Sequencing of Coat Protein Gene of an isolate of Cucumber mosaic virus Infecting Black Pepper (Piper nigrum L) in India

The coat protein gene of an isolate of Cucumber mosaic virus (CMV) associated with stunted disease affecting black pepper plant was cloned and sequenced. The coat protein gene comprised of 657 nucleotides encoding a protein of 218 amino acids. Sequence analysis showed that the gene was most closely related to CMV infecting Egyptian henbane plant in India, the member of subgroup I of CMV. The amino acid sequence identity with members of subgroup I was 92-99% while that with members of subgroup II was 77–79%. On the basis of sequence homology, it is concluded that CMV infecting black pepper in India is a strain of CMV belonging to subgroup I.     

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。     

Resistance to Cucumber mosaic virus in Gladiolus plants transformed with either a defective replicase or coat protein subgroup II gene from Cucumber mosaic virus

Transgenic Gladiolus plants that contain either Cucumber mosaic virus (CMV) subgroup I coat protein, CMV subgroup II coat protein, CMV replicase, a combination of the CMV subgroups I and II coat proteins, or a combination of the CMV subgroup II coat protein and replicase genes were developed. These plants were multiplied in vitro and challenged with purified CMV isolated from Gladiolus using a hand-held gene gun. Three out of 19 independently transformed plants expressing the replicase gene under control of the duplicated CaMV 35S promoter were found to be resistant to CMV subgroup I. Three out of 21 independently transformed plants with the CMV subgroup II coat protein gene under control of the Arabidopsis UBQ3 promoter were resistant to CMV subgroup II. Eighteen independently transformed plants with either the CMV subgroup I coat protein or a combination of CMV subgroups I and II coat proteins were challenged and found to be susceptible to both CMV subgroups I or II. Virus resistant plants with the CMV replicase transgene expressed much lower RNA levels than resistant plants expressing the CMV subgroup II coat protein. This work will facilitate the evaluation of virus resistance in transgenic Gladiolus plants to yield improved floral quality and productivity.     

First Report of Cucumber mosaic virus Infecting Chinese Mallow in China

The virus in naturally infected, stunted Chinese mallow plants and mosaic leaves was identified as Cucumber mosaic virus (CMV). Six symptomatic plants and one symptomless plant were collected in Chongqing, China. DAS‐ELISA suggested CMV was likely associated with the diseased Chinese mallow. Double‐stranded RNA was extracted from the samples, analysed by RT‐PCR, and the coding sequences of their coat proteins (CPs) were sequenced. The results further confirmed CMV was the pathogen causing Chinese mallow stunted, mosaic disease. The isolate was named CMV‐DXC. The full sequence of CMV‐DXC CP was determined, and it had the highest nucleotide identity (99.4%) of those of CMV‐lily, CMV‐WSJ and CMV‐Hnt, respectively. Phylogenetic analysis shows that CMV‐DXC belongs to CMV subgroup II. To our knowledge, this is the first report of CMV infecting Chinese mallow in China.     

Detection and molecular characterisation of Potato virus S of weed reservoirs in Iran

Potato virus S causes destructive disease on the plants. In this research, 44 weed samples symptomless were collected during 2015 from Fars, Razavi Khorasan and Kerman provinces of Iran. The coat protein (CP) and 11 K genes from eight PVS isolates were amplified, cloned and sequenced. PVS was detected in eight weed samples including: one sample of Solanum nigrum, two samples of Chenopodium botrytis, three samples of Chenopodium album and two samples of Amaranthus hybridus. Phylogenetic analysis showed that seven Iranian isolates fell into group I, II near to European isolates and one Iranian isolate formed a separate group. Comparison of coat protein and 11 k nucleotide indicated that all Iranian isolates belonged to Ordinary strain and there were 79–100% identity among the eight Iranian isolates and the world isolates of PVS. The highest identity was between Iranian and Ukraine isolates. Recombination analysis identified four recombinant isolates among eight new Iranian isolates.     

First report of Squash leaf curl china virus causing mosaic symptoms on summer squash (Cucurbita pepo) grown in Varanasi district of India

Severe incidence of a mosaic disease was observed on summer squash (Cucurbita pepo), commonly called pepo, grown in Varanasi during June–September of Khariff season 2007. Symptoms observed were mosaic, puckering on the leaves, wartiness on fruits, general stunting of plants and low yield. PCR amplification with degenerate primers designed to target the conserved sequences of coat protein gene of whitefly transmitted geminiviruses showed ～800 bp fragment in all symptomatic samples tested, indicating the association of a geminivirus with the disease. Nucleotide sequence analysis of the amplified fragment showed 99% identity with pumpkin isolate of squash leaf curl china virus (SLCCNV) from Lucknow. It showed 85–96.7% homology with other isolates of SLCCNV from India and abroad. Phylogenetic analysis revealed the isolate on pepo from Varanasi clustered with SLCCNV isolates on pumpkin from Lucknow and Coimbatore.     

Resistance to cucumber mosaic virus in potato

Reactions to two subgroup I isolates (Fny-CMV and Pf-CMV) and two subgroup II isolates (A9-CMV and LS-CMV) of cucumber mosaic virus (CMV) were studied in three non tuber-bearing wild potato species (Solanum spp.) of the series Etuberosa, and in two tuber-bearing interspecific potato hybrids and four potato cultivars using graft-inoculation. Three classes of phenotypic reactions (susceptible, hypersensitive, extreme resistance) were observed in the tuber-bearing genotypes. Susceptible genotypes developed mosaic or severe mosaic with leaf malformation and had high CMV titres. Hypersensitive genotypes developed either top necrosis or vein necrosis and/or necrotic spots on apical leaves, and had low CMV titres. Extremely resistant genotypes had no symptoms and no CMV was detected. The hybrid 87HW13.7 (S. tuberosum×S. multidissectum) developed top necrosis specific to infection with Fny-CMV. The hybrid ‘A6’ (S. demissum×S. tuberosum cv. Aquila) was hypersensitive to all CMV isolates tested. Extreme resistance was not functional against all CMV isolates. Neither hypersensitivity nor extreme resistance were related to the CMV subgroup.     

Reappearance of Cucumber mosaic virus Isolates Belonging to Subgroup IB in Tomato Plants in North-eastern Spain

A disease characterized by symptomless leaves and fruit decolouration, loss of consistency and mild deformation on ripening was detected in tomato fields in north‐eastern Spain during 2003 and 2004. DAS‐ELISA analysis revealed the presence of the Cucumber mosaic virus (CMV) in all diseased plants. CMV isolates were characterized by polyacrylamide gel electrophoresis (PAGE) analysis of double‐stranded RNAs (dsRNAs) and nucleotide sequence analysis, and compared with some CMV isolates belonging to different subgroups used as controls. A total of 12 isolates obtained from the infected tomato plants selected for this study gave the same electrophoresis pattern for the three genomic dsRNAs, which was different to the patterns showed by the CMV isolates collected in the same region a few years ago. The identity of the complete nucleotide sequence of one of these CMV isolates and the partial sequence of other five isolates compared to the Tfn strain from Italy and the BAR92/1 isolate from tomato collected in Barcelona in 1992 was higher than 99%, both belonging to subgroup IB of CMV. The CMV isolates of this subgroup found in eastern Spain in previous studies were not detected after 1996. The nucleotide sequences of two isolates that were chosen as representatives of the CMV isolates more frequently detected in previous years revealed that they belonged to the CMV subgroups IA. The origin and the possible causes of reappearance of CMV IB isolates in north‐eastern Spain are discussed.     

从云南烟草上检测到的黄瓜花叶病毒亚组Ⅱ分离物*

在对云南省烟草病毒病的研究中,分离到一种直径约２６￣３０ｎｍ的球形病毒。提纯病毒进行的ＳＤＳ－ＰＡＧＥ发现一条５５ｋＤ蛋白带。５５ｋＤ蛋白Ｎ－端１０个氨基酸与ＣＭＶ亚组Ⅱ的Ｑ株系外壳蛋白Ｎ－氨基酸同源性为１００％。以ＣＭＶ－Ｑ抗血清对５５ｋＤ蛋白进行了Ｗｅｓｔｅｒｎ ｂｌｏｔ检测,发现５５ｋＤ蛋白与ＣＭＶ Ｑ株系抗血清有血清学反应。根据已报道的ＣＭＶ亚组Ⅱ外壳蛋白基因序列合成引物,采用ＲＴ－ＰＣＲ     

Responses of potato cultivars (Solanum tuberosum) to infection with Cucumber mosaic virus isolated from different host species

Eight isolates of Cucumber mosaic virus (CMV) isolated from seven different host species were tested for their virulence on potato cv. Desirée. Three isolates caused a systemic infection, of which one isolate from Asiatic lily (CMV-P26) and one from cucumber (CMV-J) appeared to be highly virulent, in contrast to the third isolate (CMV-M) that originated from cucumber and caused mild symptoms only. These three isolates were transmitted to 26 additional potato cultivars by mechanical inoculation in a greenhouse. All cultivars were infected with at least one CMV isolate and developed local chlorotic symptoms, but only 17 cultivars (including Desiree) developed primary systemic symptoms including necrosis, mosaic and/or malformation of leaves. Furthermore, in only five cultivars (including Desiree) CMV was transmitted to tubers and was subsequently detected in plants of the first and second vegetative progeny, the secondary symptoms of these plants being severe. The observed phenotypic responses of potatoes to CMV were not associated with the maturity type (early or late) or resistance to other viruses. Results of this study indicate a high level of biological variability among CMV isolates and that infection in potato depends on CMV isolate and potato cultivar.     

Biological and Molecular Characterization of Taiwanese Isolates of Cucumber mosaic virus Associated with Banana Mosaic Disease

Banana mosaic disease (BMD) caused by Cucumber mosaic virus (CMV) has become an important threat to the banana industry. We collected and characterized 10 CMV isolates associated with BMD in Taiwan and compared their biological characteristics and coat protein sequences. The isolates fell into four pathotypes on the basis of the symptoms they induce on banana, Nicotiana glutinosa and Vigna unguiculata (cowpea). Double-stranded RNA analysis revealed that the different pathotypes are not related to the presence of CMV satellite RNA. Phylogenetic analysis of worldwide CMV coat protein sequences revealed that among the currently known CMV subgroups IA, IB and II, subgroup IB is phylogenetically unresolved. Our CMV isolates form a new subgroup, IT, within subgroup I. In addition, we resolved another new CMV subgroup, IS, within subgroup I. The analysis also revealed that isolates within different subgroups can infect the banana.     

Characterisation of lactic acid producing <Emphasis Type="Italic">Sporolactobacillus</Emphasis> strains from tree barks in Thailand

Eight spore-forming lactic acid producing bacteria were isolated from tree barks in Thailand. They were identified as Sporolactobacillus nakayamae (Group I, three isolates), S. terrae (Group II, two isolates), S. kofuensis (Group III, one isolate) and S. inulinus (Group IV, two isolates) based on their phenotypic characteristics and 16S rRNA gene sequence analyses. Four isolates in Groups I and II produced DL lactic acid (89.60–114.61 g/L), while three isolates in Groups III and IV produced D-lactic acid (88.01–113.78 g/L). Isolate BK65-3 identified as S. inulinus produced the highest D-lactic acid concentrations (101.42 g/L), productivity (1.41 g/L/h), yields (84.52%) and optical purity of D-lactic acid (100%).     

甘蔗花叶病毒3‘末端基因的克隆及外壳蛋白序列分析比较

选取我国SCMV优势株系A株系的分离物SCMV－CA为材料,经过病毒和病毒RNA的提纯,反转录获得病毒cDNA,并克隆到载体pUC19的SmaⅠ位点上,筛选得到多个重组质粒,选取其中一个克隆SCMV－CA54进行测序,得到一个全长为1296bp的苷酸序列,这段序列由一个长为1044bp的开放阅读框架（ORF）和一个长279bp的3‘末端非编码区序列（3‘-UTR)及poly（A）尾巴组成。这个ORF包括病毒完整的外壳蛋白（CP）及部分核内含体蛋白（b(NIb）基因序列,将所得序列同已知SCMV亚组中各株系分离物的核苷酸和氨基酸进行同源性比较,结果表明该序列与其它株系分离的CP核苷酸序列的同源性介于63.7％－77.6％之间,氨基酸的同源性介于64％－89％之间。根据马玲薯Y病毒属的序列同源性划分标准,SCMV－CA与其它株系或分离物的同源性关系均介于种与株系进分标准之间,这是我国首次报道SCMV CP基因序列。     

Natural resistance to cucumber mosaic virus in lupin species

Ten species of lupins (Lupinus spp.) were tested for resistance to cucumber mosaic cucumovirus (CMV) in field experiments where inoculation was by naturally-occurring aphid vectors, and in the glasshouse by sap or graft-inoculation. L. albus and six species of ‘rough-seeded’ lupins did not become infected with CMV either under intense inoculum pressure in the field or when graft-inoculated. Two L. hispanicus, 17 L. luteus and four L. mutabilis genotypes became infected with CMV in the field, but no infection was detected in L. hispanicus P26858 or seven L. luteus genotypes. CMV was detected at seed transmission rates of 0.2–16% in seedlings of infected L. luteus, differences in levels of seed transmission between genotypes being significant and relatively stable from year to year. Graft-inoculation of CMV to plants of six genotypes of L. luteus in which no infection was found in the field induced a systemic necrotic reaction suggesting that the resistance they carry is due to hypersensitivity. In L. hispanicus accessions P26849, P26853 and P26858, CMV sub-group II isolate SN caused necrotic spots in inoculated leaves without systemic movement, while sub-group I isolate SL infected them systemically without necrosis. Another sub-group I and two other sub-group II isolates behaved like SL in P26849 and P26853 but infected only inoculated leaves of P26858. This suggests that two strain specific hypersensitive resistance specificities are operating against CMV in L. hispanicus. When plants of L. luteus genotypes that gave hypersensitive reactions on graft-inoculation were inoculated with infective sap containing two sub-group I and seven sub-group II isolates, they all responded like L. hispanicus P26858. A strain group concept is proposed for CMV in lupins based on the two hypersensitive specificities found: strain group 1 represented by isolate SN which induces hypersensitivity with both specificities, strain group 2 represented by the three isolates which induced hypersensitivity only with the specificity present in L. luteus and L. hispanicus P26858, strain group 3 by as yet hypothetical isolates that induce hypersensitivity only in presence of the specificity in L. hispanicus P26849 and P26853 that responded just to isolate SN, and strain group 4 by isolate SL which overcomes both specificities. When F₂ progeny plants from crosses between hypersensitive and susceptible L. luteus parents were inoculated with isolate SN, the resistance segregated with a 3:1 ratio (hypersensitive:susceptible), suggesting that a single dominant hypersensitivity gene, Ncm-1, is responsible. As gene Ncm-1 had broad specificity and was not overcome by any of the five CMV isolates from lupins tested, it is valuable for use in breeding CMV resistant L. luteus cultivars.