同步检测为害百合种球3种检疫性病毒的多重RT-PCR方法

 The multiplex RT-PCR approach was developed for simultaneous detections of Arabis mosaic virus(ArMV),Strawberry latent ringspot virus(SLRSV)and Lily symptomless virus(LSV)from the imported lily bulbs.The results indicated that good specificity and sensitivity for simultaneous detection were obtained.The ultimate of RNA detection with three viruses mixture was 305 pg.The ultimate of RNA detection with ArMV,SLRSV and LSV were 156.0,13.4 pg and 1.12 ng respectively.This approach has potential to be used in quarantine of imports and exports.     

进境豇豆种子携带种传病毒的检测与鉴定

 Imported cowpea seeds were detected with growing test, ELISA assay and RT-PCR method. The ELISA results showed that cowpea seedlings with symptoms reacted positively with antibody against Southern bean mosaic virus (SBMV). The 979 bp of fragment could be amplified from two positive ELISA samples using primers specific for Southern cowpea mosaic virus (SCPMV), and the sequence determination results proved that the pathogen existing in imported cowpea seeds was SCPMV. The positive ELISA results with SBMV antibody could be further confirmed by RT-PCR amplification with specific primers designed to amplify the coat protein gene and 3' noncoding region of SCPMV and SBMV. The RT-PCR method presented here was suitable for molecular identification of SBMV and SCPMV in entry-exit plant quarantine laboratories.     

甘蔗花叶病毒福建分离物外壳蛋白基因的克隆及序列分析

 A fujian isolate of Sugarcane mosaic virus named SCMV-FJ was isolated from infected sugarcane. Cloning and sequence analysis of the coat protein gene of this isolate was carried out. A pair of primers was designed and synthesized based on the nucleotide sequences of coat protein genes of sugarcane mosaic viruses reported. The coat protein gene of SCMV-FJ was amplified from the extracted total RNA of the infected sugarcane by using RT-PCR, and cloned into the pMD18-T vector. The sequencing result indicated that the cloned segment included a 1137 bp open reading frame(ORF) and a 228 bp 3' untranslated region, in which the ORF comprised the whole coat protein and part of the nuclear inclusion b. The nucleotide and the deduced amino acid sequences of the coat protein gene were compared with those of the other isolates or strains of SCMV subgroup reported in GenBank. The result showed that it shares 56.8%-97.1% and 55.3%-99.4% homology in nucleotide and the putative amino acid sequences, respectively, with the highest amino acid homology of 99.4% with SCMV-D. Thus it was identified as a SCMV-D. This experiment provided a rapid, sensitive and relatively inexpensive method for RT-PCR detection of SCMV. At the same time, the cloning of SCMV-FJ coat protein gene provided the foundation for plant gene engineering against SCMV.     

水稻条纹病毒NS2基因原核表达产物多克隆抗体制备及受侵染水稻和灰飞虱体内NS2检测

 The NS2 gene of Rice stripe virus (RSV) was amplified by RT-PCR, cloned into pGEM-T vector and sequenced. The NS2 gene was inserted into prokaryotic expression vector pET32a to produce recombinant plasmid pET32a-NS2. The recombinant plasmid was introduced into Escherichia coli strain BL21 (DE3) pLysS. SDS-PAGE and Western blot analysis confirmed that NS2 fusion protein was expressed after induction by IPTG. The recombinant NS2 protein was purified with Ni²⁺-NTA agarose affinity chromatography and the polyclonal antibody against NS2 protein was raised in rabbit. NS2 protein was successfully detected in small brown planthopper (Laodelphax striatellus) at 1:1 600 dilution of the total protein of single planthopper and in infected rice (Oryza sativa) at 1:800 dilution of 10 mg leave by dot immunobinding assay using the polyclonal antibody.     

香蕉线条病毒ORFⅡ基因的原核表达及抗体制备

 ORFⅡ gene of Banana streak virus GuangDong isolate (BSV-GD) was amplified from a BSV-GD recombinant plasmid by PCR, and the gene was expressed by being cloned into prokaryote expression vector pET-28b (+). The fusion protein was about 16.5 kDa in size and was soluble with SDS-PAGE analysis. The purified protein was obtained by using the histidine labeling kit of N-terminus of protein. The antiserum was obtained by immunizing healthy rabbits with the purified protein. Western blot and ELISA analysis showed that the special antiserum of BSV possessed high titer, which was tested as 1:51 200. The study was a base for further research on BSV including ORFⅡ gene function and virus detection.     

来自安徽不同寄主PVY分离物的血清学鉴定及其cp基因分子进化分析

 Tobacco and potato samples showing symptoms of PVY were collected from different regions in Anhui Province, and the ELISA results of partial samples were positive. The total RNA was extracted from the positive samples by TRIZOL methods. Specific primer pair was designed to amplify cp gene of PVY by RT-PCR. Sequencing results indicated that the full length of cp gene of PVY from tobacco (PVY-CP-4) and pota-to (PVY-CP-7) is 801 nts, and each of them encodes 266 amino acids. A phylogenetic tree based on alignment of cp nucleotide sequences was constructed and the sequence comparing of cp gene was conducted. The results showed that PVY-CP-4 could be grouped into one branch with PVY^O and PVY^N:O and shared the highest sequence similarity (99.4%) with PVY^O (EF026074). It was suggested that PVY-CP-4 derived from tobacco in Hefei might belong to PVY^O. PVY-CP-7 clustered together with PVYN and PVYNTN and formed another branch. Furthermore, PVY-CP-7 shared the highest sequence similarity (98.3%) with PVY^NTN(AJ890347), PVY^NTN (EF026075) and PVY^NTN(AJ585342). It was supposed that PVY-CP-7 derived from potato in Wuhe probably belonged to PVY^NTN.     

江西甘蔗花叶病病原的分子鉴定

 Sugarcane mosaic disease, caused by Sugarcane mosaic virus (SCMV), Sorghum mosaic virus (SrMV), Maize dwarf mosaic virus (MDMV) or Johnsongrass mosaic virus (JGMV) in Potyvirus, is one of the most important viral diseases of sugarcane. In the study, four primer pairs specific to SCMV, SrMV, MDMV and JGMV, respectively, were designed and used to detect 29 sugarcane leaf mosaic samples collected from 9 locations in Jiangxi province. The representative RT-PCR products were sequenced. The results showed that 22 samples were infected by SCMV, three by SrMV, and four were mix-infected by SCMV and SrMV. MDMV or JGMV were not identified in all samples. The result indicates that SCMV is the major pathogen of sugarcane mosaic disease in Jiangxi province, and SrMV is also a pathogen for the disease.     

应用基因芯片检测烟草脆裂病毒

 Total RNA in tulips was extracted by Trizol method. Primers were designed according to the sequences of Tobacco rattle virus and 18S rRNA gene of plant. The corresponding sections were amplified by RT-PCR and the PCR products were labeled by Cy3-dCTP. The probes of plant virus, 18S rRNA gene and comparisons were designed and immobilized on chips. Labeled PCR products were hybridized with the probes and the signals were scanned by scanner and analyzed by GenePix Pro 4.0 software. Tobacco rattle virus was detected from tulips which were imported from Holand. The accuracy and sensitivity of the plant virus gene chip were proved.     

生物素标记cDNA探针杂交检测梨树上3种潜隐病毒研究

 本研究合成了苹果茎沟病毒(ASGV)、苹果褪绿叶斑病毒(ACLSV)和苹果茎痘病毒(ASPV)的生物素标记cDNA探针,对斑点杂交和免疫印迹杂交检测这3种病毒的效果进行了分析。以含ACLSV和ASGV克隆片段的大肠杆菌菌液为样品时,斑点杂交检测灵敏度分别为80 cfu/μL和50 cfu/μL。以离体培养砂梨植株为材料,采用斑点杂交法检测砂梨离体培养植株粗提液中的3种病毒,均产生强的杂交信号,且特异性好。比较斑点杂交和ELISA检测病毒含量相对较低的热处理再生植株中ASGV和ACLSV,结果表明斑点杂交具有较高的灵敏度。组织印迹杂交检测砂梨离体植株ASGV和ACLSV的结果显示,这2种病毒在离体植株的各部位均有分布,自基部至茎尖各部位印迹均产生很强的杂交信号。     

苹果茎痘病毒双重RT-PCR检测体系的建立及应用

<正>病毒病是危害苹果(Malus domestica)的一类重要病害。已报道的苹果病毒种类很多,在我国发生普遍的主要有苹果褪绿叶斑病毒(Apple chlorotic leaf spot virus,ACLSV)、苹果茎沟病毒(Apple stem grooving virus,ASGV)、苹果茎痘病毒(Apple stem pitting virus,ASPV)、苹果花叶病毒(Apple mosaic virus,ApM V)以及苹果锈果类病毒(Apple scar skid viroid,ASSVd)~([1～3])。病毒或类病毒混合     

基于抗原表位策略的苹果茎痘病毒抗血清的制备

苹果茎痘病毒(Apple stem pitting virus,ASPV)是一种严重危害果树生产的潜隐性病毒,但缺乏实用的ASPV抗血清。应用不同生物信息学软件对ASPV外壳蛋白不同区域的抗原指数、蛋白二级结构中α螺旋、β片层、β转角、无规则卷曲结构、亲水性、可塑性(Flexibility)和表面可及性(Surface probability)进行了分析。根据抗原表位主要分布在β转角结构和无规则卷曲区域、亲水性和表面可及性参数较高的特点,综合分析预测ASPV外壳蛋白抗原表位区可能位于N端6-20、100-114、400-414位氨基酸残基附近。通过合成2条多肽(CRGYEEGSRPNQRVLP、CTGGKIGPKPVLSIRK),与载体蛋白偶联后免疫动物,最后得到了2份抗血清(编号为1468和1469)。制备的抗血清可与ASPV外壳蛋白基因原核表达产物产生免疫反应。应用此抗血清检测苹果样品,抗血清1468检测结果与RT-PCR检测结果一致,而抗血清1469仅能检测到部分样品。     

侵染梨的苹果茎痘病毒基因组序列及小RNA分析

苹果茎痘病毒(Apple stem pitting virus,ASPV)是危害梨(Pyrus spp.)和苹果(Malus spp.)的重要病毒。本研究采用小RNA深度测序技术获得了ASPV基因组的部分序列,在此基础上设计引物对该病毒基因组进行RT-PCR扩增,通过序列拼接得到1个来源于玉露香(Yuluxiang)梨的ASPV分离物(YLX)长度为9 291个核苷酸(nt)(不包括基因组5'末端约30个核苷酸)的基因组序列,该序列与已报道的13个ASPV分离物的基因组核苷酸序列相似性为71.6%~80.7%,与多个来自苹果的ASPV分离物系统进化关系较近。首次分析了来源于ASPV基因组的干扰性小RNA(siRNA),发现来源于ASPV基因组链和互补链的siRNA长度均以21 nt和22 nt为主,siRNA的5'端具有一定的碱基偏好性。本研究结果为深入了解ASPV的分子特性提供了重要信息。     

应用常规RT-PCR和荧光定量RT-PCR检测柑桔衰退病毒

 根据柑桔衰退病毒(CTV)P20基因序列设计cquctv9/cquctv10特异引物对,以柑桔RNApolymeraseⅡ基因作为内参照,建立了柑桔衰退病的常规RT-PCR快速检测体系;依据柑桔衰退病毒P20基因序列设计cquctv1/cquctv2特异引物对和TaqMan探针cquctvp1,建立了柑桔衰退病荧光定量RT-PCR快速检测体系。常规RT-PCR检测下限是含有CTV的50pg总RNA,荧光定量RT-PCR法的检测下限是2fg纯CTV片段。荧光定量RT-PCR的灵敏度相对比常规RT-PCR高100倍。利用常规RT-PCR和荧光定量RT-PCR体系对从2005年3月到2006年7月采自田间的样品进行检测,结果表明,2种检测体系都有很好的特异性和准确性;对183个田间柑桔苗木样品带毒率检测结果表明,荧光定量RT-PCR检出率为(82.5%),比常规RT-PCR检出率(73.2%)高。     

应用实时荧光定量RT-PCR检测几种食用菌蛋白抗烟草花叶病毒的活性

根据烟草花叶病毒(Tobacco mosaic virus,TMV)外壳蛋白(CP)RNA的特异性序列设计TaqMan荧光探针及其引物,利用实时荧光定量RT-PCR检测食用菌蛋白抗TMV的活性。经食用菌蛋白处理后,TMV病毒汁液中TMV的RNA浓度下降了22.02%~87.93%,传统生物学测定的食用菌蛋白抗TMV的平均枯斑抑制率为10.88%～83.97%;相关性分析表明,实时荧光定量RT-PCR测定的病毒RNA浓度的下降与传统生物学方法测定的平均枯斑抑制率之间呈正相关(r=0.818 8),具有较好的一致性。利用实时荧光定量RT-PCR检测蛋白抗烟草花叶病毒活性的方法,具有特异性好、快速、简便、重复性高的特点,适合于蛋白抗烟草花叶病毒活性的痕量快速高效检测。     

dsRNA分解酶PAC 1对4种植物病毒、3种类病毒dsRNA的降解活性检测及转pac 1基因烟草的获得

 将来自粟酒裂殖酵母的pac 1基因,导入原核表达载体pET-5a中,并转入大肠杆菌BL21(DE3)pLysS,经IPTG诱导,其表达产物能够降解4种植物病毒Cucumber mosaic virus(CMV)、Tobacco mosaic virus(TMV)、Rice black-streaked dwarf(RBSDV)和Rice dwarf virus(RDV)和3种类病毒Apple scar skin viroid(ASSVd)、Coleus blumei viroid(CBVd)和Hopstunt viroid(HSVd)的dsRNA。将pac 1导入双元载体pBI121,并转入根癌农杆菌LBA4404,以烟草(品种NC89)组培苗的叶片为受体材料进行转化,经过诱导愈伤、分化、再生和筛选培养,获得了50株Kan抗性植株,收获T₁种子分别播种,对这些转基因植株进行分子生物学检测。PCR、PCR-Southern和RT-PCR检测结果表明,pac 1基因已整合到受体基因组中。     

利用小RNA高通量测序技术检测玉米病毒

正玉米是我国重要的粮食作物,种植范围日趋增大,病害的发生对玉米造成极大为害,病毒病对玉米稳产高产已构成严重威胁。近年来,安徽、山东和辽宁玉米主要种植区病毒病危害较重。为了检测发病玉米的病毒种类,本研究利用小RNA高通量测序技术鉴定玉米病毒,明确种类,以期为制定抗病毒策略提供理论依据。据不完全统计,世界上有40多种玉米病毒病(http://en.wikipedia.org),在我国发生并报道的有5种,分别为玉米粗缩病、玉米矮花叶病、玉米条纹矮缩病、玉米红叶病和玉     

甘薯褪绿矮化病毒西非株系实时荧光定量PCR检测方法的建立及应用

 依据GenBank中登录的甘薯褪绿矮化病毒(Sweet potato chlorotic stunt virus,SPCSV)西非株系(WA)的核苷酸序列,分别设计两对特异性引物和一条TaqMan探针。以SPCSV-WA外壳蛋白(cp)基因的重组质粒为阳性标准质粒绘制标准曲线,通过优化反应体系和反应条件,建立了SPCSV-WA的实时荧光定量PCR检测方法。试验结果表明,该方法只能检测到目的病毒,标准曲线的斜率和相关系数分别为-3.239和1,扩增效率为103.568%。最低可检测到约3.31 copies/μL的阳性质粒,灵敏度比常规PCR高1 000倍。本研究建立的SPCSV实时荧光定量PCR方法可用于田间样品的检测,为SPCSV的早期预警和流行学研究提供了技术手段。