水稻黑条矮缩病毒基因组片段S7的cDNA克隆及全序列分析

应用RTPCR技术克隆了2个水稻黑条矮缩病毒 (rice blackstreaked dwarf virus,RBSDV)中国分离物,即浙江分离物和河北分离物的基因组片段S7,并测定了他们的全序列。结果表明：RBSDV浙江分离物(RBSDVZj)基因组片段S7全长2193nts(EMBL登录号为AJ297427),RBSDV河北分离物基因组片段S7全长2190nts(EMBL登录号为AJ297428),二者均含有两个开放阅读框(open reading frame,ORF),分别编码约41kD和36kD多肽,2个中国分离物核苷酸同源性高达99%,相应的ORF编码的多肽同源性分别为100%和94.4%,与日本RBSDV基因组片段S7核苷酸同源性为93.4%和93.8%,相应ORF编码的多肽同源性分别为98.1%(ORF1)、96.5%和97.8%(ORF2),与意大利MRDV S6核苷酸同源性为85.1%和85.3%,相应多肽同源性分别为92.3%(ORF1)、85.5%和86.8%(ORF2)。     

江苏水稻黑条矮缩病毒S10的cDNA克隆序列分析

从来自江苏连云港并在本实验室保存的水稻黑条矮缩病毒接种的病株玉米中提取dsRNA,采用改进的单引物扩增技术获得了病毒基因组片段S10的cDNA克隆并测定了其全序列.结果表明S10全长1 801bp,含有一个ORF,组织结构与日本报道的RBSDV基本一致,核苷酸和推导的氨基酸序列与MRDV的相似性分别为87.5%和92.6%,与RBSDV的相似性分别为93.3%和96.4%.该研究也为病毒dsRNA克隆和序列分析奠定了基础.     

江苏水稻黑条矮缩病毒S10的cDNA克隆序列分析

从来自江苏连云港并在本实验室保存的水稻黑条矮缩病毒接种的病株玉米中提取dsRNA ,采用改进的单引物扩增技术获得了病毒基因组片段S10的cDNA克隆并测定了其全序列。结果表明S10全长 180 1bp ,含有一个ORF ,组织结构与日本报道的RBSDV基本一致 ,核苷酸和推导的氨基酸序列与MRDV的相似性分别为 87.5 %和92 .6 % ,与RBSDV的相似性分别为 93.3%和 96 .4%。该研究也为病毒dsRNA克隆和序列分析奠定了基础     

水稻黑条矮缩病毒第七号片段的cDNA克隆及其在大肠杆菌中的表达

运用RT-PCR技术,根据玉米粗缩病毒S6的末端序列设计引物,从玉米粗缩病感病材料中克隆得到一条2.2kb长的cDNA片段,序列分析表明,该片段全长2193bp,含两个开放阅读框,分别编码41.0kD和36.3kD的多肽。序列分析结果表明,该cDNA片段及其编码产物与水稻黑条矮缩病毒S7的cDNA序列及编码产物存在最高的相似性,推测该cDNA片段为水稻黑条矮缩病毒的S7片段,而不是玉米粗缩病毒的S6。分别将该片段的两个阅读框克隆到原核表达载体pET21d及pGEXKG中,经IPTG诱导后,两种蛋白均得到了高效的表达。表达产物回收后制备并得到了高效价的抗血清。     

水稻黑条矮缩病毒基因组片段S9的cDNA克隆和全序列分析

应用RT PCR技术克隆了 3个中国水稻黑条矮缩病毒 (riceblack streakeddwarfvirus,RBSDV)分离株基因组片段S9,并测定了它们的全序列。结果表明 :RBSDV浙江分离株 (RBSDV Zj)基因组片段S9全长 190 0nt(EMBL登录号为AJ2 97430 ) ,RBSDV河北分离株 (RBSDV Heb)基因组片段S9全长 1898nt(EMBL登录号为AJ2 9742 9) ,湖北分离株S9全长 190 0nt(EMBL登录号为AJ2 9170 6 )。 3个分离株S9均含有两个开放阅读框(ORF) ,分别编码约 40kD和 2 4kD的多肽。3个中国分离株之间的核苷酸同源性高达 98.5 %～ 98.8% ,与日本分离株S9的核苷酸同源性均为 89.9%～ 90 .2 % ,而与意大利MRDVS8同源性仅为 85 .3%～ 86 .4%。我们发现ORF2十分保守 ,4个RBSDV分离株S9的ORF2同源性高达为 97.6 %～ 10 0 % ,与意大利MRDVS8的ORF2同源性也高达 94.3%。     

猪瘟弱毒C81株全基因组测序及分子结构预测

参照已发表的猪瘟病毒弱毒株的序列,设计7对覆盖全长基因组的引物,通过RT-PCR从感染猪瘟病毒弱毒株的PK-15细胞中扩增得到7个cDNA片段,分别克隆到pMD18-T载体并测序,利用DNASIS软件获得猪瘟病毒C81株全基因组序列(GenBankAY663656).C81株基因组全长12310nt,只有一个大的开放阅读框,编码3898个氨基酸的聚蛋白.序列分析表明,C81株开放阅读框与其它各毒株核苷酸和氨基酸序列的同源性变化较大,分别为84.4%～99.6%和91.6%～99.4%.同时,我们绘制了26株CSFV ORF的进化树,比较了CSFV 5'非翻译区核苷酸序列并推测其二级结构,发现不同毒株之间存在较大的差异,另外对C81株聚蛋白的功能域和三维结构进行了预测.     

蓝舌病毒血清5型毒株S7基因编码区的分子克隆与序列分析

目的:对蓝舌病毒(BTV)血清5型毒株(BTV-5)的S7基因编码区(ORF)进行克隆和序列分析。方法:用TRIzol LS试剂提取病毒总RNA,经反转录-聚合酶链反应(RT-PCR)扩增BTV-5型毒株S7基因的编码区,将扩增片段克隆到pGEM-T Easy载体上,对阳性克隆进行核苷酸序列测定;采用DNAStar和DNASIS v2.5软件对环状病毒属不同种群的S7基因ORF序列及其推导的氨基酸序列进行同源性及系统进化树分析。结果:克隆的基因片段长1050bp,为S7基因开放性读码框的全长序列,编码349个氨基酸残基;与环状病毒属不同血清型毒株比较,核酸序列同源性范围为42.2%～96.6%,推导的氨基酸序列同源性范围为40.4%～99.7%。结论:蓝舌病毒与非洲马瘟病毒、鹿流行性出血热病毒分属于不同种群,群内不同血清型的S7基因ORF序列及其推导的氨基酸序列显示出很高的同源性,而不同种群之间的同源性很低。     

水稻瘤矮病毒基因组S9片段的基因结构特征

应用RT-PCR技术克隆了水稻瘤矮病毒(RGDV)中国广东信宜分离物(RGDV-C)的基因组S9片段,测定了全序列并进行了生物信息学分析。结果表明,RGDV-C S9片段全长共有1202bp(登录号AY556483),含有一个长的开放阅读框,这一开放阅读框编码一个由323个氨基酸残基组成的多肽,推测分子量约35.6kDa,与泰国分离物(RGDV-T)的全序列相比,它们的核苷酸长度相等,核苷酸同源性为98.1%,氨基酸同源性为98.5%。RGDV S9片段编码的Pns9蛋白在植物呼肠孤病毒属内未发现同源蛋白,其功能尚待确定。利用NCBI的BLAST查找与比较,发现Pns9与伯氏疏螺旋体(Borrelia burgdorferi)ATP依赖的Clp蛋白水解酶组分[ATP-dependent Clp prote-ase proteolytic component(clpP-1)]有21.8%的氨基酸序列同源性。     

水稻瘤矮病毒基因组S9片段的基因结构特征

应用RT-PCR技术克隆了水稻瘤矮病毒(RGDV)中国广东信宜分离物(RGDV-C)的基因组S9片段,测定了全序列并进行了生物信息学分析.结果表明,RGDV-C S9片段全长共有1202bp(登录号AY556483),含有一个长的开放阅读框,这一开放阅读框编码一个由323个氨基酸残基组成的多肽,推测分子量约35.6kDa,与泰国分离物(RGDV-T)的全序列相比,它们的核苷酸长度相等,核苷酸同源性为98.1%,氨基酸同源性为98.5%.RGDV S9片段编码的Pns9蛋白在植物呼肠孤病毒属内未发现同源蛋白,其功能尚待确定.利用NCBI的BLAST查找与比较,发现Pns9与伯氏疏螺旋体(Borrelia burgdorferi)ATP依赖的Clp蛋白水解酶组分[ATP-dependent Clp protease proteolytic component(clpP-1)]有21.8%的氨基酸序列同源性.     

慢性蜜蜂麻痹病毒Ch1株的编码区测序及其序列的分析

对中国分离株慢性蜜蜂麻痹病毒(Chronic bee paralysis virus,CBPV)Ch1编码区全基因序列进行克隆、测序、分析。利用RT-PCR方法和生物信息学软件,对本实验室分离到的Ch1株CBPV编码区的基因序列进行克隆,测序,与GenBank收录的CBPV毒株进行同源性比较,并以RdRp为靶基因构建了遗传进化树。结果显示,CBPV Ch1株的编码区由RNA1(GenBank No.KU950353)和RNA2(GenBank No.KU950354)两部分构成,全长5 979个核苷酸。其中RNA1片段全长3 674个核苷酸,编码3个开放阅读框,RNA2片段全长2 305个核苷酸,编码4个开放阅读框,RNA2片段中ORF2和ORF3,可能编码两个结构蛋白,分别命名为SP1和SP2。RNA1和RNA2核苷酸序列与2005年法国分离株Fr2核苷酸序列同源性最高,分别为96.1%和95.5%,但预测蛋白SP1核苷酸序列同源性与2006年乌拉圭分离株Ur1核苷酸序列同源性最高(96.9%)。基于RdRp为靶基因进行了遗传进化分析表明,Ch1株与Fr2株位于同一分支,且在该区域,Ch1株与Fr2株的核苷酸序列同源性最高(96.5%)。本实验成功分离到一株CBPV(KU950353,KU950354),并命名为Ch1株,完成了Ch1株CBPV的编码区的序列测定以及核苷酸序列与推导的氨基酸序列同源性比较及遗传进化分析,为研究CBPV的致病机制和免疫机制提供重要信息。     

Understanding the epidemiological factors that intensify the incidence of maize rough dwarf disease in Spain

Currently the dominant limiting factor to maize production in Spain is caused by Maize rough dwarf virus (MRDV). This study aimed to evaluate the epidemiology factors involved in the increased incidence of MRD disease in Spain. We examined the maize planthopper dynamics and MRDV incidence throughout two maize growing seasons in six locations using a set of eight maize varieties: four Bt‐varieties (BT‐var) and their isogenic counterparts (NBT‐var). Our results indicate that MRDV incidence is greatly influenced by the first colonisation of maize by Laodelphax striatellus but not by Metadelphax propinqua and by the susceptibility of the maize varieties. No significant differences were observed between the BT‐var and NBT‐var, although BT‐var exhibited 1% less MRDV infection than NBT‐var. Cultivated wheat and Lolium perenne were found for the first time to be natural hosts of MRDV. However, wheat does not seem to be a preferred host for the development of L. striatellus. Partial sequencing of genome segments S1–S9 and full sequencing of segment S10 revealed that the Spanish MRDV isolate shares nucleotide identities ranging from 93% to 97% with the available sequences of segments S7–S10 of the Italian MRDV isolate. The highest nucleotide identities with other fijiviruses were observed with Rice black‐streaked dwarf virus. Molecular variability analysis of MRDV isolates collected over a ten years period showed high nucleotide (>97%) and amino sequence identities (>99%) on segment S10, suggesting a low temporal variability.     

Sequence Analysis of Segment 8 of Five Chinese Isolates of Rice Gall Dwarf Virus and Expression of a Main Outer Capsid Protein in Escherichia coli

The rice gall dwarf disease, caused by the Rice gall dwarf virus (RGDV) is a serious disease occurring in rice in many regions of Guangdong province. As a basis to control the disease we have studied the genomic diversity of a variety of isolates from different locations. Genome segment 8(S8), encoding a main outer capsid protein (Pns8) of RGDV five isolates (BL, CH, DQ, GZ, XY) from Guangdong province was cloned and sequenced. The results revealed that all the S8 segments of the five isolates consisted of 1 578 nucleotides and had a single open reading frame (ORF) extending for 1 301 nucleotides from nucleotide 21 which encoded a polypeptide of 426 amino acids with an estimated molecular weight of 47.4 kDa. The S8 full-length sequence and the ORF sequence shared 97.3%-98.8% and 97.3%-99.1% nucleotide sequence identities within the five Chinese isolates, and shared 94.8%-95.6% and 95.0%-96.0% identities with those of the Thailand isolate respectively. The deduced amino acid sequence of Pns8 in GZ isolate was identical to that in the Thailand isolate, while the amino acid sequence variability of Pns8 within five Chinese isolates ranged from 0.5% to 2.1%. These results indicate that the S8 segment of RGDV is highly conserved in different isolates from different locations. The S8 cDNA from the XY isolate was cloned into the plasmid vector pET-28b(+) and a fused expression protein with an apparent molecular mass of 51kDa was specifically detected in an analysis of Escherichia coli Rossetta(DE3)Ⅱcells. To our knowledge, this is the first report on analysis of the RGDV segment 8 sequence and genetic comparison of different RGDV isolates and their protein expression.     

水稻南方黑条矮缩病毒湖南鼎城株系S10片段的基因组序列分析

运用RT-PCR技术克隆了水稻南方黑条矮缩病毒(southern rice black-streaked dwarf virus,SRBSDV)湖南鼎城株系的基因组S10片段(SRBSDV-HuNDCS10),并对其全序列进行了测定和生物信息学分析。结果显示,SRBSDV-HuNDC S10片段全长为1797bp(登录号:JQ337964),含有1个ORF,编码557个氨基酸残基的衣壳蛋白,推测分子量约62.6kD,推测等电点为7.62,与已报道的广东、海南和云南分离物病毒的S10作比较,它们的核苷酸相似性分别为99.7%、99.0%和98.4%,氨基酸相似性分别为100.0%、99.5%和99.3%。对SRBSDV-HuNDCS10及部分Fijiviruses病毒对应片段在5’URT与3’URT存在的保守序列和互补序列进行了归纳,对其ORF编码的氨基酸序列进行了motif查找,得到该属(Fijiviruses)氨基酸序列的10个保守区段。此外,进行了糖基化位点、磷酸化位点及B细胞抗原表位预测,发现了3个可能的N端豆蔻酰基化位点,可能与病毒的侵染机制有关。     

汉坦病毒HTN261株S基因片段的核苷酸序列测定及分析

黑龙江省是肾综合征出血热(HFRS)的重疫区。近年来HFRS年的发病人数曾超过万人。流行病学和血清学研究表明黑龙江省HFRS疫区主要是姬鼠型,但目前尚缺乏病毒的分子生物学资料。我们对从疫区捕获的宿主动物-黑线姬鼠肺中分离的汉坦病毒HTN261株的S基因片段的全基因序列进行了测定和初步分析。结果如下,HTN261株的S基因片段的全序列长为1697nt。只有一个主要的编码N蛋白的ORF,起始位置为第37nt,终止于1326nt,编码的蛋白长为429aa。没有发现存在ORF2。HTN261株的S基因片段核苷酸序列与HTN型中的病毒株的同源性很高,而与汉坦病毒其他型的同源性较差。从种系发生树分析来看,HTN261株归结于汉坦病毒的HTN型。在HTN型之内,HTN261株和HTN76-118株在一个分枝内。就其核苷酸和蛋白的同源性来说,HTN261株和HTN76-118株的同源性分别是89%(全S基因)和98%(蛋白)。而与中国境内发现的其他汉坦病毒株Z10,HU,Chen4,NC167等基因和蛋白的同源性相对较差。汉坦病毒除具有其宿主的依赖性外,还具有其地理的簇集性。HTN261株和HTN76-118株之间S基因和N蛋白序列的变异性的差异分别为11%和2%,表明HTN261株和HTN76-118株还有不同,可能是不同的亚型。不过,尚有待于进一步研究证明。     

汉坦病毒HTN261株S基因片段的核苷酸序列测定及分析

黑龙江省是肾综合征因热（HFRS）的重疫区。近年来HFRS年的发病人数曾超过万人。流行病学和血清学研究表明黑龙江省HFRS疫区主要是姬鼠型,但目前尚缺乏病毒的分子生物学资料。我们对从疫区捕获的宿主动物－黑线姬鼠肺中分离的汉坦病毒HTN261株的S基因片段的全基因序列进测定和初步分析。结果如下,HTN261株的S基因片段的全序列长为1697nt。只有一个主要的编码N蛋白的ORF,起始位置为第37nt,终止于1326nt,编码的蛋白长为429aa。没有发现存在ORF2。HTN261株的S基因片段核苷酸序列与HGTN型中的病毒株的同源性很高,而与汉坦病毒其他型的同源民生较差,从种系发生树分析来看,HNT261株归结于汉坦病毒的HTN型。在HTN型之内,HTN261株和HTN76－118株在一个分枝内,就其核苷酸和蛋白的同源性说,HT N261株和HTN76－118株的同源性分别是89％（全S基因）和98％（蛋白）。而与中国境内发现的其他汉坦病毒株Z10,HU,Chen4,NC167等基因和蛋白的同源性相对较差,汉坦病毒除具有其宿主的依赖性外,还具有其地理的簇集性。HTN261株和HTN76－118株之间S基因和N蛋白序列的变异性的差异分别为11％和2％,表明HTN261株和HTN76－118株还有不同,可能是不同的亚型。不过,尚有待于进一步研究证明。     

Sequence analysis of segment 8 of five Chinese isolates of Rice gall dwarf virus and expression of a main outer capsid protein in <Emphasis Type="Italic">Escherichia coli</Emphasis>

The rice gall dwarf disease, caused by the Rice gall dwarf virus (RGDV) is a serious disease occurring in rice in many regions of Guangdong province. As a basis to control the disease we have studied the genomic diversity of a variety of isolates from different locations. Genome segment 8 (S8), encoding a main outer capsid protein (Pns8) of RGDV five isolates (BL, CH, DQ, GZ, XY) from Guangdong province was cloned and sequenced. The results revealed that all the S8 segments of the five isolates consisted of 1 578 nucleotides and had a single open reading frame (ORF) extending for 1 301 nucleotides from nucleotide 21 which encoded a polypeptide of 426 amino acids with an estimated molecular weight of 47.4 kDa. The S8 full-length sequence and the ORF sequence shared 97.3%–98.8% and 97.3%–99.1% nucleotide sequence identities within the five Chinese isolates, and shared 94.8%–95.6% and 95.0%–96.0% identities with those of the Thailand isolate respectively. The deduced amino acid sequence of Pns8 in GZ isolate was identical to that in the Thailand isolate, while the amino acid sequence variability of Pns8 within five Chinese isolates ranged from 0.5% to 2.1%. These results indicate that the S8 segment of RGDV is highly conserved in different isolates from different locations. The S8 cDNA from the XY isolate was cloned into the plasmid vector pET-28b(+) and a fused expression protein with an apparent molecular mass of 51kDa was specifically detected in an analysis of Escherichia coli Rossetta (DE3) II cells. To our knowledge, this is the first report on analysis of the RGDV segment 8 sequence and genetic comparison of different RGDV isolates and their protein expression. Foundation item: National natural science foundation of China (30370929) and Guangdong province natural science foundation (C036845)