双价外壳蛋白基因植物表达载体的构建及马铃薯转基因植株的鉴定

在克隆了马铃薯Ｘ病毒（ＰＶＸ）、马铃薯Ｙ 病毒（ＰＶＹ）和马铃薯卷叶病毒（ＰＬＲＶ）的外壳蛋白基因的基础上,构建同时包含ＰＶＸ和ＰＶＹ 与ＰＶＹ 和ＰＬＲＶ 两个外壳蛋白基因植物表达框架的表达载体,通过农杆菌（Ａｇｒｏｂａｃｔｅｒｉｕｍ ｔｕｍｅｆａｃｉｅｎｓ）介导转化烟草（Ｎｉｃｏｔｉａｎａｔａｂａｃｕｍ ）和生产上常用的几个马铃薯（Ｓｏｌａｎｕｍ ｔｕｂｅｒｏｓｕｍ ）优良品种：“Ｆａｖｏｒｉｔａ”、“虎头”、“克４”。经ＰＣＲ检测证明外源基因已整合到植物的染色体上,得到批量转基因植株。在转ＰＶＸ＋ＰＶＹ 外壳蛋白基因的烟草上接种ＰＶＸ （５ μｇ／ｍ Ｌ）、ＰＶＹ（２０ μｇ／ｍ Ｌ）病毒,得到有一定抗性的植株     

表达PVY和PLRV双价外壳蛋白基因马铃薯的抗病性研究

表达马铃薯Y病毒(PVY)和马铃薯卷叶病毒(PLRV)双价外壳蛋白基因的马铃薯(Solanum tubero-sum L.)栽培品种“Favorita”和“虎头”,经摩擦接种PVY和用桃蚜接种PLRV后,观察症状并用ELISA测定病毒滴度。结果表明,两个品种转双价CP基因的各株系,接种病毒后表现无症状或症状轻微,其中PVY和PLRV平均滴度均较不转基因对照植株低。不同品种对PVY和PLRV的抗性比较表明,转双价CP基因的“Favorita”对PVY抗性较明显,而转双价CP基因的“虎头”则对PLRV抗性较对PVY抗性明显。不同转基因株系抗病毒水平不同。“Favorita”9个转双价CP基因株系中有6个株系PVY滴度较未转基因对照降低52.5％～90.0％,而“虎头”7个转双价CP基因株系中有4个株系PLRV含量较对照降低53.0％～98.0％。在抗性株系中还出现一些抗1种病毒或抗2种病毒的抗性较强的单株。     

病毒诱导的PVX cp转基因沉默及其DNA甲基化

利用PCR方法获得了马铃薯X病毒(PVX)外壳蛋白(CP)基因(cp),并将其构建到植物表达载体中,利用农杆菌介导的叶盘法转化烟草(Nicotiana tabacum L.)。Northern杂交及Run on实验表明有3株转基因烟草发生了转录后基因沉默。发生沉默的cp基因的甲基化分析结果表明,发生转录后基因沉默的cp基因发生了不同程度的甲基化,说明DNA甲基化并没有完全抑制cp基因的转录。利用PVX病毒对外壳蛋白正常表达的转基因烟草进行接毒,Northern杂交检测结果表明,病毒诱导cp发生了基因沉默。进一步的Run on结果表明,转基因烟草中cp基因在沉默前后转录速率并没有发生变化,说明病毒诱导的沉默是一种转录后沉默。对cp基因沉默前后的甲基化分析表明,病毒的侵染导致了cp基因甲基化程度的增加。     

病毒诱导的PVX cp转基因沉默及其DNA甲基化

利用PCR方法获得了马铃薯X病毒(PVX)外壳蛋白(CP)基因(cp),并将其构建到植物表达载体中,利用农杆菌介导的叶盘法转化烟草(Nicotiana tabacum L.).Northern杂交及Run on实验表明有3株转基因烟草发生了转录后基因沉默.发生沉默的cp基因的甲基化分析结果表明,发生转录后基因沉默的cp基因发生了不同程度的甲基化,说明DNA甲基化并没有完全抑制cp基因的转录.利用PVX病毒对外壳蛋白正常表达的转基因烟草进行接毒,Northern杂交检测结果表明,病毒诱导cp发生了基因沉默.进一步的Run on结果表明,转基因烟草中cp基因在沉默前后转录速率并没有发生变化,说明病毒诱导的沉默是一种转录后沉默.对cp基因沉默前后的甲基化分析表明,病毒的侵染导致了cp基因甲基化程度的增加.     

Volatiles from potato plants infected with potato leafroll virus attract and arrest the virus vector, Myzus persicae (Homoptera: Aphididae)

The influence of viral disease symptoms on the behaviour of virus vectors has implications for disease epidemiology. Here we show that previously reported preferential colonization of potatoes infected by potato leafroll virus (genus Polerovirus) (luteovirus) (PLRV) by alatae of Myzus persicae, the principal aphid vector of PLRV, is influenced by volatile emissions from PLRV-infected plants. First, in our bioassays both differential immigration and emigration were involved in preferential colonization by aphids of PLRV-infected plants. Second, M. persicae apterae aggregated preferentially, on screening above leaflets of PLRV-infected potatoes as compared with leaflets from uninfected plants, or from plants infected with potato virus X (PVX) or potato virus Y (PVY). Third, the aphids aggregated preferentially on screening over leaflet models treated with volatiles collected from PLRV-infected plants as compared with those collected from uninfected plants. The specific cues eliciting the aphid responses were not determined, but differences between headspace volatiles of infected and uninfected plants suggest possible ones.     

采用液质联用方法检测黄秋葵荚果黄酮类物质含量

该研究为了培育兼抗4种病毒的马铃薯品种,采用RT￣PCR技术对PVX、PVS、PVY和PLRV的外壳蛋白( CP )基因进行克隆与分析,获得了大小分别为670、800、700、600 bp的CP基因序列,将获得的CP基因序列与NCBI中已报道的序列进行比对分析,其同源性都在96％以上。根据所克隆的CP 基因对靶标片段进行筛选,获得了大小约300 bp的靶标片段PVX￣rh、PVS￣rh、PVY￣rh和PLRV￣rh,同时利用 Overlap￣PCR技术将4种病毒的靶标片段进行拼接,得到了长度约为1200 bp的融合片段XSYV￣rh,与预期目标片段XSYV￣yxz的相似性达100％。利用DNA重组技术将融合片段XSYV￣rh克隆到pGM￣T载体上构建成克隆载体pGM￣T￣XSYV￣rh,用SpeⅠ和SacⅠ对克隆载体pGM￣T￣XSYV￣rh和植物表达载体pART27进行同步双酶切,用T4 DNA连接酶将XSYV￣rh片段连接到载体pART27上,成功构建了同时含4种病毒CP 基因片段的植物表达载体pART27￣XSYV￣rh。采用直接转化法将植物表达载体导入根癌农杆菌LBA4404中,并利用农杆菌介导法对烟草品种T12试管苗进行遗传转化,转化后的烟草植株经PCR检测,有40株转化植株可扩增出目的条带,表明XSYV￣rh融合基因已成功转入烟草基因组中。     

Transfer of resistance to potato leafroll virus, potato virus Y and potato virus X from Solarium brevidens to S. tuberosum through symmetric and designed asymmetric somatic hybridisation

Resistance to potato leafroll virus (PLRV), potato virus Y (PVY^o) and potato virus X (PVX) was studied in symmetric and asymmetric somatic hybrids produced by electrofusion between Solanum brevidens (2n=2×=24) and dihaploid S. tuberosum (2n=2×=24), and also in regenerants (B-hybrids) derived through protoplast culture from a single somatic hybrid (chromosome number 48). All of the somatic hybrids between 5. brevidens and the two dihaploid lines of potato cv. Pito were extremely resistant to PLRV and PVY^oand moderately resistant to PVX, irrespective of their chromosome number and ploidy level (tetraploid or hexaploid). Most (56%) of the asymmetric hybrids of irradiated S. brevidens and the dihaploid line of potato cv. Pentland Crown (PDH40) had high titres of PVY^osimilar to those of PDH40, whereas the rest of the hybrids had PVY^otitres less than a tenth of those in PDH40. Three B-hybrids had a highly reduced chromosome number (27, 30 and 34), but were however as resistant to PLRV, PVY^oand PVX as 5. brevidens. Two asymmetric hybrids and one B-hybrid were extremely resistant to PLRV but susceptible to both PVY and PVX. The results suggested that resistance to PLRV in 5. brevidens is controlled by a gene or genes different from those controlling resistance to PVY and PVX, and the gene(s) for resistance to PVY and PVX are linked in S. brevidens.     

Effect of mixed viral infections (potato virus Y-potato leafroll virus) on biology and preference of vectors Myzus persicae and Macrosiphum euphorbiae (Hemiptera: Aphididae)

Mixed viral infections of heterologous viruses such as Potato virus Y (family Potyviridae, genus Potyvirus, PVY) and Potato leafroll virus (family Luteoviridae, genus Polerovirus, PLRV) are a regular occurrence in Idaho's potato, Solanum tuberosum (L.), cropping systems. An increased number of plant samples from Idaho's potato fields over the past 2 yr has serologically tested positive for both PVY and PLRV via double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA) and exhibited more severe symptoms than singly-infected plants (PVY or PLRV). Several studies have extensively examined the mixed infection phenomenon but to the best of our knowledge, none have examined the effect of such infections on vector biology and preference. Laboratory studies were conducted to examine the effect of mixed viral (PVY-PLRV) infection on the fecundity and preference of two of the most efficient PVY and PLRV vectors, the green peach aphid, Myzus persicae (Sulzer), and the potato aphid, Macrosiphum euphorbiae (Thomas) (Hemiptera: Aphididae). M. persicae and M. euphorbiae adults were clip-caged (one adult per cage) to leaflets of PVY, PLRV, PVY-PLRV-infected, and noninfected potato plants. The number of nymphs produced in all four treatments was recorded after 96 h. M. persicae and M. euphorbiae fecundity was significantly higher on mixed infected plants than on singly infected plants or noninfected plants. Preference of alatae and apterae of M. persicae and M. euphorbiae was determined with the use of settling bioassays. Both alatae and apterae of M. persicae and M. euphorbiae preferentially settled on PVY-PLRV-infected plants than on singly infected plants (PVY or PLRV) or noninfected plants.     

Occurrence of potato virus X strain group 1 in seed stocks of potato cultivars lacking resistance genes

Potato virus X (PVX) isolates were obtained from a simple seed potato production scheme or from ware potatoes produced by seed potatoes obtained from it. In this scheme, PVX infection is widespread in seed stocks and most of the potatoes grown lack PVX resistance genes. Thirteen PVX isolates were typed to strain group by inoculation to potato cultivars containing different combinations of hypersensitivity genes Nx and Nb. Six failed to overcome either gene and therefore belonged to strain group 1, four overcame Nb only and were placed in strain group 3 and three were mixtures of the two. All 13 isolates failed to overcome extreme resistance/immunity gene Rx. Naturally infected cultivars of genotype nx.nb contained strain group 1 alone or strain groups 1 and 3, while those of genotype nx:Nb contained only strain group 3. The widespread occurrence of strain group 1 contrasts with the predominant occurrence of strain group 3 in potatoes in the UK. However, it resembles the UK situation before sophisticated seed potato production schemes were introduced and before PVX hypersensitivity genes Nx and Nb were deliberately exploited in potato breeding. Prior infection with potato leafroll virus (PLRV) did not affect expression of hypersensitivity to PVX in inoculated leaves of an nx:Nb genotype.     

马铃薯单双三价抗病毒基因表达载体的构建

马铃薯Y病毒(PVY)、X病毒(PVX)和卷叶病毒(PLRV)引起的病害是造成我国马铃薯退化的主要原因,严重危害我国的马铃薯生产。PVY和PVX或PVY和PLRV混合侵染带来的损失远远大于各病毒单独侵染。国外科学家通过在马铃薯植株体内表达病毒外壳蛋白(CP)基因来减缓病毒病害的发生已取得相当的成功。 我们从河北省坝上地区农科所试验田中采集PLRV感病材料Burbank及87-1,参照文献提取病毒RNA并以其为模板,反转录合成cDNA。根据PLRV澳大利亚分离物已发表的序列,设计并     

Accumulation of potato virus Y is enhanced in Solatium brevidens also infected with tobacco mosaic virus or potato spindle tuber viroid

The accumulation of potato virus Y?(PVY?) and potato leaf roll virus (PLRV) was studied in plants of Solanum brevidens co-infected with each of six viruses or a viroid. Virus could not be detected by ELISA in plants of S. brevidens infected solely with PVY. However, accumulation of PVY was increased c. 1000-fold in plants doubly infected with tobacco mosaic virus or potato spindle tuber viroid (PSTVd). PVY titres in doubly infected plants of S. brevidens were between 1% and 0.1% of those found in the PVY-susceptible interspecific Solanum hybrid DTO-33. Double infections of 5. brevidens by PVY and alfalfa mosaic virus or potato viruses M, S, T or X did not significantly enhance PVY accumulation. Accumulation of PLRV was not enhanced in plants co-infected with any of the six viruses or PSTVd.     

Expression of a luteoviral movement protein in transgenic plants leads to carbohydrate accumulation and reduced photosynthetic capacity in source leaves

Elucidating the role of viral genes in transgenic plants revealed that the movement protein (MP) from tobacco mosaic virus is responsible for altered carbohydrate allocation in tobacco and potato plants. To study whether this is a general feature of viral MPs, the movement protein MP17 of potato leafroll virus (PLRV), a phloem-restricted luteovirus, was constitutively expressed in tobacco plants. Transgenic lines were strongly reduced in height and developed bleached and sometimes even necrotic areas on their source leaves. Levels of soluble sugars and starch were significantly increased in source leaves. Yet, in leaf laminae the hexose—phosphate content was unaltered and ATP reduced to only a small extent, indicating that these leaves were able to maintain homeostatic conditions by compartmentalization of soluble sugars, probably in the vacuole. On the contrary, midribs contained lower levels of soluble sugars, ATP, hexose—phosphates and UDP-glucose supporting the concept of limited uptake and catabolism of sucrose in the phloem. The accumulation of carbohydrates led to a decreased photosynthetic capacity and carboxylation efficiency of ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) probably owing to decreased expression of photosynthetic proteins. In parallel, levels of pathogenesis-related proteins were elevated which may be the reason for the obtained limited resistance against the unrelated potato virus Y (PVY)^N in the transgenic tobacco plants. Ultrathin sections of affected leaves harvested from 2-week-old plants revealed plasmodesmal alterations in the phloem tissue while plasmodesmata between mesophyll cells were indistinguishable from wild-type. These data favour the phloem tissue to be the primary site of PLRV MP17 action in altering carbohydrate metabolism.     

Antiphytovirale Wirkungen von 1,5-Diacetyl-2,4-dioxohexahydro-1,3,5-triazin (DA-DHT)*

Antiphytoviral activities of 1,5-diacetyl-2,4-dioxohexahydro-1,3,5-triazine Substitution of 2,4-dioxohexahydro-1,3,5-triazine (DHT) by two acetyl groups resulted in an antiphytoviral compound, 1,5-diacetyl-2,4-dioxohexahydro-1,3,5-triazine (DA-DHT), which inhibits PVX, PVY, ToMV, TMV and TRV better than DHT, but only after, application at relatively high concentrations (10^?2 mol/1). The antiphytoviral activity of DA-DHT is enhanced by combined treatments with DHT as well as with cyanoguanidine, sodiumalkanemonosulfonate and 2-anilino-5-adamantyl-1,3,4-thiadiazole., DA-DHT reduced the number of symptoms of PLRV bearing potato eye cutting plants to a higher percentage than DHT. But the highest reduction was brought about by combined treatments with DA-DHT, cyanoguanidine, sodiumalkanemonosulfonate and 2-anilino-5-adamantyl-1,3,5-thiadiazole. Moreover, treatments with DA-DHT increased more than treatments with DHT the mass of potato tubers produced by potato eye cutting plants. Combined treatments with DA-DHT and the above mentioned substances reduced the natural infection with PLRV of a completely healthy potato stock for about 70 % and that of PVY for about 40 %. Thus, the DA-DHT containing preparations may be capable of keeping potatoes in a good state of health even in regions with a high infection pressure.     

A major quantitative trait locus for resistance to Potato leafroll virus is located in a resistance hotspot on potato chromosome XI and is tightly linked to N-gene-like markers.

Potato leafroll virus (PLRV) causes one of the most widespread and important virus diseases in potato. Resistance to PLRV is controlled by genetic factors that limit plant infection by viruliferous aphids or virus multiplication and accumulation. Quantitative trait locus (QTL) analysis of resistance to virus accumulation revealed one major and two minor QTL. The major QTL, PLRV.1, mapped to potato chromosome XI in a resistance hotspot containing several genes for qualitative and quantitative resistance to viruses and other potato pathogens. This QTL explained between 50 and 60% of the phenotypic variance. The two minor QTL mapped to chromosomes V and VI. Genes with sequence similarity to the tobacco N gene for resistance to Tobacco mosaic virus were tightly linked to PLRV.1. The cDNA sequence of an N-like gene was used to develop the sequence characterized amplified region (SCAR) marker N127(1164) that can assist in the selection of potatoes with resistance to PLRV.     

马铃薯Y病毒蚜传辅助成分介导PVX/PVY协生作用

构建了马铃薯Y病毒中国株系（PVY－C）蚜传辅助成分（HC－Pro）基因的正义、反义和缺失三种植物表达载体,通过农杆菌介导法转化烟草品种NC89。Southern blot分析表明,HC－Pro基因及其突变体已经整合到烟草染色体中,Western blot分析证明,正义HC－Pro基因及其缺失突变体在转基因烟草中有表达产物,攻毒试验结果表明,转正义,HC－Pro基因及其缺失突变体不仅能够提高T1转基因烟草中PVY－C的病毒积累和致病,而且对异源病毒PVX具有同样的作用,而转反义HC－Pro基因烟草对PVY－C和PVX的致病性无影响,因此,PVY－C HC－Pro基因介导PVX／PVY的协作作用。     

Generation of transgenic potato plants highly resistant to potato virus Y (PVY) through RNA silencing

In this study we applied RNA silencing to engineer potato plants that are resistant to potato virus Y (PVY). We expressed double-stranded (ds) RNA derived from the 3 terminal part of the coat protein gene of PVY, which is highly conserved in sequence amongst different PVY isolates, in transgenic potatoes of the commercial variety Spunta. Transgenic plants were analyzed for generation of transgene-derived short interfering RNAs (siRNAs) prior to virus inoculation. Twelve of fifteen transgenic lines produced siRNAs and were highly resistant to three strains of PVY, each belonging to three different subtypes of the virus (PVY^N, PVY^O and PVY^NTN). Infection of transgenic plants with Potato virus X (PVX) simultaneously or prior to the challenge with PVY did not interfere with PVY-resistance.Anastasia Missiou: M.A. and K.K. have contributed equally to this workKriton Kalantidis: M.A. and K.K. have contributed equally to this work     

Over-expression of potato virus X TGBp1 movement protein in transgenic tobacco plants causes developmental and metabolic alterations.

Transgenic Nicotiana tabacum plants expressing the TGBp1 movement protein of potato virus X (PVX) were studied to investigate the effects caused by this protein on plant physiology and development. TGBp1 caused consistent reductions of size and weight in different organs of these plants; however shoot-to-root ratios were similar to those of control plants. Transgenic seedlings showed smaller root meristems and calli derived from TGBp1 leaves grew at a slower rate through successive subcultures. Microscopic observations of TGBp1 plants revealed flattened chloroplasts containing plastoglobuli-like bodies. Further analyses showed a considerable reduction in photosynthetic rate, lower starch levels in leaves and roots, higher nitrate accumulation in leaves and induction of pathogenesis-related (PR) protein genes. Since these changes were not observed when other PVX sequences were expressed in tobacco, we postulate that TGBp1 is an important symptom contributor in PVX infections.     

Replicase mediated resistance against potato leafroll virus in potato Desirée plants

Potato leafroll virus (PLRV) is a major menace for the potato production all over the world. PLRV is transmitted by aphids, and until now, the only strategy available to control this pest has been to use large amounts of insecticides. Transgenic approaches involving the expression of viral replicases are being developed to provide protection for plants against viral diseases. The purpose of this study was to compare the protection afforded by the differential expression of PLRV replicate transgene in potato plants cv. Desirée, Plants were genetically modified to express the complete sense PLRV replicase gene. Two constructions were used, one containing the constitutive 35SCaMV promoter and the other the phloem-specific RolA promoter from Agrobacterium rhizogenes. Transgenic plants were infected with PLRV in vitro, using infested aphids. In plants in which 35SCaMV controlled the expression of the PLRV replicase gene, signs of infection were initially detected, although most plants later developed a recovery phenotype showing undetectable virus levels 40 days after infection. In turn, those plants with the RolA promoter displayed an initial resistance that was later overcome. Different molecular mechanisms are likely to participate in the response to PLRV infection of these two types of transgenic plants.     

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.