Incidence of potato viruses and characterisation of <Emphasis Type="Italic">Potato virus Y</Emphasis> variability in late season planted potato crops in Northern Tunisia

Surveys were conducted of symptomatic potato plants in late season crops, from the major potato production regions in Northern Tunisia, for infection with six common potato viruses. The presence of Potato leafroll virus (PLRV), Potato virus Y (PVY), Potato virus X (PVX), Potato virus A (PVA), Potato virus S (PVS) and Potato virus M (PVM) was confirmed serologically with virus infection levels up to 5.4, 90.2, 4.3, 3.8, 7.1 and 4.8%, respectively. As PVY was prevalent in all seven surveyed regions, further biological, serological and molecular typing of 32 PVY isolates was undertaken. Only one isolate was shown to induce PVY^O-type symptoms following transmission to tobacco and to react only against anti-PVY^O-C antibodies. Typical vein necrosis symptoms were obtained from 31 samples, six of which reacted against both anti-PVY^N and anti-PVY^O-C antibodies showing they contained mixed isolates, while 25 of them reacted only with anti-PVY^N antibodies. An immunocapture RT-PCR molecular test using a PVY^NTN specific primer pair set in the 5’NTR/P1 genomic region and examination of recombinant points in three genomic regions (HC-Pro/P3, CI/NIa and CP/3’NTR) showed that all 25 serotype-N PVY isolates were PVY^NTN variants with similar recombinations to the standard PVYNTN-H isolate. This is the first report of the occurrence of the PVY^NTN variant and its high incidence in late season potatoes in Tunisia.     

Epitrix pubescens can cause damage to potato (Solanum tuberosum)

Potato (Solanum tuberosum) has not been recorded as a host of Epitrix pubescens (Koch, 1803), a species of flea beetle present in Europe. However, anecdotal evidence was received of damage to potato leaves caused by flea beetles observed during inspections of potato crops and also on potato plants within a garden in France. Although potato may not act as a host for all life stages of this beetle, adults may feed on foliage and cause foliar symptoms similar to those caused by non‐native Epitrix species.     

利用RNA干扰介导抗病性获得兼抗四种病毒的转基因马铃薯

为获得兼抗马铃薯X病毒(Potato virus X,PVX)、马铃薯Y病毒(Potato virus Y,PVY)、马铃薯卷叶病毒(Potato leaf roll virus,PLRV)和马铃薯潜隐花叶病毒(Potato virus S,PVS)4种病毒的转基因马铃薯新材料,分别以这4种病毒全长CP基因为模板,通过设计PCR引物和亚克隆获得4种病毒CP基因相对保守区段的基因片段,并将其拼接成融合基因,以载体pHANNIBAL和pBI121为基础,构建RNA干扰(RNA interference,RNAi)载体,利用农杆菌介导的转基因体系进行马铃薯遗传转化,并对获得的转基因马铃薯进行病毒抗性检测。结果表明,所获得的融合基因片段RH1和RH2,酶切鉴定分别得到长度为1 200 bp的条带,与预期片段相符;构建了含pdk内含子和RH1、RH2融合基因的RNAi植物表达载体,经Bam H I/Sac I双酶切,获得长度约3 200 bp的片段,表明RNAi植物表达载体pBI121-pRH构建成功;转化易感病毒马铃薯品种陇薯11号,PCR检测和PCRSouthern杂交分析表明融合基因已整合到陇薯11号马铃薯基因组中;抗病性检测显示4株转基因马铃薯植株对4种病毒均免疫。表明利用RNAi可筛选出抗多种病毒的转基因马铃薯新种质。     

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

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.     

New aphid vectors and efficiency of transmission of Potato virus A and strains of Potato virus Y in the UK

The aphid‐transmitted viruses Potato virus Y (PVY) and Potato virus A (PVA) commonly affect seed potatoes in the UK. The transmission efficiency for aphid species is used to calculate a potential transmission risk and is expressed as a relative efficiency factor (REF). These REFs have not previously been calculated for UK strains of viruses or aphid clones. Using a previously published method, REFs have been calculated for the aphid species and viruses commonly occurring in UK potatoes. The efficiency of transmission of Myzus persicae is nominally set to a REF of 1 and REFs for other species are calculated relative to this. These data represent the first set of REFs calculated for PVA transmission. Macrosiphum euphorbiae (REF 0.91) was almost as efficient as M. persicae at PVA transmission. The data were further analysed to compare transmission rates of PVY and PVA using a binomial (logit) generalized mixed model to take into account the potential influence of variation in virus titre between leaves. This approach found that there is little variation between the efficiency of transmission between clones of each aphid species or between strains within a virus species. This is a first report that Aphis fabae, Metopolophium dirhodum, Sitobion avenae, Acyrthosiphon pisum and Cavariella aegopodii have the ability to vector PVA. This study also represents a first report that C. aegopodii has the ability to vector PVY and confirms the potential of S. avenae, A. fabae, M. euphorbiae and Rhopalosiphum padi as important PVY vectors.     

Identification and characterization of RB-orthologous genes from the late blight resistant wild potato species Solanum verrucosum

Late blight, caused by the oomycete pathogen, Phytophthora infestans, is a devastating disease of potatoes and tomatoes. A key long-term management strategy for combating this disease is to develop potato cultivars with high levels of durable resistance through identification and integration of major resistance genes. The RBgene, cloned from the Mexican diploid potato species Solanum bulbocastanum, confers broad-spectrum resistance to potato late blight. Here, we have determined the late blight resistance phenotypes of eight accessions of Solanum verrucosum, another wild diploid potato species, using greenhouse inoculations and discovered variability among the accessions. While most accessions were resistant, one accession was notably more susceptible. Transcribed orthologs of the RB gene from the eight S. verrucosum accessions were cloned using a homology-based PCR approach. Sequence analysis revealed that the RB^ver orthologs share up to 83.5% nucleotide identity with RB^blb. Stable introduction of the RB ortholog from late blight resistant S. verrucosum PI275260 into susceptible S. tuberosum confers resistance to P. infestans. Interestingly, this functional RB^ver ortholog contains an insertion of a complete leucine rich repeat when compared to RB^blb, and differs from the RB^ver ortholog from a susceptible accession at only four amino acid residues.     

复合侵染水茄的两种菜豆金色花叶病毒属病毒基因组结构特征分析

为明确水茄Solanum torvum植株叶片邹缩、褪绿是否由菜豆金色花叶病毒属病毒侵染引起,从云南省西双版纳傣族自治州田间采集具有疑似感染症状的水茄植株叶片样品,应用菜豆金色花叶病毒属病毒简并引物和特异性引物进行PCR扩增、克隆和测序,通过生物信息软件分析比较其核苷酸序列特征,并对其进行系统发育分析。结果显示,从采集的疑似病叶中共克隆获得了5条菜豆金色花叶病毒属病毒DNA-A全序列和3条DNA-B全序列,经全序列分析发现,侵染水茄的2种菜豆金色花叶病毒属病毒分离物分别属于中国南瓜曲叶病毒(squash leaf curl China virus,SLCCNV)和野茼蒿黄脉病毒(Crassocephalum yellow vein virus,CraYVV)。SLCCNV水茄分离物的基因组具有典型的菜豆金色花叶病毒属病毒双组分结构特征,与来自泰国的SLCCNV分离物(AB330078)亲缘关系最近,相似性最高达到99.0%;CraYVV水茄分离物的基因组具有典型的菜豆金色花叶病毒属病毒单组分结构特征,与来自云南省景洪市的CraYVV分离物(EF165536)亲缘关系最近,相似性最高达到97.6%。表明水茄是这2种菜豆金色花叶病毒属病毒的新寄主,并首次发现双组分和单组分菜豆金色花叶病毒属病毒可复合侵染水茄。     

Tomato leaf curl Guangxi virus is a distinct monopartite begomovirus species

Three begomovirus isolates were obtained from tomato plants showing leaf curl symptoms in Guangxi province of China. Typical begomovirus DNA components representing the three isolates (GX-1, GX-2 and GX-3) were cloned and their full-length sequences were determined to be 2752 nucleotides. Nucleotide identities among the three viral sequences were 98.9–99.7%, but all shared <86.7% nucleotide sequence identity with other reported begomoviruses. The sequence data indicated that GX-1, GX-2 and GX-3 are isolates of a distinct begomovirus species for which the name Tomato leaf curl Guangxi virus (ToLCGXV) is proposed. Further analysis indicated that ToLCGXV probably originated through recombination among viruses related to Ageratum yellow vein virus, Tomato leaf curl China virus and Euphorbia leaf curl virus. PCR and Southern blot analyses demonstrated that isolates GX-1 and GX-2 were associated with DNAβ components, but not isolate GX-3. Sequence comparisons revealed that GX-1 and GX-2 DNAβ components shared the highest sequence identity (86.2%) with that of Tomato yellow leaf curl China virus (TYLCCNV). An infectious construct of ToLCGXV isolate GX-1 (ToLCGXV-GX) was produced and determined to be highly infectious in Nicotiana benthamiana, N. glutinosa, tobacco cvs. Samsun and Xanthi, tomato and Petunia hybrida plants inducing leaf curl and stunting symptoms. Co-inoculation of tomato plants with ToLCGXV-GX and TYLCCNV DNAβ resulted in disease symptoms similar to that caused by ToLCGXV-GX alone or that observed in infected field tomato plants.     

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,...     

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。     

Characterization of Passionfruit severe leaf distortion virus,a novel begomovirus infecting passionfruit in Brazil,reveals a close relationship with tomato‐infecting begomoviruses

Molecular and biological characterization of the begomovirus isolate BR:LNS2:Pas:01, obtained from yellow passionfruit plants in Livramento de Nossa Senhora, Bahia state, Brazil, was carried out. Sequence analysis demonstrated that the BR:LNS2:Pas:01 DNA‐A had highest nucleotide sequence identity with Tomato chlorotic mottle virus (77%) and had five ORFs corresponding to the genes cp, rep, trap, ren and ac4. The DNA‐B had highest nucleotide sequence identity with Tomato yellow spot virus (74%) and two ORFs corresponding to the genes mp and nsp. These identity values indicate that this isolate represents a new begomovirus species, for which the name Passionfruit severe leaf distortion virus (PSLDV), is proposed. Phylogenetic analysis clustered the PSLDV DNA‐A and ‐B in a monophyletic branch with Brazilian tomato‐infecting begomoviruses. The isolate’s host range was restricted to species from the Passifloraceae and Solanaceae. PSLDV‐[BR:LNS2:Pas:01] was capable of forming pseudorecombinants with tomato‐infecting begomoviruses, reinforcing its close relationship with these viruses and suggesting a possible common origin. However, the virus was not capable of infecting tomato.     

Detection of a broad range of potato viruses in a single assay by mechanical inoculation of herbaceous test plants

To optimize mechanical inoculation of test plants as part of the regulated post-entry quarantine testing of stolon- and tuber-forming Solanum spp. (including potato), nine test plant species have been screened for their ability to detect 22 potato-infecting viruses. These included all the common mechanically transmissible potato viruses and most of the viruses found in potato incidentally. The symptoms observed after mechanical inoculation are shown for each combination of test plant species and virus. Under given conditions, Nicotiana occidentalis -P1 and Nicotiana hesperis -67A were found to detect reliably 20 and 18 out of 22 viruses respectively. These and former results on the seed-transmissible viruses and Andean potato mottle virus demonstrate that these Nicotiana species are very suitable for post-entry quarantine testing. Addition of either Chenopodium amaranticolor or Chenopodium quinoa to these two species may slightly extend the range of viruses. Therefore, using C. amaranticolor / C. quinoa , N. hesperis -67A and N. occidentalis -P1 for the biological screening of imported Solanum spp. will improve both the efficiency and the quality of post-entry quarantine testing.     

Divergent effects of PVY-infected potato plant on aphids

Host plant selection by aphids can be positively or negatively affected when plants are infected by phytoviruses. Potato plants infected by Potato virus Y (PVY), a non-persistent virus, are reported to affect settling behaviour and growth parameters of Myzus persicae Sulzer and Macrosiphum euphorbiae Thomas. Using the Electrical penetration graph system (EPG), we demonstrated that PVY-infection of potato plants influences the feeding behaviour of these two aphid species. Myzus persicae exhibited increased phloem sap ingestion and reduced non-probing duration. Macrosiphum euphorbiae showed delayed stylet insertion, reduced activity in the phloem vessels and an enhanced non-probing duration. In addition, we showed that these two species exhibited different transmission rates. The opposite effects of PVY-infected potato plant on these two aphids are discussed in terms of PVY spreading in the field.     

A generic RT‐PCR assay for the detection of Luteoviridae

This study, using RT‐PCR, is the first comprehensive assessment since 1991 of a generic detection method for the Luteoviridae. Thirteen Luteoviridae species were detected using three separate sets of low‐degeneracy generic primers with RT‐PCR to amplify 68‐, 75‐ and 129/156‐bp regions of the Luteoviridae coat‐protein gene. Species detected include all members of the genus Luteovirus [Barley yellow dwarf virus (BYDV)‐PAV, BYDV‐PAS, BYDV‐MAV (129 and/or 156 bp amplicons), Soybean dwarf virus, Bean leafroll virus (68 bp amplicon)] and eight of nine species from the genus Polerovirus [Beet western yellows virus, Beet chlorosis virus, Beet mild yellowing virus, Turnip yellows virus, Potato leafroll virus, Cucurbit aphid‐borne yellows virus, Cereal yellow dwarf virus‐RPV (68‐bp amplicon) and Sugarcane yellow leaf virus (75‐bp amplicon)]. These primers were not able to detect Carrot red leaf virus, Sweet potato leaf speckling virus (both belong to unassigned Luteoviridae) and Pea enation mosaic virus‐1 (genus Enamovirus). A synthetic positive control containing all primer sequence priming sites was designed to facilitate this method as a generic tool for use with a variety of host plants. The Luteoviridae primers described in this study present a simple infection‐detection tool of benefit to biosecurity authorities in nursery‐stock surveillance, disease management or outbreak prevention, and may also be useful in detection of as‐yet undiscovered species within the Luteovirus and Polerovirus genera.     

Significance of weed hosts for Potato virus Y protection in Syria

A survey of Potato virus Y (PVY) was carried out on weeds growing in and around potato fields in Syria during the autumn growing seasons of 2002, 2004 and 2006. A total of 59 samples of eight weed species and three tobacco ( Nicotiana tabacum ) samples were tested by ELISA using PVY antisera. Among them 15 samples belonged to Solanum nigrum (7 samples), Physalis sp. (6 samples) and tobacco (2 samples) were PVY infected. This suggests that weed hosts and neighbouring tobacco fields are natural reservoirs of PVY in Syria. According to their biological, serological and molecular characteristics, the majority of weed PVY isolates belonged to the PVY^SYR variant indicating a possible correlation between the high incidence of PVY^SYR in potato and weed hosts. This is the first report on the occurrence and characterization of weed PVY isolates from Syria.     

Breeding for resistance to Globodera pallida at CIP1

Breeding for resistance to Globodera pallida, at the International Potato Center (CIP), is directed at pathotypes P4A and P5A. The polygenic nature of resistance and the variability of pathotypes complicate breeding and testing for resistance. Recurrent selection for resistance genes and for agronomic characteristics is used to increase resistant gene frequency in potato populations. Mass seedling screening, as an early indicator of segregation ratios in a progeny, and a petri-plate technique for accurate assessment of resistance in potato clones have proven to be useful aids in selecting for resistance. Clones with partial resistance could be grown by farmers under certain conditions; partial resistance may also be useful in breeding programmes. New differential or tester clones which are better adapted and resistant to P5A populations should be utilized in the Andean region. Although Solanum tuberosum ssp. andigena has been the main source of resistance, especially to pathotype P5A, the CIP breeding programme should now turn to wild species in order to broaden the base of resistance.     

Role of sponge gourd in apical leaf curl disease of potato in Northern India

Potato (Solanum tuberosum) is one of the important vegetable crops in the world and its production is seriously affected by apical leaf curl disease in northern India. This paper reveals the role of cucurbits in maintaining Tomato leaf curl New Delhi virus (ToLCNDV) and Potato apical leaf curl (PALCD) disease in that region. The affected plants showed severe leaf curling and stunted growth. The begomovirus causing leaf curling and mosaic disease in cucurbits could be easily transmitted by the whitefly to potato crops and develop apical leaf curl disease in northern India. The movement of the virus by whiteflies from cucurbits to potato and tomato is possible because of overlapping of planting and harvesting dates of these crops. The causal virus was identified as a begomovirus on the basis of whitefly transmission, PCR, dot blot hybridization, cloning and sequencing of the coat protein gene. The comparison of full length coat protein gene sequence homology revealed that 90% identity with the coat protein gene of ToLCNDV- [Luffa] isolate and the phylogenetic tree derived from these sequences with other selected begomoviruses formed a close cluster with ToLCNDV isolates. The findings proved that the virus causing disease in cucurbits could easily move to tomato and potato and cause leaf curl disease naturally. This is the first observation on the role of sponge gourd for maintenance of ToLCNDV and serving as a host for PALCD in northern India. The findings indicate that the causal organism is a strain of ToLCNDV.