黄瓜资源对黄瓜绿斑驳病毒广东分离物的抗性水平鉴定

【背景】黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)是严重威胁葫芦科作物生产的毁灭性病原之一,该病毒已入侵我国十多个省份,危害西瓜、黄瓜等作物并造成严重的经济损失。早在2009年广东即发现CGMMV为害西瓜和黄瓜,但黄瓜等葫芦科作物对其抗性情况尚不清楚。【方法】采用人工机械摩擦接种方法,测定了14份黄瓜种质资源对CGMMV广东分离物的抗性水平。【结果】从广东葫芦病样中分离获得CGMMV,该病毒分离物MP基因序列与国内报道的各分离物同源率均在99%以上;14份黄瓜种质资源对该病毒分离物均表现为感病。【结论与意义】广东主要黄瓜资源对CGMMV均表现为感病,这为我省防控该病毒病提供了科学依据,也为黄瓜抗病育种提供了指导。     

广西黄瓜绿斑驳花叶病毒（CGMMV）黄瓜分离物的RT—PCR检测及CP基因序列分析

利用黄瓜绿斑驳花叶病毒（Cucumber Green Mottle Mosaic Virus,CGMMV）的特异性引物对来自广西一温室栽培的黄瓜病样进行RT—PCR检测,结果扩增得到了与预期大小相符的目的片段（650bp）。序列分析表明,该目的片段包含有CGMMV完整的CP基因序列、部分运动蛋白基因（MP）及3’端非编码区（3＇-UTR）序列,其中CP基因全长486bp,与已报道的CP基因序列同源性为91．2％～99．4％。经系统发育分析,明确该GX-CS分离物与日本、法国、印度等分离物属于CGMMV同一类群,并推测该分离物与广西的葫芦（GX—BG）分离物具有相同的起源关系。     

应用PCR-SSCP技术快速检测我国水稻条纹病毒的分子变异

应用PCR-SSCP技术快速检测我国水稻条纹病毒病害特异性蛋白(SP)基因和外壳蛋白(CP)基因的分子变异。结果发现我国水稻条纹病毒7个分离物之间存在广泛的变异,其中,PJ分离物的SP基因和JD分离物的CP基因不能扩增出来,能扩增出的6个分离物的CP基因变性电泳后带型各不相同,但SP基固表现出5种带型,其中云南省的YL和BS分离物带型一样。     

应用PCR-SSCP技术快速检测我国水稻条纹病毒的分子变异

应用PCR SSCP技术快速检测我国水稻条纹病毒病害特异性蛋白 (SP)基因和外壳蛋白 (CP)基因的分子变异。结果发现我国水稻条纹病毒 7个分离物之间存在广泛的变异 ,其中 ,PJ分离物的SP基因和JD分离物的CP基因不能扩增出来 ,能扩增出的 6个分离物的CP基因变性电泳后带型各不相同 ,但SP基固表现出 5种带型 ,其中云南省的YL和BS分离物带型一样。     

Molecular Characterization of Jordanian Isolates of Cucurbit yellow stunting disorder virus

Cucurbit yellow stunting disorder virus (CYSDV) causes high yield losses to cucurbits in many parts of the world. In 1995, it was detected for the first time in Jordan but Jordanian isolates have never been characterized at the molecular level. In 2005 and 2006, leaf samples (2344) from symptomatic plants were collected from Jordan Valley, Ma'daba, Al‐Mafraq, Al‐Karak, Jarash, Al‐Tafila, Al‐Balqa’, Al‐Zarqa’, Amman and Irbid. Detection by tissue blot immunoassay (TBIA) showed that the infection rate of CYSDV in collected samples was 58.5%. The coat protein (CP) gene of CYSDV was amplified from 36 selected samples by IC‐RT‐PCR. The amplicons (753 bp) from 16 isolates, representing all surveyed regions, were cloned and used for the single‐strand conformation polymorphism (SSCP) analysis. Seven different SSCP patterns (P1–P7) were observed for the analysed Jordanian isolates. For further characterization, the CP genes from isolates with different SSCP patterns were sequenced, and the sequences were deposited in the GenBank under the accession numbers DQ903105 – DQ903111 . Sequence alignment and phylogenetic analysis revealed that all CYSDV isolates investigated in this study were most closely related to isolates previously reported to belong to the Western group of CYSDV.     

Structural analysis of the coat protein of cucumber green mottle mosaic virus

Using reversed-phase high-performance liquid chromatography, two components of the coat protein of isolate No. 3 of the cucumber green mottle mosaic virus (CGMMV, cucumber strain), Cp1 (minor) and Cp2 (major), were isolated and characterized by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOFMS). In the Cp2 mass spectrum, two polypeptides with Mr of 16,727.0 and 16,813.5 were detected. By Edman degradation in combination with mass spectrometry, the primary structure of the tryptic peptides of Cp2 comprising in total 150 amino acid residues was determined. Two amino acid substitutions, Val-56-->Ala-56 and Asp-64-->Ser-64, were revealed in Cp2, as compared to the watermelon strain of the virus. Cp1 was shown to consist of three polypeptides with Mr of 10,014.2, 10,224.9, and 10,355.9 corresponding to the N-terminal regions of Cp2 (positions 1-92, 1-94, and 1-95). The observed heterogeneity of the coat protein of CGMMV, cucumber strain, may be due to proteolysis during protein isolation.     

Transgenic watermelon rootstock resistant to CGMMV (cucumber green mottle mosaic virus) infection

In watermelon, grafting of seedlings to rootstocks is necessary because watermelon roots are less viable than the rootstock. Moreover, commercially important watermelon varieties require disease-resistant rootstocks to reduce total watermelon yield losses due to infection with viruses such as cucumber green mottle mosaic virus (CGMMV). Therefore, we undertook to develop a CGMMV-resistant watermelon rootstock using a cDNA encoding the CGMMV coat protein gene (CGMMV-CP), and successfully transformed a watermelon rootstock named gongdae. The transformation rate was as low as 0.1–0.3%, depending on the transformation method used (ordinary co-culture vs injection, respectively). However, watermelon transformation was reproducibly and reliably achieved using these two methods. Southern blot analysis confirmed that the CGMMV-CP gene was inserted into different locations in the genome either singly or multiple copies. Resistance testing against CGMMV showed that 10 plants among 140 T₁ plants were resistant to CGMMV infection. This is the first report of the development by genetic engineering of watermelons resistant to CGMMV infection.     

Host Specificity and Genetic Diversity of Didymella bryoniae from Cucurbitaceae in Brazil

Thirty‐seven isolates of Didymella bryoniae from three Cucurbitaceae species were collected in Brazil and tested for pathogenicity to watermelon. All isolates were pathogenic but differed in aggressiveness levels. Seven representative isolates were used in cross‐pathogenicity tests against 10 cucurbitaceous hosts. Most isolates were pathogenic to most host species tested, except to Sechium edule. Among the susceptible species, Citrullus and Cucumis species were the most susceptible hosts, while pumpkin and Luffa purgans were the most resistant. Host of origin affected the pattern of aggressiveness on each host. Isolates from watermelon were very aggressive to their original host, but much less aggressive or not pathogenic at all to some Cucurbita. Two previously described random‐amplified polymorphic DNA (RAPD)‐specific primers indicated that 81% of the isolates could be classified into the so‐called RG I group, while the remaining isolates could not be classified into any of the described RG groups. All 37 isolates were further characterized by RAPD fingerprinting and compared with three US isolates representative of RG I and RG II groups. The Brazilian D. bryoniae isolates could be separated into genetically similar clusters. The majority of the isolates were grouped in cluster DB Ia, which contained only isolates of Citrullus lanatus and Cucumis melo. Two of the American isolates used as controls clustered with this group at 68% similarity level. The DB Ib cluster included three Brazilian isolates obtained from melon and watermelon and the American representative for RG II, at a lower similarity level (43%). Two isolates from watermelon clustered with one isolate from melon in a separate group (DB II), while one single isolate from pumpkin (DB III) showed the lowest genetic similarity to all other isolates. Didymella bryoniae isolates from Brazil showed, therefore, a level of genetic diversity higher than previously reported for the species. RAPD fingerprinting allowed for geographical distinction of D. bryoniae isolates but no correlation between genetic distance, aggressiveness or origin of the isolate was found.     

Genetic diversity of cucumber green mottle mosaic virus (CGMMV) infecting cucurbits

Cucumber green mottle mosaic virus (CGMMV), a well-known Tobamovirus, infects cucurbits across the globe. To determine its current status, molecular characterization, genetic recombination, gene flow and selection pressure, 10 districts from Punjab province of Pakistan were surveyed and a total of 2561 cucurbits samples were collected during 2019–2020. These samples were subjected to virus-specific double antibody sandwich-enzyme linked immunosorbent assay (DAS-ELISA) for the detection of CGMMV. The results revealed that viral disease was prevalent in all surveyed districts of Punjab with an overall 25.69% disease incidence. ELISA positive samples were further confirmed through RT-PCR and sequencing of coat protein (CP) cistron. Sequence analysis showed that the present studied CGMMV isolates have 96–99.5% nucleotide and 94.40–99.50% amino acid identities with those already available in GenBank. Phylogenetic analysis also revealed that understudied isolates were closely related with South Korean (AB369274) and Japanese (V01551) isolates and clustered in a separate clad. Sequence polymorphisms were observed in 663 bp of sequence within 31 CGMMV isolates covering complete CP gene. Total number of sites were 662, of which 610 and 52 sites were monomorphic and polymorphic (segregating), respectively. Of these polymorphic, 24 were singleton variable and 28 were parsimony informative. Overall nucleotide diversity (π) in all the understudied 31 isolates was 0.00010 while a total of 1 InDel event was observed and InDel Diversity (k) was 0.065. Haplotype diversity analysis revealed that there was a total 29 haplotypes with haplotype diversity (Hd) of 0.993458 in all the 31 isolates which provide evidence of less diversity among Pakistani isolates. The statistical analysis revealed the values 2.568, 5.31304 and 4.86698 of Tajima's D, Fu, & Li’s F* and D*, respectively, which witnessed the population of CGMMV was under balanced selection pressure.     

Toxoplasma gondii: genotyping of strains from Brazilian AIDS patients with cerebral toxoplasmosis by multilocus PCR-RFLP markers

This study investigated the genetic characteristics of the Toxoplasma gondii strains isolated from 87 patients with cerebral toxoplasmosis and AIDS, treated in Sao Paulo State, Brazil. The laboratorial diagnosis of cerebral toxoplasmosis was based on positive serological exams and PCR of blood and/or cerebrospinal fluid. Four markers (5'-SAG2, 3'-SAG2, SAG3 and GRA6) were chosen to analyze the samples. Each having clear resolution to distinguish the three clonal lineages after PCR amplified targets were treated with restriction enzyme digestion (PCR-RFLP). The genotyping provided the following results: 40 patients (46%) were infected with strains classified as type I; 4 (4%), as type III; 13 (15%) were infected with polymorphic strains (unusual genotype); 6 patients with type I or II alleles; and 15 (17%) patients had strains not classified for any marker. PCR-RFLP, also classified 9 (11%) clinical isolates as type II, which is uncommon in South America. However, the sequencing of the nested-PCR products (of SAG3 marker) of type II and polymorphic isolates (of 5'-SAG2, SAG3 and GRA6 markers) showed a nucleotide polymorphism compared with the archetypal clonal genotypes (types I, II and III) and these isolates were considered as polymorphic strains. The markers used here were inappropriate to distinguish the most isolates considered as polymorphic strains. These data confirm other studies showing the high rate of genetic polymorphism in T. gondii strains isolated in Brazil.     

CMV甜瓜分离物外壳蛋白基因的克隆及植物表达载体的构建

从河南省临颖县采集的病毒感染的甜瓜样本经ELISA检测和接种分离获得黄瓜花叶病毒(Cucunbermosaicvirus,CMV)分离物。把该分离物接种西葫芦,从发病的叶片中提取总RNA,并以此为模板经RTPCR扩增获得CMV的外壳蛋白(cp)基因,将其克隆到pUCmT质粒上。经序列测定和分析,结果表明该cp基因由657个核苷酸组成,编码218个氨基酸。其核苷酸序列与黄瓜花叶病毒亚组I的分离物有较高的同源性,达92.2%～93.9%,与亚组II的同源性仅为76.8%～77.8%,与我国报道的CMV分离物的cp基因序列比较,除香蕉株系XB外核苷酸序列的同源性达91.8%～93.4%。根据这些分析,该CMV分离物属于亚组I。将cp基因通过中间载体pJIT163定向克隆到植物表达载体pBINPLUS中(重组双元载体质粒命名为pBCP),并经冻融法导入农杆菌中,经PCR及酶切鉴定,证实质粒已被导入。利用该植物表达载体对西瓜的遗传转化工作目前正在进行中。     

Evaluation of Genetic and Epigenetic Modification in Rapeseed （Brassica napus） Induced by Salt Stress

Salinity is an important limiting environmental factor for rapeseed production worldwide. In this study, we assessed the extent and pattern of DNA damages caused by salt stress in rapeseed plants. Amplified fragment length polymorphism （AFLP） analysis revealed dose-related increases in sequence alterations in plantlets exposed to 10-1000 mmol/L sodium chloride. In addition, individual plantlets exposed to the same salt concentration showed different AFLP and selected region amplified polymorphism banding patterns. These observations suggested that DNA mutation in response to salt stress was random in the genome and the effect was dose-dependant. DNA methylation changes in response to salt stress were also evaluated by methylation sensitive amplified polymorphism （MSAP）. Three types of MSAP bands were recovered. Type Ⅰ bands were observed with both isoschizomers Hpa Ⅱ and Msp Ⅰ, while type Ⅱ and type Ⅲ bands were observed only with Hpa Ⅱ and Msp Ⅰ, respectively. Extensive changes in types of MSAP bands after NaCI treatments were observed, including appearance and disappearance of type Ⅰ, Ⅱ and Ⅲ bands, as well as exchanges between either type Ⅰand type Ⅱ or type Ⅰ and type Ⅲ bands. An increase of 0.2-17.6% cytosine methylated CCGG sites were detected in plantlets exposed to 10- 200 mmol/L salt compared to the control, and these changes included both de novo methylation and demethylation events. Nine methylation related fragments were also recovered and sequenced, and one sharing a high sequence homology with the ethylene responsive element binding factor was identified. These results demonstrated clear DNA genetic and epigenetic alterations in planUets as a response to salt stress, and these changes may suggest a mechanism for plants adaptation under salt stress.     

Quick Identification of the Members of the Glutamine Synthetase Gene Family from Sunflower by Simultaneous Amplification of cDNA with Degenerate Primers

A single degenerate glutamine synthetase (GS)-specific primer was used to amplify the 3′ end of cDNAs derived from different GS genes that are expressed in leaves and roots of sunflower (Helianthus annuus L. cv. Peredovic). Four types of GS cDNA (I, II, III and IV) were simultaneously amplified from leaves and five types (I, II, V, VI, VII) from roots with a minimum investment of time and experimental work. cDNAs II, III and IV encode chloroplastic isoforms as deduced by the presence of chloroplastic GS-specific features in their sequences. The rest of cDNAs codifies cytosolic isoforms. Using cDNA-specific probes and primers, homologous sequences to all GS cDNAs amplified from cv. Peredovic, except to cDNAs III and IV, were detected in the inbred line R41. This result strongly suggests that the three cDNAs for chloroplastic isoform are allelic sequences from the same locus, and since cDNA type IV contains sequences derived from cDNAs II and III, it indicates a recombinational origin. The results presented are consistent with the existence of a GS gene family in sunflower with at least five members. Four of them, named ggs1.1 to ggs1.4, codify for the cytosolic isoforms (cDNAs I, V, VI and VII). A fifth member, named ggs2, from which three allelic sequences (cDNAs II, III and IV) have been cloned, encodes the chloroplastic isoform. This revised version was published online in July 2006 with corrections to the Cover Date.     

Reaction of Muskmelon Collections to Cucumber Green Mottle Mosaic Virus

Abstract In a preliminary trial 187 collections of muskmelon comprising dessert and non-dessert types and wild Cucumis species were screened against cucumber green mottle mosaic virus (CGMMV) under field conditions. Based on the reaction to CGMMV, 64 were studied further in detail. Thirteen collections were found to be resistant in two field screenings (summer and rainy seasons). Results on screening under artificial conditions against pure isolate of CGMMV indicated that Cucumis figarei , C. myriocarpus 1, C. myriocarpus 3, C. africanus 1, C. africanus 2, C. meeusii, C. ficifolius and C. zeyheri 2 were resistant to virus. Immune nature of resistance was later confirmed by back inoculation technique and, transmission electron microscopic study of C. figarei, C. ficifolius, C. meeusii, C. africanus 1 and C. zeyheri 2. Phoot ( C. melo var. momordica ) and Kachri (non-dessert types), FM 1 and FM 2 (Cornell breeding lines) and C,. myriocarpus 2 were also resistant to CGMMV with very mild symptoms.     

Differentiation of citrus tristeza closterovirus (CTV) isolates by single-strand conformation polymorphism analysis of the coat protein gene

Citrus tristeza closterovirus (CTV) isolates of several geographical origins were compared for variations in their coat protein (CP) gene by analysis of single-strand conformation polymorphism (SSCP). The CP gene of 17 isolates was reverse transcribed, amplified by polymerase chain reaction (PCR), and 22 clones were inserted into a plasmid vector. These clones were sequenced and found to have between 91.7% and 99.8% sequence homology. Clones were amplified and the PCR products denatured and compared by SSCP analysis in 8% polyacrylamide gels. Using two different electrophoretic conditions, the patterns were different for 16 or 17 clones. Four pairs of clones (T36/T66, P1/Q2, 03/8Q, and E1/E2) differing by 10, 2, 1 and 1 nucleotides, respectively, could not be distinguished using either condition. When these clones were compared by SSCP after digestion with Eco91I (BstEII) three of the pairs (T36/T66, P1/Q2, and 03/8Q) could be differentiated, whereas the clones E1 and E2 (differing by 1 nucleotide) remained indistinguishable. Thus, SSCP analysis combining two electrophoretic conditions and restriction of eight clones with Eco91I allowed discrimination between 21 of the 22 CP gene clones selected. SSCP analysis may provide a procedure to identify and differentiate CTV isolates based on comparisons of several genes or gene regions. It is rapid and cheap and may drastically reduce the amount of sequencing necessary for accurate comparisons.     

Nucleotide sequences of two Korean isolates of Cucumber green mottle mosaic virus

The nucleotide sequences of the genomic RNAs of Cucumber green mottle mosaic virus Korean watermelon isolate (CGMMV-KW) and Korean oriental melon isolate (CGMMV-KOM) were determined and compared to the sequences of other tobamoviruses including CGMMV strains W and SH. Each CGMMV isolate had a genome of 6,424 nucleotides. Each also had 60 and 176 nucleotides of 5' and 3' untranslated regions (UTRs), respectively, and four open reading frames (ORF1-4). ORFs 1 to 4 encode proteins of 129, 186, 29, and 17.4 kDa, respectively. The nucleotide and deduced amino acid sequences of CGMMV-KOM and CGMMV-KW were more than 98.3% identical. When compared to other CGMMV strains in a phylogenetic analysis they were found to form a distinct virus clade, and were more distantly related to other tobamoviruses (23.5-56.7% identity).