-biphosphate carboxylase/oxygenase (RubisCO-LSU) of tobacco. MAb directed against RubisCO-LSU were produced and used to reveal the RubisCO-LSU/PVY complex in infected tobacco extracts. A phage library displaying random heptapeptides was used to isolate several peptides that specifically bound to the native form of the PVY. The sequences of thirty-three phage-displayed peptides, which bound specifically to this virus, present further discontinuous sequence homologies with the RubisCO-LSU. Five peptides (p1 to p5) corresponding to the RubisCO-LSU homologous regions were used for a bacterial two-hybrid system to confirm in vivo direct interactions between the selected RubisCO-LSU regions and the PVY-CP. We propose that the PVY-CP may be involved in the production of mosaics and yellowing symptoms in tobacco through its interaction with RubisCO-LSU.  相似文献   

Genetic diversity of Potato virus Y infecting tobacco crops in China     

Tian YP  Liu JL  Zhang CL  Liu YY  Wang B  Li XD  Guo ZK  Valkonen JP 《Phytopathology》2011,101(3):377-387

Genetic variability of Potato virus Y (PVY) isolates infecting potato has been characterized but little is known about genetic diversity of PVY isolates infecting tobacco crops. In this study, PVY isolates were collected from major tobacco-growing areas in China and single-lesion isolates were produced by serial inoculation on Chenopodium amaranticolor. Most isolates (88%) caused systemic veinal necrosis symptoms in tobacco. Of these, 16 isolates contained a PVY(O)-like coat protein (CP) and PVY(N)-like helper component proteinase (HC-pro) and, in this respect, were similar to the PVY(N-Wi), PVY(N:O), and PVY-HN2 isolates characterized from potato in Europe, the United States, and China, respectively; two isolates contained a PVY(O)-like HC-pro and a PVY(N)-like CP; another two isolates had recombination junctions in the CP-encoding region. Both the HC-pro and CP of PVY were under negative selection as a whole; however, seven amino acids in HC-pro and six amino acids in CP were under positive selection. Selection pressures differed between the subpopulations of PVY distinguished by phylogenetic analysis of HC-pro and CP sequences. When PVY isolates from potato were included, no host-specific clustering of the PVY isolates was observed in phylogenetic and nucleotide diversity analyses, suggesting frequent spread of PVY isolates between potato and tobacco crops in the field.  相似文献   

A classification of <Emphasis Type="Italic">Pepper yellow mosaic virus</Emphasis> isolates into pathotypes     

Monika Fecury Moura  Tatiana Mituti  Julio M. Marubayashi  Ricardo Gioria  Romulo F. Kobori  Marcelo A. Pavan  Norberto da Silva  Renate Krause-Sakate 《European journal of plant pathology / European Foundation for Plant Pathology》2011,131(4):549-552

Pepper yellow mosaic virus (PepYMV) is the most important potyvirus infecting sweet pepper in Brazil. In this study, twenty isolates of PepYMV were obtained from commercial sweet pepper crops. To confirm virus identity, the coat protein gene was completely sequenced for eleven of these isolates, and partially sequenced for the other nine isolates. The amino acid identities obtained were above 93% when compared with the sequence of a characterized PepYMV isolate (AF348610). Extracts of Nicotiana tabacum cv. TNN plants infected with the different isolates were used to inoculate the differential series of Capsicum spp cultivars containing the genes pvr2 ¹ , pvr2 ² , pvr2 ³ , pvr2 ⁴ , and Pvr4. Using the same criteria established for Potato virus Y (PVY), fourteen isolates of PepYMV could be classified as known pathotypes described for PVY, that is: 1.2 (2 isolates), 1.3 (6) and 1.2.3 (6). The remaining six isolates, 1.3 (2) and 1.2.3 (4) could not be classified into the typical pathotypes of PVY because they were also virulent on Serrano Criollo de Morellos—334 (C.M 334) which carries the pvr2 ³ and Pvr4 genes. To classify the PepYMV into pathotypes and counter the biological diversity found in this species we propose the utilization of 2^x for the ability to overcome the correspondent allele of the pvr2 locus and 4 for the capacity to break down the Pvr4 gene. Using this criterion we could classify the PepYMV into five pathotypes: 2¹.2²; 2¹.2³; 2¹.2².2³; 2¹.2³. 4 and 2¹.2².2³. 4.  相似文献   

Identification of divergent variants of Grapevine virus A     

D.E. Goszczynski  A.E.C. Jooste 《European journal of plant pathology / European Foundation for Plant Pathology》2003,109(4):397-403

Eight isolates of Grapevine virus A (GVA), which induced different symptoms in leaves of Nicotiana benthamiana, were recovered from various grapevines. The dsRNA patterns of two isolates, which consistently induced mild vein clearing (referred here as mild isolates of GVA) were similar, but different from those of other isolates of GVA. Analysis based on overall nucleotide (nt) sequence identity in the 3 terminal part of the GVA genome, comprising part of ORF3 (putative movement protein, MP), entire ORF4 (capsid protein, CP), entire ORF5 and part of 3 UTR, revealed that GVA isolates separate into three groups (I, II, III), sharing 91.0–99.8% nt sequence identity within groups and 78.0–89.3% nt sequence identity between groups. Mild isolates of the virus were group III and shared only 78.0–79.6% nt sequence identity with the other isolates. The comparison of predicted amino acid sequences for MP and CP revealed many amino acid alterations, revealing distinct local net charges of these proteins for mild isolates of the virus. Based on both conserved and divergent nt regions in the CP and ORF5, oligonucleotide primers were designed for the simultaneous RT-PCR detection of all GVA isolates and for the specific detection of the most divergent virus variants represented here by mild isolates of the virus.  相似文献   

一株PVY^NTN-NW黑龙江马铃薯分离物的检测鉴定   总被引：1，自引：0，他引：1  

张凤桐  程林发  耿超  田延平  原雪峰  白艳菊  李向东 《植物病理学报》1955,49(4):512-519

 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。  相似文献   

一株PVY^NTN-NW黑龙江马铃薯分离物的检测鉴定     

张凤桐  程林发  耿超  田延平  原雪峰  白艳菊  李向东 《植物病理学报》2019,49(4):512-519

 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。  相似文献   

Characterization of potato virus Y isolates from tomato crops in northeast Spain     

J. Aramburu  L. Galipienso  M. Matas 《European journal of plant pathology / European Foundation for Plant Pathology》2006,115(2):247-258

  相似文献   

Diversity of the coat protein-coding region among Ilarvirus isolates infecting hop in Australia   总被引：1，自引：0，他引：1  

D. R. Crowle  S. J. Pethybridge  G. W. Leggett  L. J. Sherriff  C. R. Wilson † 《Plant pathology》2003,52(5):655-662

Coat protein (CP) sequences of 17 Ilarvirus isolates were obtained from hops at three farms in Tasmania, Australia. Phylogenetic analysis of these sequences and additional database sequences indicated several Apple mosaic virus (ApMV) isolate clusters distinct from Prunus necrotic ringspot virus (PNRSV): one containing isolates from apple; one containing a single isolate from almond; a third containing Australian hop isolates of the 'apple' serotype and a German isolate of unknown origin; and a fourth containing Australian hop isolates of the 'intermediate' serotype. Isolates from hop, pear and prune from the Czech Republic either formed a fifth grouping, or were divergent members of the 'intermediate' serotype group. Deduced amino acid (aa) residue differences between the coat proteins of the two hop isolate serotype groups were highlighted as possible regions of serological differentiation. No evidence for coinfection of plants with both serotypes was found. Tests of ApMV-infected hop buds using the Shirofugen flowering cherry assay revealed a possible differentiation of the two strains based on hypersensitivity. Because of serological similarities to PNRSV, these viruses have commonly been reported as strains of PNRSV. However, this study shows ilarviruses from Australian hops are strains of ApMV, but distinct from those infecting Malus spp.  相似文献