烟草花叶病毒丁香分离物的分离与鉴定

 从表现花叶症状的丁香病株上获得一病毒分离物,其在电镜下为约300 nm×18nm的杆状粒子;电泳分析表明感病组织中ds RNA大约为6.4kbp,而其外壳蛋白分子量约为17.6k Da。以上实验结果初步将该病毒分离物鉴定为烟草花叶病毒属(Tobamovirus)。根据该属病毒复制酶基因序列设计通用引物,进行RT-PCR检测,扩增出约1000 bp的预期特异片段(Gen Bank AY566703)。将PCR产物克隆后测序,序列分析表明,与从蚕豆中分离的TMV-B株系序列(Gen Bank AJ011933.1)同源性为99.90%。根据烟草花叶病毒(Tobacco mosaic virus,TMV)的RNA CP基因序列设计引物,进行RT-PCR,扩增出约800 bp的预期特异片段(Gen Bank AY56672),序列分析表明,与TMV-B株系序列(Gen Bank AJ011933.1)同源性达99%,上述实验结果表明,该病毒分离物为TMV。由于该分离物与TMV-B在指示植物上的症状存在明显差异,所以,作者把该分离物暂命名为TMV-S。     

香石竹斑驳病毒的鉴定和RT-PCR检测

从表现为叶斑驳、花碎色症状的香石竹病株上获得一病毒分离物 ,电镜负染观察到直径为28～33nm的球状粒子。病毒提取液经紫外光测定呈典型核蛋白吸收曲线 ,OD₂₆₀/OD₂₈₀=1.70;血清学反应与CarMV抗血清出现明显的沉淀线。通过以上实验结果 ,确定该病毒分离物为香石竹斑驳病毒(carnation mottle virus ,CarMV)。根据该病毒的RNA序列设计引物 ,对病健材料进行了RT-PCR检测 ,结果从感病材料中扩增出大约600bp的特异片段 ,而健康植物无此扩增带。将PCR产物连接 pGEM-T-easy载体 ,转化大肠杆菌JM109,得到了含目的片段的重组子 ,经双脱氧序列分析 ,与Guilley报道的序列对应部分的核苷酸序列基本一致 (其同源性达96% ) ,最低检出病毒核酸含量为5ng ,表明应用RT-PCR检测香石竹斑驳病毒是可行的     

A third cryptic virus in beet (Beta vulgaris)

Japanese leaf beet Beta vulgaris var. cicla cv. Fudanso plants were found to contain four double-stranded RNA (dsRNA) components in apparently healthy beet plants. Two were identified as from beet cryptic virus 1 (BCV1), but the other two showed different mobilities on gel electrophoresis and were transcribed into complementary DNA (cDNA) and cloned. Hybridization analysis showed no significant sequence homology between these two dsRNAs and the dsRNA components of BCV1 or the other known cryptic virus of beet, BCV2. Slot- and dot-blot hybridization were used with cDNA clones as probes to identify plants containing these two dsRNA components. Virus particles were purified from these plants and were shown to contain the two new dsRNA components, thus demonstrating the existence of a new beet cryptic virus, which we have called BCV3.     

灰飞虱酵母双杂交cDNA文库的构建及分析

以灰飞虱（Laodelphax striatellus Fallen）mRNA为起始模板,利用Gateway技术构建了灰飞虱酵母双杂交cDNA文库。经过检测表明：构建的初级cDNA文库的库容量为1.85×107 cfu;扩增文库滴度为7.7×108 cfu/mL,重组率约为97%;扩增文库插入片段主要集中在1 000~1 500 bp之间。随机挑取10个克隆,经测序与GenBank数据库比对结果显示7个克隆具有同源序列,其中L2、L9为已公布的灰飞虱序列。灰飞虱酵母双杂交cDNA文库的构建为克隆全长目的基因及研究灰飞虱与其传播的水稻病毒间的互作奠定了基础。     

侵染扶桑的烟草花叶病毒分离物鉴定

从表现叶斑驳症状的扶桑病株上获得一病毒分离物,电镜下可见约300 nm×18 nm的杆状粒子,其与烟草花叶病毒抗血清呈明显的阳性反应,dsRNA约为6.4 kbp。根据烟草花叶病毒(tobacco.mosaic virus,TMV)的RNA序列设计引物,进行RT-PCR检测,扩增出约800 bp的预期特异片段。将PCR产物连接pMD18-T载体,转化大肠杆菌DH5α,得到了含有目的片段的重组子。序列分析表明,与周雪平等报道的序列(GenBank AJ011933.1)同源性达99％。通过生物学、病毒粒子观察、血清学以及分子生物学实验结果,确定该病毒分离物为TMV。     

Biological, serological and molecular characterization of a cucumber mosaic virus isolate from India

A. virus causing mosaic and leaf deformation of Physalis minima has been identified as an isolate of cucumber mosaic virus (CMV) on the basis of its transmission by aphids in a non-persistent manner, polyhedral particles of 29 nm diameter, molecular weight of coat protein subunits us 24-5 kDa. serological relationship with a CMV isolate and a tripartite single-stranded RNA genome with a subgenomic RNA4- Furthermore. cDNA representing coat protein gene was synthesized and cloned. Complete nucleotide sequences (890 nt) were obtained which showed a coat protein gene open reading frame of 657 residues. THE nucleotide sequences provided the 218 amino ACID sequences of the coat protein. Nucleotide as well as amino acid sequences revealed more than 90% identity with the CMV subgroup I strains.     

地高辛标记cDNA探针检测苹果茎痘病毒

 Partial sequence(314 bp) of ASPV was cloned and used as a probe labelled with digoxigenin-11dUTP. The total RNA extracted from samples with Apple stem pitting virus and a series of dilutions of plasmid with ASPV-cDNA were detected by dot blot hybridization. The results showed that the probe was sensitive and specific. The probe couldn't hybridize with total RNA of Apple stem grooving virus, Apple mosaic virus and Apple chlorotic leaf spot virus samples as well as negative control, only hybridized with that extracted from dormant shoot infected with ASPV. The sensitivity for detection of plasmid contained ASPV-cDNA was 1.64 μg.     

地高辛标记的cDNA探针检测烟草花叶病毒、黄瓜花叶病毒及马铃薯Y病毒

 根据已发表的烟草花叶病毒(Tobacco mosaic virus,TMV)、黄瓜花叶病毒(Cucumber mosaic virus,CMV)和马铃薯Y病毒(Potato virus Y,PVY)的外壳蛋白基因序列,设计特异引物,分别以提取的TMV、CMV和PVY侵染的病叶总RNA为模板,反转录PCR进行体外扩增,分别得到长度为0.44、0.77、0.80 kb的目的片段,并克隆到pGEM-T easy质粒载体上,以构建的重组质粒为模板,用PCR方法合成了相应的地高辛标记的双链DNA探针。以合成的探针通过斑点杂交技术检测烟草病叶总RNA和烟草病叶汁液。TMV、CMV和PVY的3种地高辛探针检测各自感染的烟草病叶总RNA的稀释低限分别为1:1000、1:10000、1:320,检测各自侵染烟草病汁液的最大稀释倍数分别为1:100、1:100、1:10,而每种探针与健康烟草和其它2种病毒的反应均为阴性。     

用酵母双杂交筛选与南瓜蚜传黄化病毒MP互作的寄主因子

植物病毒编码的移动蛋白(movement protein,MP)介导病毒在寄主体内的移动,研究其与寄主间的分子互作有助于揭示病毒侵染过程中的分子机制。将南瓜蚜传黄化病毒Cucurbit aphid-borne yellows virus(CABYV)MP基因定向克隆到含有DNA结合功能域(DNA-binding domain,BD)载体上,并构建与激活功能域(activation domain,AD)融合表达的西瓜茎叶cDNA文库,然后用MP为诱饵筛选文库寻找与其互作的寄主因子。结果表明,诱饵质粒插入的MP基因可读框和氨基酸序列均正确,对酵母菌株AH109和Y187没有自主激活能力;文库滴度为2.94×106CFU/mL,且大多数插入片段在700bp以上,质量符合筛选要求;经过筛选和共转化回转验证,有48个候选阳性克隆与MP在酵母中互作。测序得到这些克隆的cDNA序列,BLAST分析结果表明,这些克隆共编码12种蛋白。     

大麦黄矮病毒(BYDV) cDNA的合成、克隆及初步应用

 以大麦黄矮病毒二叉蚜和麦长管蚜专化株的病毒核酸为模板,以小牛胸腺DNA为引物,合成cDNA的第一条链,再用缺口翻译法合成第二条链,然后采用加装BamH₁人工接头的方法将ds-cDNA插入到质粒载体pUC₈中,重组质粒于大肠杆菌JM—83中进行克隆,以克隆的颜色变化选择含有外源DNA的克隆,再用病毒核酸制备的探针筛选真正病毒cDNA插入的克隆。重组质粒中ds-DNA的插入长度在300—1600bp之间。用缺口翻译法制备质粒DNA分子探针检测同源病毒液,反应灵敏度在100pg-1ng之间。应用cDNA探针检测不同病毒和病毒株系,从中筛选出黄矮病毒株系专化克隆系,黄矮病毒专化克隆系和黄矮病毒组专化克隆系.     

DNA probes and PCR primers for the detection of a phytoplasma associated with peanut witches'-broom

EcoRI restriction fragments of genomic DNA from the phytoplasma associated with peanut witches'-broom (PNWB) were cloned in plasmid pGEM-3Zf(+). Cloned inserts from seven PNWB-phytoplasma-specific recombinant plasmids and two subcloned plasmids were excised with restriction enzymes, labeled with digoxigenin, and used as probes. Probe PNWB281 and its derivative subclones PNWB281-4 and PNWB281-5 hybridized with DNA from PNWB-phytoplasma infected peanut and periwinkle specifically but not with DNA from healthy plants or plants infected with phytoplasmas associated with sweetpotato witches'-broom (SPWB), loofah, Ipomoea obscura, and paulownia witches'-broom, elm and aster yellows, rice yellow dwarf, and bamboo little leaf disease. Six other probes hybridized with DNA derived from PNWB and SPWB-phytoplasma-affected periwinkle but not with DNA from healthy plants or plants infected with other phytoplasmas mentioned. In Southern hybridizations, four of the nine cloned and subcloned probes could differentiate the PNWB-phytoplasma from SPWB-phytoplasma. Three primer pairs for PCR were synthesized according to the partial sequences at both ends of the cloned inserts and were able to distinguish PNWB-phytoplasma from SPWB-phytoplasma by using PCR for the first time. A minimum of 1 pg and 10 pg of total DNA from diseased periwinkle and peanut, respectively, was sufficient to amplify the specific PNWB-phytoplasma PCR fragments, allowing the detection of PNWB-phytoplasma DNA from healthy-looking periwinkle plants two weeks after graft inoculation.     

Effect of Diaporthe RNA virus 1 (DRV1) on growth and pathogenicity of different <Emphasis Type="Italic">Diaporthe</Emphasis> species

A 4.1 kbp positive-strand RNA virus known as Diaporthe RNA virus 1 (DRV1) occurs in hypovirulent, non-sporulating isolates of the fungal pathogen Diaporthe perjuncta. A full-length cDNA clone of DRV1 was developed and RNA transcribed from the cDNA clone used to transfect different Diaporthe spp. The transfected species included three D. ambigua isolates and an unidentified Phomopsis asexual state of a Diaporthe sp. Successful transfections were confirmed using RT-PCR. Although the in vitro-transcribed positive sense single-stranded RNA used for transfection included vector sequences at both ends, the genomes of progeny virus from DRV1-transfected isolates were free of the vector sequences. Transfection resulted in morphological changes in these fungal pathogens. However, the presence of DRV1 did not reduce growth rate in two of the three D. ambigua or the Phomopsis sp. significantly. Pathogenicity studies showed that the transfected isolates have reduced aggresiveness.     

Two paths of sequence divergence in the citrus tristeza virus complex

ABSTRACT Comparison of a sampling of complementary DNA (cDNA) sequences from the Florida citrus tristeza virus (CTV) isolates T3 and T30 to the sequence of the genome of the Israeli isolate VT showed a relatively consistent or symmetrical distribution of nucleotide sequence identity in both the 5' and 3' regions of the 19.2-kb genome. In contrast, comparison of these sequences to the sequence of isolate T36 showed a dramatic decrease in sequence identity in the 5' proximal 11 kb of the genome. A cDNA probe derived from this region of the T36 genome hybridized to double-stranded RNA (dsRNA) of only 3 of 10 different Florida CTV isolates. In contrast, analogous probes from T3 and T30 hybridized differentially to the seven isolates not selected by the T36 probe. Primers designed from cDNA sequence for polymerase chain reaction (PCR) selectively amplified these 10 isolates, allowing them to be classified as similar to T3, T30, or T36. In contrast, individual cDNA probes derived from the 3' terminal open reading frames of the T3, T30, and T36 genomes all hybridized to dsRNA from all Florida CTV isolates tested, and PCR primers designed from the T36 capsid protein gene sequence amplified successfully from all isolates. Based on these data, we propose the creation of two groups of CTV, exemplified by the VT and T36 isolates, respectively. Isolates in the VT group, which include isolates VT, T3, and T30, have genomic sequence divergence that is relatively constant in proportion and distribution throughout the genome, and candidate isolates for that group could be considered strains of the same virus. The T36 group is differentiated from the VT group by the highly divergent 5' genomic sequence. This 5' region of the CTV genome, thus, can serve as a measure of the extent of sequence divergence and can be used to define new groups and group members in the CTV complex.