Occurrence of yellowing viruses (Beet pseudo-yellows virus, Cucurbit yellow stunting disorder virus and Cucurbit aphid-borne yellows virus) affecting cucurbits in Greece

A survey of the incidence of yellowing viruses in Greek glasshouse (and occasional field) cucumber and melon crops was carried out during 2000–03. In most cases disease incidence ranged from 50 to 80%. Simplex RT-PCR was used for the detection of Beet pseudo-yellows virus (BPYV) and Cucurbit yellow stunting disorder virus (CYSDV), and DAS-ELISA for the detection of Cucurbit aphid-borne yellows virus (CABYV). The results showed that BPYV was the predominant virus in cucumber and melon crops, whereas CYSDV, reported for first time in Greece, was isolated only in three regions of southern Greece: Rhodes, Crete and Arkadia. CABYV was detected only in three cucumber glasshouses in Pella (Macedonia). A simplified triplex RT-PCR method using a simple sample-preparation protocol was developed to allow rapid, sensitive and simultaneous detection of the three viruses. Sequence comparisons of the PCR products of BPYV and CYSDV revealed 98·7 and 100% amino acid identity, respectively, with previously reported sequences. The arable weed species Amaranthus retroflexus , Selosia cristata , Sonchus oleraceus and Sonchus sp. were identified as potential BPYV reservoirs.     

Criniviruses associated with cucurbit yellows disease in Greece and Cyprus: an ever-changing scene

Cucurbit yellow stunting disorder virus (CYSDV), Cucurbit chlorotic yellows virus (CCYV) and Beet pseudo-yellows virus (BPYV) are whitefly-transmitted criniviruses that cause foliar interveinal yellowing symptoms and result in high economic losses for cucurbit production. CYSDV and CCYV are transmitted by Bemisia tabaci, whereas BPYV is transmitted by Trialeurodes vaporariorum. During 2012–2017, an extensive survey was conducted to identify the viruses causing cucurbit yellows disease in Greece and Cyprus. The study sampled the main cucurbits and alternative hosts in these regions to determine crinivirus incidence, to identify the whitefly species present in the two countries and to characterize molecularly the virus populations. Results showed that CYSDV was the most widespread virus in Greece (49.9%), followed by CCYV (20.3%) and BPYV (18.4%). Bemisia tabaci and T. vaporariorum were identified in 54.5% and 45.6% of whitefly samples, respectively. In Cyprus, CYSDV was predominant (96.7%), followed by CCYV (19.2%), while no BPYV infection was detected. Approximately 15% of weed samples from 17 different species that belong to 12 botanical families were identified as hosts for one or more of these criniviruses. Finally, sequencing of the capsid protein gene of the crinivirus isolates revealed very low levels of genetic diversity, further supporting the genetic stability of crinivirus populations. The results of this long-lasting epidemiological study in two countries of the eastern Mediterranean revealed substantial changes in the relative incidence and distribution of cucurbit-infecting criniviruses and their whitefly vectors over the past 15 years, suggesting the need for adoption of novel management strategies.     

Serological and molecular detection of Tomato chlorosis virus and Tomato infectious chlorosis virus in tomato

Tomato chlorosis virus (ToCV) and Tomato infectious chlorosis virus (TICV) are two criniviruses inducing similar yellowing symptoms in tomato. An approximately 4 kb central region of the genomic RNA2 of French ToCV and TICV isolates was sequenced. TICV, for which no other sequences were available, appeared as a distant species in the genus, being close only to LIYV ( Lettuce infectious yellows virus ) for some, but not all, proteins. ToCV has more than 98% nucleotide identity with isolates from the US and Spain, and sequencing the CP gene of several isolates collected in different regions in southern France during 2 years suggested a unique origin. Polyclonal antisera were produced using capsid proteins of both viruses expressed in Escherichia coli . DAS-ELISA assays were developed for routine diagnosis and conditions for preparing samples for an optimized detection were determined. No cross-reactions were observed. However, some false-negative results, corresponding to samples giving ELISA readings close to the detection limit were regularly detected, particularly for ToCV (approximately 5% of the samples). A triplex RT-PCR assay was thus developed, which allowed detection of both viruses in a one-step protocol. An internal PCR control was included, which in addition showed that it could be used as a control for the entire RT-PCR procedure. Finally, combining DAS-ELISA in a first round, and triplex RT-PCR for doubtful samples, appeared the best way to achieve a reliable diagnosis of these viruses.     

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

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.     

苹果茎沟病毒柑橘碎叶株系的分布与序列分析

为明确苹果茎沟病毒(apple stem grooving virus,ASGV)柑橘碎叶株系(citrus tatter leaf virus,CTLV)在中国柑橘产区的发生分布及其分子特性,于2017—2021年对我国12个柑橘主产区开展系统调查,并采用多重比对以及系统发育分析法对CTLV的全序列进行分析。结果表明,从12个柑橘主产区采集的2 012份疑似样品中检测出413份感CTLV阳性样品。除陕西省外,其余11个柑橘主产区样品中均检测出CTLV,并且柚类样品中CTLV的检出率最高,达到32.31%。对分离获得的22株CTLV毒株和已知的7株CTLV以及5株ASGV毒株进行全序列分析,发现所有34株毒株的核苷酸序列相似性为78.6%～99.8%,且CTLV序列的保守性较高。此外,与其他4株ASGV毒株相比,本研究中22株CTLV毒株与ASGV-MK毒株(GenBank登录号为MZ127820.1)具有更近的亲缘关系。推测CTLV中国毒株间的亲缘关系可能与其采样地和寄主品种有关。     

侵染广东番茄的番茄褪绿病毒分子鉴定

在广东番茄上发现一种新病害,病株表现为叶片褪绿,叶脉颜色变深及叶片增厚等症状。利用番茄褪绿病毒Tomato chlorosis virus(ToCV)HSP70基因的两对特异引物对番茄病样进行RT-PCR检测,结果表明,从所采集的6份病样中均扩增到预期大小的DNA特异片段。对其中1份样品的扩增片段进行克隆与序列分析,结果表明,扩增片段包括1个长度为1 665个核苷酸的完整病毒基因,其核苷酸序列与已报道的ToCV HSP70基因有较高的同源性,表明广东番茄受到了ToCV的侵染。但ToCV广东番茄分离物的HSP70序列与国内外已报道的各分离物的同源性均低于82%,存在较大差异,其中与塞浦路斯tomato、约旦JU_20分离物的同源性最高,为81.8%。这是ToCV在广东发生的首次报道,也是该病毒HSP70基因序列存在显著差异分离物的首次发现。     

西瓜花叶病毒2号南瓜分离物的鉴定及其外壳蛋白基因序列分析

 利用电镜和酶联免疫吸附测定法(ELISA)在黑龙江省采集的南瓜病样中检测到西瓜花叶病毒2号(WMV-2)。再利用免疫PCR (IC-PCR)和反转录PCR (RT-PCR)方法,扩增获得其外壳蛋白(CP)基因片段,并克隆到pGEM-T载体中。核苷酸序列测定表明,该分离物CP基因全长为852个核苷酸,编码由284个氨基酸组成的31.8 kDa蛋白。与国外已报道的WMV-2 CP基因相比,其核苷酸序列同源性为92.2%~94.0%,由此推导的氨基酸序列同源性为94.5%~98.1%。与国内2个分离物相比,和山西分离物核苷酸和氨基酸的同源性都达到98.5%,和郑州分离物核苷酸和氨基酸的同源性分别为91.5%和95.0%。     

中国北方四省小麦丛矮病病原鉴定

小麦丛矮病是由灰飞虱(Laodelphax striatellus Fallén)传播的一种病毒病,具有流行性和暴发性,可致小麦减产甚至绝收.小麦丛矮病的典型症状表现为叶片有黄绿相间条纹,分蘖增多,植株矮化,形成明显的丛矮状.冬前感病株大部分不能越冬而死亡,冬前未显症和早春及拔节后感病植株上部叶片显条纹,一般不能抽穗而提早枯死,有的能抽穗,但穗小籽粒秕瘦,对产量影响较大.研究结果表明小麦丛矮病的病原为北方禾谷花叶病毒(Northern cereal mosaic virus,NCMV)[1-3].小麦丛矮病在我国分布较广[4,5].为了进一步明确小麦丛矮病病原发生、分布及其变异,2010年4月在河北、河南、山东和山西省多地采集标样,采用RTPCR方法对各地标样进行了鉴定与分析,以期为病害防治提供理论依据.     

Malvastrum leaf curl Guangdong virus is a distinct monopartite begomovirus

Virus isolates GD6, GD7, GD8, GD9 and GD10 were obtained from Malvastrum coromandelianum showing leaf curl symptoms in Guangdong Province of China. A specific 500 bp product was consistently detected in total DNA extracts, amplified with universal primers specific for members of the genus Begomovirus. Analysis of their partial DNA sequences revealed that they are isolates of the same begomovirus species, sharing 92·8%–97·1% nucleotide sequence identity. The complete DNA sequences of both GD6 and GD9 were found to be 2767 nucleotides, with all the characteristic features of begomovirus genome organization. The two isolates have less than 85·2% nucleotide sequence identity with other reported begomoviruses. Consequently, GD6 and GD9 are considered to be isolates of a novel begomovirus species, for which the name Malvastrum leaf curl Guangdong virus (MLCuGdV) is proposed. Sequence analyses suggest that MLCuGdV may have arisen by recombination between viruses related to Papaya leaf curl China virus , Tomato leaf curl Philippines virus and other undiscovered virus ancestors. Neither the DNA-B component nor the DNAβ molecule associated with these begomovirus isolates was found. An infectious clone of GD6 was constructed. GD6 efficiently infected Nicotiana benthamiana , N. glutinosa and Petunia hybrida by agro-inoculation, and Malvastrum coromandelianum by whitefly transmission, inducing leaf curling, vein swelling and stunting symptoms. GD6 was also infectious in N. tabacum , but did not induce observable disease symptoms.     

Tomato dwarf leaf curl virus, a new bipartite geminivirus associated with tomatoes and peppers in Jamaica and mixed infection with tomato yellow leaf curl virus

Genomic characterization using nonradioactive probes, polymerase chain reaction with degenerate primers for whitefly transmitted geminiviruses and nucleotide sequencing were used to describe a new bipartite geminivirus, associated with dwarfing and leaf curling of tomatoes and peppers in Jamaica. Partial DNA-A and DNA-B clones were obtained. DNA sequence analysis showed that tomato and pepper samples have a similar geminivirus associated with them. Nucleotide sequence identity > 92% between the common regions of DNA-A and DNA-B confirmed the bipartite nature of the Jamaican geminivirus isolates. Nucleotide sequence comparisons of DNA-A and DNA-B with those of geminiviruses representing the major phylogenetic groups of Western Hemisphere geminiviruses showed the greatest similarity to potato yellow mosaic virus and members of the Abutilon mosaic virus cluster of geminiviruses. This new virus is given the name tomato dwarf leaf curl virus (TDLCV) because of the dwarfing and leaf curling symptoms associated with infected tomato plants. Polymerase chain reaction and Southern hybridization showed mixed infections of TDLCV with tomato yellow leaf curl virus from Israel in 16% of the field samples of tomatoes and peppers.     

河南甜樱桃病毒病害调查及病原检测

在河南省郑州市、巩义市、荥阳市、新郑市选择具有代表性的甜樱桃生产园对病毒病发生情况进行调查,采集表现为疑似病毒病症状的样本65份,利用7种病毒引物进行RT-PCR检测。5种病毒检测结果呈阳性,分别是李属坏死环斑病毒(Prunus necrotic ringspot virus,PNRSV)、李矮缩病毒(Prune dwarf virus,PDV)、樱桃绿环斑驳病毒(Cherry green ring mottle virus,CGRMV)、樱桃坏死锈斑病毒(Cherry necrotic rusty mottle virus,CNRMV)及樱桃病毒A(Cherry virus A,CVA);序列分析结果表明,5种病毒扩增片段与GenBank中注册的相应病毒核苷酸序列均具有较高的一致性;样本病毒检出率为100%,其中13份样本为单独侵染,其余52份样本均为多病毒复合侵染,占比高达80%,复合侵染比例随着侵染病毒种类的增多逐渐降低;病毒侵染组合与叶片表型症状无明显对应关系。     

陕西杨凌番茄褪绿病毒的分子检测

近年来在陕西番茄生产区出现了一种新病害,病株表现为叶片褪绿,叶脉颜色变深及叶片增厚,果实变小发白,严重影响番茄产量及经济效益,2016年发病极为严重,部分产区甚至绝收。该病疑似由番茄褪绿病毒Tomato chlorosis virus(ToCV)引起。利用ToCV特异引物对感病番茄样品进行RT-PCR检测,结果从所采集的4份病样中均检测到ToCV预期大小的特异片段。对ToCV外壳蛋白CP基因和类热激蛋白HSP70h基因进行克隆与序列分析,ToCV-YL1 CP基因774个核苷酸序列与已报道的ToCVCP基因有较高的一致性,与山东青岛和山西晋中分离物同源性为100%。ToCV-YL1 HSP70h基因1 665个核苷酸序列与已报道的ToCV HSP70h基因有较高的同源性,与中国、韩国、日本、美国、希腊分离物同源性达到99%以上。研究表明ToCV已传播至陕西地区。     

青蒿中番茄斑萎病毒和烟草花叶病毒的分子鉴定及相关序列分析

番茄斑萎病毒(tomato spotted wilt virus, TSWV)和烟草花叶病毒(tobacco mosaic virus, TMV)是2种重要的植物病原病毒, 对多种经济作物的产量和品质均造成严重影响。2021年-2022年, 在云南省丽江市烟草种植区不同烟区采集叶片黄化、皱缩以及无症状的青蒿Artemisia caruifolia样品共计14份, 利用免疫金标速测卡和RT-PCR对其病原病毒进行检测。利用免疫金标速测卡检测结果显示, 在所检样品中有9份样品检测出TSWV, 检出率为64.28%, 有3份样品检测出TMV, 检出率为21.43%, 2种病毒复合侵染的检出率同样为21.43%;利用RT-PCR对复合侵染的3份样品进行分子检测, 结果显示, 在3份复合侵染青蒿样品中获得3条TSWV N基因序列、3条TMV cp基因序列和2条TMV RdRp部分序列。TSWV青蒿分离物与分离自云南的TSWV-2分离物相似性最高, 为99.6%;TMV青蒿分离物与分离自辽宁的TMV-Shenyang分离物和分离自云南的TMV-Yongren-1相似性最高, 均大于99.4%。这是首次发现TSWV和TMV 2种不同属病毒复合侵染青蒿。     

侵染垂花悬铃花的木尔坦棉花曲叶病毒分子特征研究

 垂花悬铃花曲叶病是近期在广东发现的一种新病害,病株表现为叶片向上卷曲,叶脉肿大,叶脉变深绿色等症状。PCR检测结果显示, 该病样中均存在菜豆金色花叶病毒属病毒。基因克隆及序列分析结果表明,该病毒分离物（GD11）DNA-A全长为2 737 nt,具有菜豆金色花叶病毒属病毒基因组典型特征,为闭合环状单链DNA,编码6个ORFs;该序列与木尔坦棉花曲叶病毒(CLCuMV)各分离物序列的相似性均大于89.0%,其中与G6、Okra06及GX1等分离物序列的相似性大于99.0%。该病毒分离物也伴有卫星DNA β分子,其全长为1 348 nt,与CLCuMV各分离物的DNA β序列相似性大于85.0%,其中与G6、Okra06及GX1等DNA β的序列相似性均大于99.0%。因此,侵染广东垂花悬铃花的病毒分离物属于CLCuMV,且与入侵我国的朱槿分离物G6、黄秋葵分离物Okra06及棉花分离物GX1亲缘关系很近。本文首次报道了CLCuMV及其卫星β复合侵染垂花悬铃花。     

Molecular variability of the 5'- and 3'-terminal regions of citrus tristeza virus RNA

ABSTRACT Isolates of citrus tristeza virus (CTV) differ widely in their biological properties. These properties may depend on the structure of viral RNA populations comprising the different isolates. As a first approach to study the molecular basis of the biological variability, we have compared the sequences of multiple cDNA clones of the two terminal regions of the RNA from different CTV isolates. The polymorphism of the 5' untranslated region (UTR) allowed the classification of the sequences into three groups, with intragroup sequence identity higher than 88% and intergroup sequence identity as low as 44%. The variability of an open reading frame (ORF) 1a segment adjacent to the 5' UTR supports the same grouping. Some CTV isolates contained sequences of more than one group. Most sequences from Spanish isolates belonged to group III, whereas a Japanese isolate was composed mostly of sequences of groups I and II. The mildest isolates contained only sequences of group III, whereas the most severe isolates also contained sequences of groups I, II, or both. The most stable secondary structure predicted for the 5' UTR was composed of two stem-loops and remained essentially unchanged as a result of compensatory mutations in the stems and accommodation of most of the variability in the loops. In contrast to the 5'-terminal region, the variability of the 3'-terminal region of CTV RNA was very much restricted, with nucleotide identity values higher than 90%. The presence of a conserved putative "zinc-finger" domain adjacent to a basic region in p23, the predicted product of ORF 11, suggests that this protein might act as a regulatory factor during virus replication.