烟粉虱及海氏桨角蚜小蜂对中国番茄黄化曲叶病毒感染烟草的嗅觉反应

双生病毒可通过调控寄主植物促进媒介昆虫烟粉虱种群增长,然而病毒侵染植物后是否通过调控植物挥发物来影响烟粉虱及其天敌的嗅觉反应还未见报道。【目的】本文旨在研究烟草植株感染中国番茄黄化曲叶病毒(Tomato yellow leaf curl China virus,TYLCCNV)后对烟粉虱Bemisia tabaci(Gennadius)及其重要寄生性天敌海氏桨角蚜小蜂Eretmocerus hayati(Zolnerowich and Rose)嗅觉反应行为的影响。【方法】利用Y形嗅觉仪方法,我们测试了烟粉虱及海氏桨角蚜小蜂对带毒植株、健康植株及烟粉虱危害植株的选择偏好性。【结果】烟粉虱及海氏桨角蚜小蜂选择携带TYLCCNV病毒的烟草显著多于健康烟草植株,但烟草被病毒与烟粉虱共同侵染时,烟粉虱对带毒烟草的选择仍显著多于无毒植株,而寄生蜂虽然仍较多选择带毒植株,但无显著差异。【结论】这些结果表明烟粉虱及海氏桨角蚜小蜂偏好选择携带TYLCCNV病毒的烟草,但这种偏好作用在烟粉虱取食共同危害时有一定程度的减弱。本研究首次报道了双生病毒侵染植物可增加烟粉虱及其天敌对植物的选择作用,并就其功能及机制进行了讨论。     

烟粉虱携带番茄黄化曲叶病毒检测及其传入山东省的考证

【背景】番茄黄化曲叶病毒（TYLCV）是由媒介昆虫烟粉虱传播的一种双生病毒,对蔬菜及烟草等经济作物造成严重危害。前人资料表明,该病毒于2006年传人我国南方地区,2007年传人山东省,2008年后在山东各地逐渐蔓延扩散。【方法】为了考证TYLcV传人山东省的时间,本研究利用mtCOI基因对于2005和2006年7—8月份在山东省不同地区作物上共采集的15份烟粉虱样品进行了生物型鉴定,并进一步检测了烟粉虱携带TYLCV情况,同时对PCR扩增产物进行了测序分析。【结果】2005年的4份样品烟粉虱生物型均为B型,均不携带TYLCV。2006年的11份烟粉虱样品为B型与Q型混合样品,其中,2份烟粉虱样品检测到TYLCV,进一步证实该病毒为TYLCV。【结论与意义】本研究首次证实了TYLCV早在2006年就已经传入山东省。研究结果不仅对于防控该病毒具有重要指导意义,而且对于其入侵生物学研究也具有重要参考价值。     

Tomato yellow leaf curl virus and Tomato leaf curl Taiwan virus Invade South-east Coast of China

An epidemic outbreak of severe yellow leaf curl disease was reported in field grown tomato within Zhejiang Province of China in the autumn–winter cropping season of 2006. A molecular diagnostic survey was carried out based on comparisons of partial and complete viral DNA sequences. Comparison of partial DNA‐A sequences amplified with degenerate primers specific for begomoviruses confirmed the presence of two types of begomoviruses. The complete DNA sequences of five isolates, corresponding to the two types, were determined. Sequence comparisons and phylogenetic analysis revealed that they correspond to two previously identified begomoviruses, Tomato yellow leaf curl virus and Tomato leaf curl Taiwan virus. The satellite DNAβ molecule was not detected in these samples by either PCR or Southern blot hybridization analysis. There has been no previous report of geminivirus disease incidence in Zhejiang Province, indicating that the introduction of these two tomato infecting geminiviruses into the agro‐ecological zone of South‐eastern China is a fairly recent event. The implications for disease control are discussed.     

The autophagy pathway participates in resistance to tomato yellow leaf curl virus infection in whiteflies

Macroautophagy/autophagy plays an important role against pathogen infection in mammals and plants. However, little has been known about the role of autophagy in the interactions of insect vectors with the plant viruses, which they transmit. Begomoviruses are a group of single-stranded DNA viruses and are exclusively transmitted by the whitefly Bemisia tabaci in a circulative manner. In this study, we found that the infection of a begomovirus, tomato yellow leaf curl virus (TYLCV) could activate the autophagy pathway in the Middle East Asia Minor 1 (MEAM1) species of the B. tabaci complex as evidenced by the formation of autophagosomes and ATG8-II. Interestingly, the activation of autophagy led to the subsequent degradation of TYLCV coat protein (CP) and genomic DNA. While feeding the whitefly with 2 autophagy inhibitors (3-methyladenine and bafilomycin A₁) and silencing the expression of Atg3 and Atg9 increased the viral load; autophagy activation via feeding of rapamycin notably decreased the amount of viral CP and DNA in the whitefly. Furthermore, we found that activation of whitefly autophagy could inhibit the efficiency of virus transmission; whereas inhibiting autophagy facilitated virus transmission. Taken together, these results indicate that TYLCV infection can activate the whitefly autophagy pathway, which leads to the subsequent degradation of virus. Furthermore, our report proves that an insect vector uses autophagy as an intrinsic antiviral program to repress the infection of a circulative-transmitted plant virus. Our data also demonstrate that TYLCV may replicate and trigger complex interactions with the insect vector.     

Tomato yellow leaf curl virus infection of tomato does not affect the performance of the Q and ZHJ2 biotypes of the viral vector Bemisia tabaci

Abstract To better understand the etiology of begomovirus epidemics in regions under invasion we need to know how indigenous and invasive whitefly vectors respond to virus infection. We investigated both direct and indirect effects of infection with Tomato yellow leaf curl virus (TYLCV) on the performance of the invasive Q biotype and the indigenous Asian ZHJ2 biotype of whitefly Bemisia tabaci. The Q biotype performed better than the ZHJ2 biotype on either uninfected or virus‐infected tomato plants. However, virus‐infection of host plants did not, or only marginally affected, the performance of either biotype of whiteflies in terms of fecundity, longevity, survival, development and population increase. Likewise, association of the vectors with TYLCV did not affect fecundity and longevity of the Q or ZHJ2 biotypes on cotton, a non‐host of TYLCV. These results indicate that the alien Q biotype whitefly, but not the indigenous ZHJ2 biotype, is likely to become the major vector of TYLCV in the field and facilitate virus epidemics.     

两个入侵烟粉虱隐种MEAM1与MED对番茄黄曲叶病毒水平传播能力的比较

【目的】烟粉虱 Bemisia tabaci 是番茄黄曲叶病毒（Tomato yellow leaf curl virus, TYLCV）在自然界的唯一传播媒介,除了可以直接取食获取TYLCV,烟粉虱还可以通过交配获取此植物病毒。虽然前人研究证明了烟粉虱Middle East-Asia Minor 1 （MEAM1）和Mediterranean （MED）隐种都可以通过交配在两性个体之间水平传播TYLCV,但有关MEAM1与MED隐种水平传播TYLCV的能力是否存在差异,不同研究的结果却并不一致。另外,目前尚无关于烟粉虱的水平传播行为是否有助于TYLCV在田间扩散的相关研究。【方法】从浙江、广东、云南和河南4个省份的田间采集MEAM1和MED隐种烟粉虱种群,在室内应用分子标记对各种群所属隐种鉴定后分别建立7个供试种群,然后观察每个种群内带毒成虫与不带毒成虫通过交配在不同性别个体之间水平传播TYLCV的能力,并选用采自广东的MEAM1隐种烟粉虱模拟群体交配实验探究通过交配获毒的烟粉虱个体是否具有传播TYLCV致健康番茄植株发病的能力。【结果】4个省内的MEAM1和MED隐种烟粉虱都可通过交配对TYLCV进行水平传播,但传播频率一般在10%以下。不同省份的MEAM1隐种种群之间在水平传播TYLCV的能力上无显著差异,不同省份的MED隐种种群之间也不存在显著差异。另外,同一省份的MEAM1隐种与MED隐种之间在水平传播TYLCV的能力上也不存在显著差异,而且在两个隐种中,带毒雄虫将病毒水平传播给不带毒雌虫与带毒雌虫将病毒水平传播给不带毒雄虫的频率没有显著差异。研究还表明,采自广东的MEAM1隐种烟粉虱个体通过交配水平获毒后不能致健康番茄植株发病。【结论】综合以上结果,我们推测TYLCV在中国境内两个入侵烟粉虱隐种MEAM1和MED各自种群内个体之间的水平传播概率较低,对该病毒在田间的扩散可能没有作用或作用不大。     

番茄玉米间套作对烟粉虱的屏障效应及控制番茄黄化曲叶病毒病的效果

为探讨番茄与玉米间套作对烟粉虱的趋避效应及控制番茄黄化曲叶病毒病的效果,设置番茄品种‘金山511'以固定株行距与玉米品种‘先玉335'分别以10、20、30 cm的播种株距进行间作套种,调查3种栽培方式对烟粉虱屏障效应及黄化曲叶病毒病发生的影响。结果表明: 与番茄单作相比,玉米植株建立起的自然屏障使番茄生长环境相对稳定,玉米播种株距为10、20、30 cm时,番茄植株在6:00—20:00的平均温度分别降低3.01、2.26和1.45 ℃,平均相对湿度分别提高13.0%、8.8%、6.0%,平均光照强度分别降低26.1%、20.4%和14.5%;在每日的高温时段可显著降低番茄温度,提高湿度,减少光照强度,有效缓解强光、高温和干旱等有利于病毒病发生的不良环境条件,且在玉米播种距离为10 cm时效果最好。番茄间作玉米对烟粉虱有趋避效应,能抑制番茄黄化曲叶病毒病的发生,玉米株距为10、20、30 cm时,烟粉虱虫口数分别比单作减少88.7%、82.0%、73.9%,对病毒病的抑制作用呈减弱趋势,间作病情指数分别显著降低67.3%、59.4%和44.5%。玉米/番茄间作的种植模式有利于番茄植株生长和坐果,可提升番茄产量,玉米种植密度越高,效果越好,本试验条件下以玉米种植株距10 cm效果最好。     

烟粉虱体内木尔坦棉花曲叶病毒的LAMP快速检测技术

木尔坦棉花曲叶病毒(Cotton leaf curl Multan virus,CLCu Mu V)是引起世界范围内棉花曲叶病流行的主要病原之一,目前已入侵我国广东、广西、海南、福建、云南等地区。该病害由烟粉虱传播,随着烟粉虱扩散范围增加、危害不断加重,棉花曲叶病对我国棉花生产的潜在危害也日益增加。加强该病毒传播介体携带病毒的快速、特异性检测技术研发,对该病害的有效检疫与防控具有重要意义。本研究基于木尔坦棉花曲叶病毒(CLCu Mu V)的基因序列设计出LAMP检测4条特异性引物,建立LAMP扩增体系并优化扩增条件,扩增试验证明引物组合的特异性高,LAMP检测所需时间短,仅29 min即可定性检测CLCu Mu V扩增产物;该方法较普通PCR的扩增灵敏度高,可用于检测1头烟粉虱体内是否携带CLCu Mu V,简便易行,只通过颜色变绿或浊度变浑浊即可定性判断。建立的LAMP检测技术可被用于苗木上烟粉虱携带CLCu Mu V的早期检测,为介体昆虫带毒的检疫监测提供一种快速、准确和易操作的新技术。     

Transmission of tomato leaf curl geminiviruses by Bemisia tabaci: effects of virus isolate and vector biotype

Cultures of Bemisia tabaci from Ivory Coast (IC), Pakistan (PK) and USA (US B-type) were compared for the frequency with which they transmitted three tomato geminivirus isolates: Indian tomato leaf curl virus from Bangalore (ITmLCV), and tomato yellow leaf curl viruses from Nigeria (TYLCV-Nig) and Senegal (TYLCV-Sen). Frequency of transmission from tomato to tomato depended both on the whitefly culture and the virus isolate. US B-type and IC whiteflies transmitted TYLCV-Sen more frequently than ITmLCV whereas PK whiteflies transmitted ITmLCV more frequently than TYLCV-Sen. US B-type whiteflies transmitted both viruses four to nine times more frequently than IC whiteflies. TYLCV-Nig was transmitted rarely by US B-type and not at all by IC whiteflies. Previous work indicates that the geminivirus coat protein controls vector transmissibility. The differential adaptation of TYLCV-Sen to transmission by US B-type whiteflies and of ITmLCV to PK whiteflies was associated with a large difference in epitope profile of the coat proteins of the two viruses. Also, the readily transmissible TYLCV-Sen differed appreciably in epitope profile from the poorly transmissible TYLCV-Nig, which reached a consistently greater concentration in source tissues but lacked epitope 18. However, the lack of epitope 18 in ITmLCV did not prevent its transmission by US B-type whiteflies. Differences in frequency and specificity of geminivirus transmission by whitefly cultures from different countries therefore were associated with differences among epitope profiles of the coat proteins of the viruses, but the structural features of the proteins that control transmission remain to be determined.     

新疆地区烟粉虱生物型的区域分布及其携带的番茄黄化曲叶病毒检测

【目的】明确不同烟粉虱Bemisia tabaci (Gennadius)生物型在新疆地区的区域分布及其携带番茄黄化曲叶病毒的情况。【方法】本文利用烟粉虱mtDNA COⅠ基因片段作标记以及番茄黄化曲叶病毒(tomato yellow leaf curl virus, TYLCV)特异性引物, 鉴定新疆不同地区烟粉虱生物型, 并检测其携带TYLCV情况。【结果】石河子市、 博乐市、 岳普湖县、 泽普县、 叶城县、 莎车县、 墨玉县、 和田市与和田县烟粉虱属于B型烟粉虱, 且720 bp COⅠ基因序列一致性为100%; 阿克苏市、 哈密市、 鄯善县、 乌鲁木齐市、 克拉玛依市与伊宁市烟粉虱属于Q型烟粉虱, 720 bp COⅠ基因序列一致性为99.9%~100%; 吐鲁番市与库尔勒市兼有B型烟粉虱和Q型烟粉虱。伊宁市、 乌鲁木齐市、 鄯善县、 哈密市、 阿克苏市、 库尔勒市、 莎车县、 和田县和墨玉县的烟粉虱样本携带TYLCV, 除2011年底已经暴发危害的莎车县外, 其他区域均为番茄黄化曲叶病毒病发生的高风险区域。【结论】本研究为新疆地区烟粉虱及番茄黄化曲叶病毒病的科学防控提供依据。     

辽宁省冬季温室内越冬粉虱伪蛹的种类鉴定及烟粉虱体内番茄黄化曲叶病毒的检测

为了揭示辽宁省冬季温室内越冬粉虱伪蛹的种类及烟粉虱Bemisia tabaci （Gennadius）携带番茄黄化曲叶病毒（tomato yellow leaf curl virus, TYLCV）情况, 于2012年1月份在辽宁省不同县市区的温室作物上采集了17份粉虱伪蛹样品（每样品含30头粉虱伪蛹） , 镜检鉴别粉虱种类并利用mtCOI基因对烟粉虱生物型进行了鉴定; 检测了烟粉虱携带TYLCV情况并对其PCR扩增产物进行了测序分析。结 果表明： 辽宁省冬季温室内存在越冬温室白粉虱Trialeurodes vaporariorum （Westwood）与烟粉虱。17份粉虱样品中, 11份样品为烟 粉虱样品, 6份样品为温室白粉虱和烟粉虱混合样品。混合样品中, 温室白粉虱仅在锦州凌海（LH）样品中占优势。17份烟粉虱样品（包 括混合样品）中, 仅有4份样品为B型与Q型混合样品, 其他13份样品烟粉虱生物型均为Q型。17份烟粉虱样品中有3份Q型烟粉虱样品检测 到TYLCV, 系统树分析进一步证实该病毒是TYLCV。调查结果为辽宁省粉虱与TYLCV的早期测报和防控提供了科学依据。     

Acquisition and Transmission of two Begomoviruses by the B and a non-B Biotype of Bemisia tabaci from Zhejiang, China

Acquisition and transmission was studied of Tomato yellow leaf curl China virus (TYLCCNV) and Tobacco curly shoot virus (TbCSV) by the B and a non‐B biotype (China‐ZHJ‐1) of Bemisia tabaci from Zhejiang, China. The frequency of TYLCCNV and TbCSV detection by PCR in whitefly adults increased with increasing length of feeding on virus‐infected plants. The virus DNA was detected by PCR in 40% of the B biotype adults tested after a period of 30 min access to infected plants and in all adults after a 12‐h period of access. All ZHJ‐1 adults acquired TYLCCNV and TbCSV after a 48‐h period of access to the virus‐infected plants. Viruliferous B and ZHJ‐1 adults retained TYLCCNV DNA for their entire life when placed on healthy cotton plants. Viruliferous ZHJ‐1 adults retained TbCSV DNA for their entire life when placed on healthy cotton plants but the B biotype adults did not. Transmission of TYLCCNV was achieved with one B or ZHJ‐1 adult per plant, and the probability of transmission reached 100% when the number of adults was increased to 10 per plant. The efficiency for TYLCCNV transmission to healthy plants by adults of both B and ZHJ‐1 was much higher than that for TbCSV.     

The circulative pathway of begomoviruses in the whitefly vector Bemisia tabaci— insights from studies with Tomato yellow leaf curl virus

Our current knowledge concerning the transmission of begomoviruses by the whitefly vector Bemisia tabaci is based mainly on research performed on the Tomato yellow leaf curl virus (TYLCV) complex and on a number of viruses originating from the Old World, such as Tomato leaf curl virus, and from the New World, including Abutilon mosaic virus, Tomato mottle virus, and Squash leaf curl virus. In this review we discuss the characteristics of acquisition, transmission and retention of begomoviruses by the whitefly vector, concentrating on the TYLCV complex, based on both published and recent unpublished data. We describe the cells and organs encountered by begomoviruses in B. tabaci. We show immunolocalisation of TYLCV to the B. tabaci stylet food canal and to the proximal part of the descending midgut, and TYLCV‐specific labelling was also associated with food in the lumen. The microvilli and electron‐dense material in the epithelial cells of the gut wall were also labelled by the anti TYLCV serum, pointing to a possible virus translocation route through the gut wall and to a putative site of long‐term virus storage. We describe the path of begomoviruses in their vector B. tabaci and in the non‐vector whitefly Trialeurodes vaporariorum, and we follow the rate of virus translocation in these insects. We discuss TYLCV transmission between B. tabaci during mating, probably by exchange of haemolymph. We show that following a short acquisition access to infected tomato plants, TYLCV remains associated with the B. tabaci vector for weeks, while the virus is undetectable after a few hours in the non‐vector T. vaporariorum. The implications of the long‐term association of TYLCV with B. tabaci in the light of interactions of the begomovirus with insect receptors are discussed.     

Tomato yellow leaf curl virus differentially influences plant defence responses to a vector and a non‐vector herbivore

Plants frequently engage in simultaneous interactions with diverse classes of biotic antagonists. Differential induction of plant defence pathways by these antagonists, and interactions between pathways, can have important ecological implications; however, these effects are currently not well understood. We explored how Tomato yellow leaf curl virus (TYLCV) influenced the performance of its vector (Bemisia tabaci) and a non‐vector herbivore (Tetranychus urticae) occurring separately or together on tomato plants (Solanum lycopersicum). TYLCV enhanced the performance of B. tabaci, although this effect was statistically significant only in the absence of T. urticae, which adversely affected B. tabaci performance regardless of infection status. In contrast, the performance of T. urticae was enhanced (only) by the combined presence of TYLCV and B. tabaci. Analyses of phytohormone levels and defence gene expression in wild‐type tomatoes and various plant‐defence mutants indicate that the enhancement of herbivore performance (for each species) entails the disruption of downstream defences in the jasmonic acid (JA) pathway. For T. urticae, this disruption appears to involve antagonistic effects of salicylic acid (SA), which is cumulatively induced to high levels by B. tabaci and TYLCV. In contrast, TYLCV was found to suppress JA‐mediated responses to B. tabaci via mechanisms independent of SA.     

番茄感染双生病毒对叶毛密度和海氏桨角蚜小蜂搜寻行为及适合性的影响

植物病毒可通过影响植物形态和生理特性从而对媒介昆虫和寄生性天敌产生作用。然而, 在植物 媒介昆虫 寄生蜂三营养级关系研究中有关植物病毒的影响很少被考虑。本研究测定和分析了番茄植株感染番茄黄化曲叶病毒（tomato yellow leaf curl virus, TYLCV)后叶毛密度的变化及对烟粉虱Bemisia tabaci (Gennadius)重要寄生性天敌海氏桨角蚜小蜂Eretmocerus hayati Zolnerowich and Rose行为与适合性的影响。结果表明： 携带TYLCV病毒番茄植株叶毛密度显著增加, 为健康植株叶毛密度的1.8倍。海氏桨角蚜小蜂在带毒植株叶片上的寄主处置时间和寄主块停留时间显著长于其在健康植株叶片上的时间, 分别为其2倍和1.5倍, 但寄生蜂的寄生率、 羽化率及发育历期差异不显著(P>0.05)。本文首次报道了双生病毒侵染可引起叶毛密度的增加, 对理解植物-双生病毒-烟粉虱-寄生蜂四方关系提供了新的数据。     

Expression of the Full‐length Coat Protein Gene of Tomato leaf curl Taiwan virus is Not Necessary for Recovery Phenotype in Transgenic Tomato

Transgenic tomato plants expressing full‐length (CPV1) and truncated coat protein (CP) gene (CPV2) of Tomato leaf curl Taiwan virus (ToLCTWV) were generated by Agrobacterium‐mediated transformation. Transgene integration and expression was confirmed by PCR and Southern blotting and Northern analysis, respectively. Resistance was evaluated both in plants of T0 and T1 progenies using viruliferous whiteflies under two different inoculum pressures (10–15 and 40–50 whiteflies/plant). Upon inoculation with ToLCTWV using viruliferous whiteflies, various levels of phenotypic reaction were observed. No complete resistance was observed in any of the plants tested. The reaction of the transgenic tomato lines carrying full‐length and truncated CP gene to ToLCTWV phenotype was (i) susceptible as non‐transgenic control, (ii) delayed symptom expression, (iii) complete susceptible (from delayed symptom expression phenotype) and (iv) recovered phenotype (either plants from symptom expression as non‐transgenic plants or delayed symptom expression phenotype). Dot blot quantification of the ToLCTWV using the replicase gene as a probe revealed that the recovered phenotypes accumulated a low level of ToLCTWV, and virus concentration was gradually reduced from 10 to 14 weeks postinoculation. The possible mechanisms of CP‐mediated resistance are discussed.     

A virus and its vector,pepper yellow leaf curl virus and <Emphasis Type="Italic">Bemisia tabaci</Emphasis>, two new invaders of Indonesia

Bemisia tabaci is a species of sap-sucking insect belonging to the Aleyrodidae and are commonly known as whiteflies. The species is made up of a complex of distinct genetic groups which have a strong geographic pattern to their genetic structure. Two members of this complex known as the B and Q biotypes have proven to be particularly invasive, spreading with the aid of trade in ornamental plants, well beyond their home ranges across the Mediterranean Basin, Middle East and Asia Minor. This study uses DNA microsatellites to identify another biological invasion this time involving a B. tabaci from south east Asia. We provide evidence which supports an invasion sometime between 1994 and 1999 of B. tabaci from central Thailand into the Indonesian islands of Sumatra then Java and Bali. The invasion is also associated with the invasion of pepper yellow leaf curl virus, a begomovirus transmitted by B. tabaci, which is also shown to have a probable origin in the same geographic region as the invading whitefly. The consequences of the invasion of a plant-infecting virus and its vector has been a massive increase in the scale and impact of begomoviruses in tomato and chilli production which has seen regional bans imposed on the planting of chilli, an important cash crop for many village farmers in Sumatra and Java.     

Effect of host plant species of cotton whitefly Bemisia tabaci Middle East‐Asia Minor 1 (Hemiptera: Aleyrodidae) on the development,survival and reproduction of its predaceous ladybeetle Serangium japonicum (Coleoptera: Coccinellidae)

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