黄瓜绿斑驳花叶病毒基因组全序列分析及病害的田间调查

为明确近年来在浙江省葫芦科作物上发生的黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)基因组特征及其发生分布情况,从浙江省及上海地区的甜瓜、西瓜和瓠瓜上采集疑似样品进行RT-PCR鉴定,通过分段扩增测序的方法拼接获得基因组全序列并进行系统进化分析,利用特异性引物扩增获得CGMMV外壳蛋白(coat protein,CP)基因序列,制备CGMMV CP抗血清进行Western-blot和Dot-ELISA检测。结果显示,来自甜瓜、西瓜和瓠瓜的3个CGMMV分离物基因组全序列均具有烟草花叶病毒属典型基因组结构特征,全部由6 423 nt构成;3个全序列间的核苷酸同源性高达99.11%~99.67%,编码的CP氨基酸同源性为100%。系统进化分析发现,CGMMV不同分离物形成2个进化相关群体,3个浙江的CGMMV分离物均位于第I组内,与已报道的中国CGMMV分离物和韩国CGMMV分离物亲缘性较高。Western-blot检测表明CGMMV CP抗血清可以与感病植株中的病毒发生特异性反应,可用于CGMMV鉴定;Dot-ELISA检测发现CGMMV在浙江省和上海市的葫芦科作物上普遍存在。     

侵染葫芦的黄瓜绿斑驳花叶病毒广西分离物分子鉴定

从广西南宁市郊温室大棚中的葫芦[Lagenaria siceraria(Molina)Stand.]上采集到一个表现脉绿、花叶症状的病毒样品,ELISA检测表明,该样品与黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)有密切的血清学关系,利用RT-PCR方法从样品中扩增获得约500bp的DNA片段,序列分析表明,该片段是CGMMV的外壳蛋白基因,暂将该病毒分离物定名为GX-BG。外壳蛋白基因核苷酸序列系统进化树分析表明,已报道的CGMMV主要分为3大群体,GX-BG与中国辽宁分离物(CGMMV-LN)分别属于不同的群体。     

Seed disinfection treatments do not sufficiently eliminate the infectivity of Cucumber green mottle mosaic virus (CGMMV) on cucurbit seeds

Tobamoviruses induce crop diseases that are responsible for significant economic losses around the world. Like other tobamoviruses, Cucumber green mottle mosaic virus (CGMMV) forms highly stable particles that can persist for long periods on plant debris, in soil and on seed surfaces. These particles serve as a primary source of infection, infecting seedlings from which the virus can then be mechanically transmitted to other neighbouring plants. Contaminated seeds also provide a route for the movement of the virus between countries and its introduction into new areas. Effective seed disinfection treatments and the use of uncontaminated seed may reduce the global prevalence of this virus. Several treatments based on the use of heat or chemicals have been reported to effectively eliminate CGMMV and other tobamoviruses from seeds. An evaluation of these treatments on highly contaminated seed lots revealed inconsistent results, which encouraged the construction of a more accurate detection method that combines morphological, serological, molecular and biological analyses in one protocol. The detection of viable (infectious) viral particles in seed treated with heat, trisodium phosphate or a combined treatment, indicates that these treatments are insufficient. The serological detection of CGMMV in the inner parts of infected seeds provides a possible explanation for the inconsistent efficacy of these treatments.     

葫芦种子传黄瓜绿斑驳花叶病毒的检测*

从感染黄瓜绿斑驳花叶病毒（Cucumber green mottle mosaic virus, CGMMV）的葫芦植株上收取种子,通过苗期症状观察法、双抗体夹心酶联免疫吸附法（DAS-ELISA）、免疫捕获反转录PCR（IC-RT-PCR）法测定葫芦种子的带毒情况,并用生物学接种方法测定葫芦种子携带病毒的侵染活性。苗期症状观察法结果表明,199株幼苗有2株表现花叶斑驳症状,种子传毒率为1.01%;而利用DAS-ELISA和IC-RT-PCR法随机检测30粒葫芦病株种子,CGMMV检出率为100%。种子各部位携带的CGMMV接种葫芦表现典型的花叶斑驳症状,表明葫芦种子携带的CGMMV具有侵染活性。DAS-ELISA检测葫芦种子CGMMV的灵敏度为1/5120种子研磨液。     

黄瓜绿斑驳花叶病毒病防治研究进展

黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)主要危害葫芦科作物,已被世界上许多国家和地区列为检疫性有害生物。CGMMV目前在我国23个省、市、区已有报道发生和危害,严重影响葫芦科作物的生产;近年来该病害在国内外呈现迅猛扩展的趋势并对生产造成危害。本文综述了防治该病害的种子处理、化学及生物防治、嫁接以及转基因等分子生物学方法;分析了CGMMV与寄主黄瓜互作研究的最新进展,对小分子RNA参与调控寄主对CGMMV病毒的防控策略提出了展望,并概述了下一代测序技术、基因编辑技术在植物新病毒的检测、鉴定以及培育抗病新品种等方面的应用。     

黄瓜绿斑驳花叶病毒山西西瓜分离物外壳蛋白基因序列分析

通过病毒dsRNA分离技术、非序列依赖性PCR扩增(sequence-independent amplification,SIA)技术和RTPCR等手段对采自山西太谷的西瓜病样进行了检测与鉴定,确定其为黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)所侵染。为明确CGMMV西瓜分离物(CGMMV-SXTG)的分类地位,本研究进一步克隆了CGMMV-SXTG的外壳蛋白基因(coat protein,CP)全序列并进行序列分析,系统进化树分析显示该分离物与亚洲分离物亲缘关系较近,而与欧洲分离物亲缘关系较远,表明该病毒的不同分离物在分组上可能与地域有一定的关系;接着对不同分离物的CP基因核苷酸序列和氨基酸序列进行同源性比对分析,结果表明该分离物与中国山东分离物(TANG)同源性最高,分别达到99.8%和99.6%。     

The honeybee Apis mellifera contributes to Cucumber green mottle mosaic virus spread via pollination

The tobamovirus Cucumber green mottle mosaic virus (CGMMV) is efficiently transmitted between plants by mechanical contact. So far, no clear evidence has been reported regarding the transmission potential of the virus by beneficial pollinator insects. This study examined the capability of the well‐known pollinator honeybee Apis mellifera to transmit CGMMV in cucurbits using melon and cucumber plants as a model. In order to provide a clear answer to that question, five experiments were designed on various scales performed under three environmental conditions. The results show that under protected cropping conditions, CGMMV is transmitted by the honeybees. The location of the beehive in relation to both the CGMMV primary inoculum source and the healthy plants during honeybee foraging plays an important role in the efficiency of CGMMV spread. Furthermore, in the presence of early stage CGMMV‐inoculated plants, the efficiency of CGMMV spread to uninoculated plants placed on the honeybees’ path to the beehive may increase. To the authors’ knowledge, CGMMV transmission by honeybees has not yet been shown, and this study can be adopted for other tobamovirus related research.     

黄瓜绿斑驳花叶病毒在我国定殖和扩散的风险性分析

参照国际上有害生物风险性分析（pest risk analysis, PRA）方法,从定性分析和定量评估两个层面对黄瓜绿斑驳花叶病毒（Cucumber green mottle mosaic virus, CGMMV）的危险性进行了综合评价。从CGMMV的地理分布、侵入后定殖、扩散的可能性等对其进行研究分析,认为CGMMV具有广泛的适宜寄主、极强的适生性及多种传播方式,风险值R为2.39,已给我国葫芦科作物如西瓜造成巨大经济损失,因此断定其定殖、扩散的可能性极高,属于高度危险性的有害生物,应加强对其的风险管理。     

西瓜感染黄瓜绿斑驳花叶病毒后糖的变化与倒瓤关系的研究

 By high performance liquid chromatography (HPLC), the contents of glucose, fructose and sucrose, and the sweetness were analyzed in watermelon inoculated with Cucumber green mottle mosaic virus (CGMMV).The relationship between sugar change and blood-flesh of watermelon was determined. The results indicated that the content of glucose was apparently increased compared to that of the control before maturity (within 28 days after pollination), but reduced to 24.8% of the control after maturity (at 35 days after pollination). The content of fructose was higher than that of the control within 14 days after pollination, and then decreased with a significant difference. In all cases, the content of sucrose increased with the growth of watermelon. However, compared with the control, the sucrose content of watermelon inoculated with CGMMV was lower. The ratios of glucose, fructose and sucrose in the total sugar were abnormal. Coincidence with the changes of the total sugar, the fruit sweetness before maturity was higher than that of the control, whereas decreased sharply after maturity (lower than that of the control). The inner pulp of the mature fruit appeared to be water-soaked and dirty red with no edibility. In a word, after inoculation with CGMMV, the changes of sugars and sweetness affected the watermelon quality.     

实时荧光RT-PCR方法检测黄瓜绿斑驳花叶病毒

根据黄瓜绿斑驳花叶病毒不同分离物外壳蛋白基因(CP)的保守序列,设计合成引物和TaqMan荧光探针,建立了黄瓜绿斑驳花叶病毒的实时荧光RT-PCR(Real time RT-PCR)检测方法.该方法利用TaqMan探针水解产生的荧光信号实时监测目标基因的扩增,实现PCR扩增与检测同步进行.结果表明,实时荧光RT-PCR方法检测灵敏度比普通RT-PCR高约10倍,并且具有快速、简便、准确的优点,适合于CGMMV的快速、高效检测.     

黄瓜绿斑驳病毒河北分离物基因组克隆及序列分析

为揭示河北省黄瓜绿斑驳病毒(Cucumber green mottle mosaic virus,CGMMV)分类地位及系统进化情况,通过分子克隆测定了来自河北省西瓜产区分离获得的分离物CGMMV-chb的近全基因组序列,分析其基因组结构特征;并依据近全基因组核苷酸序列及外壳蛋白氨基酸序列进行了系统进化关系分析。结果表明,CGMMV-chb近全基因组大小为6 383 nts,Gen Bank登录号为KJ658958,含4个开放阅读框,编码4种蛋白;与Gen Bank库中的其它12个CGMMV分离物的核苷酸相似性为92%~100%,氨基酸相似性为98%~100%。CGMMV-chb与韩国分离物CGMMV-KW基因序列相似性最高,为98%~100%,与以色列分离物CGMMV isolate Ec基因序列相似性最低,为92%~99%;系统进化关系中CGMMV-chb与其它中国分离物、日韩分离物亲缘关系较近,处于同一亚组的不同分支中,与以色列分离物亲缘关系相对较远。     

黄瓜绿斑驳花叶病毒低风险参照物质的研制

采用RT-PCR方法扩增黄瓜绿斑驳花叶病毒的外壳蛋白基因与3,非编码区,并将其构建到马铃薯X病毒(PVX)载体中.重组质粒经线性化及体外转录后接种烟草,获得含有病毒外壳蛋白基因的感病植株.感病组织可用于分子检测的质控,也可作为毒源来繁殖阳性参照物质.基于PVX载体制备的参照物质可降低检疫性病毒的生物安全风险,尤其对稳定性强、可造成严重经济损失的高风险病毒的检疫更具实用价值.     

黄瓜绿斑驳花叶病毒对西瓜产量、品质及种子带毒的影响

研究了西瓜不同时期接种黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)后对其生长、产量、品质和种子带毒的影响。西瓜植株接种CGMMV越早其生长受到抑制越明显,砧木期、嫁接后定植前、定植期、压蔓期、授粉期各处理的株高、叶片数、叶片长与对照相比差异极显著(p0.01),而结瓜以后接种CGMMV对西瓜生长状况无显著影响。压蔓期前3个生育期接种该病毒,西瓜产量损失分别为56.49%、55.48%和51.14%。而压蔓期以后接种该病毒,西瓜产量损失与对照相比仍分别降低17%、13.1%和14.35%。关于倒瓤情况,压蔓期前接种该病毒可导致西瓜果实100%倒瓤,压蔓期、授粉期接种处理西瓜倒瓤率分别为48%和34%,即使结瓜后再接种病毒西瓜倒瓤率仍高达18%。血清学检测表明,压蔓期前接种的西瓜其果肉和种子均携带CGM-MV,带毒率达100%;结瓜后再接种CGMMV西瓜种胚和果肉的带毒率仍然高达64%。检测种胚和果肉病毒含量表明,接种时期越早病毒含量越高,但结瓜后接种仍有较高的病毒含量,种胚和果肉的病毒含量分别达5.98 mg/mL和5.64 mg/mL。     

Fusion of sensor data for the detection and differentiation of plant diseases in cucumber

The development of plant diseases is associated with biophysical and biochemical changes in host plants. Various sensor methods have been used and assessed as alternative diagnostic tools under greenhouse conditions. Changes in photosynthetic activity, spectral reflectance and transpiration rate of diseased leaves, inoculated with Cucumber mosaic virus (CMV), Cucumber green mottle mosaic virus (CGMMV), and the powdery mildew fungus Sphaerotheca fuliginea were assessed by the use of non‐invasive sensors during disease development. Spatiotemporal changes in leaf temperature related to transpiration were visualized by digital infrared thermography. The maximum temperature difference within a leaf was an appropriate parameter to differentiate between healthy and diseased plants. The photosynthetic activity of healthy and diseased cucumber plants varied as measured by chlorophyll fluorescence and compared to the actual chlorophyll content. Hyperspectral imaging data were analysed using spectral vegetation indices. The results from this study confirm that each pathogen has a characteristic influence on the physiology and vitality of cucumber plants, which can be measured by a combination of non‐invasive sensors. Whereas thermography and chlorophyll fluorescence are unspecific indicators for plant diseases, hyperspectral imaging offers the potential for an identification of plant diseases. In a sensor data fusion approach, an early detection of each pathogen was possible by discriminant analysis. Although it still needs to be validated under real conditions, the combination of information from different sensors seems to be a promising tool.     

高通量测序发现河南开封、中牟西瓜病毒病由多种病毒复合侵染导致

 调查发现河南省开封市祥符区和郑州市中牟县西瓜田病毒病严重发生,症状表现为叶片黄化、蕨叶、皱缩、卷曲,枝梢翘起,果实变小和瓜纹不清。为明确其病毒种类,通过小RNA测序及生物信息学分析发现采集的西瓜样本中存在8种病毒。其中包括5种已知病毒:小西葫芦黄花叶病毒(Zucchini yellow mosaic virus, ZYMV)、甜瓜蚜传黄化病毒(Melon aphid-borne yellows virus, MABYV)、西瓜花叶病毒(Watermelon mosaic virus, WMV)、黄瓜绿斑驳花叶病毒(Cucumber green mottle mo-saic virus, CGMMV)和西瓜隐潜病毒(Citrullus lanatus cryptic virus, CiLCV);3种为新检出的RNA病毒:西瓜病毒A(Watermelon virus A, WVA)、西瓜皱叶相关病毒1号(Watermelon crinkle leaf-associated virus 1, WCLaV-1)和西瓜皱叶相关病毒2号(Watermelon crinkle leaf-associated virus 2, WCLaV-2)。RT-PCR检测田间66个西瓜标样发现,WMV、CiLCV和ZYMV是侵染两地西瓜的主要病毒,其阳性检出率分别为61%、56%和52%,两种及以上病毒复合侵染的比率达68%。     

Note: Containment ofCucumber fruit mottle mosaic virus (CFMMV) infection through roots by planting into a virus-free intermediating medium

Transfer of cucumber plants (Cucumis sativus L.) from Speedling-type polystyrene trays or polystyrene trays with a vacuum-forming insert, into pots filled with perlite infested withCucumber fruit mottle mosaic virus (CFMMV), resulted in high disease incidence. However, when the plants were removed from the trays into condensed peat cells or into perlite sleeves, prior to their introduction into the infested medium, infection by the virus was completely prevented. Our results strongly support the hypothesis that tobamovirus invasion into the root cells isvia wounds inflicted through the disturbance of the root system during transplanting. Unwounded, newly formed roots that penetrated into the infested medium did not allow invasion by the virus. The use of condensed peat trays as well as perlite sleeves can serve as an efficient means to block soilborne epidemics of tobamoviruses in infested soils. However, this practice should be combined with sanitation of the greenhouse space to eliminate virus transmissionvia the aboveground parts of the plants. http://www.phytoparasitica.org posting Dec. 19, 2004.     

A Cucumber mosaic virus isolated from Momordica charantia L.

Momordica charantia L. plants systemically infected with Cucumber mosaic virus (CMV) were found in Oita Prefecture. The virus isolated from the host plant was characterized by biological, serological, and molecular biological methods. The purified virus was used to mechanically inoculate the host and produced green mottle, green mosaic, and/or chlorotic spots in the noninoculated upper leaves of the host. The virus was identified as an isolate of CMV containing genomic RNA3 derived from subgroup IA by several lines of evidence based on electron microscopy, serological detection, host range, symptoms, and the entire nucleotide sequence of RNA3.