1)duck plague virus鸭瘟病毒
1.Dynamics of IFN-α mRNA expression in liver of ducks infected with duck plague virus of different virulence;鸭瘟病毒疫苗株与强毒株诱导雏鸭IFN-α mRNA在肝脏中表达的动态定量研究
2.Purification and electron microscopy observation after negative staining of duck plague virus;鸭瘟病毒的纯化及电镜负染形态观察
3.Prokaryotic expression of N-terminal antigenic domain of duck plague virus gB protein and the establishment of putative indirect ELISA assay;鸭瘟病毒gB蛋白N端主要抗原域的表达及间接ELISA检测
英文短句/例句
1.Analysis of TK gene of a virulent duck plague virus CY07 strain鸭瘟病毒CY07强毒株TK基因的序列分析
2.Development and Verification of PCR for Detection of Duck Plague Virus鸭瘟病毒PCR检测方法的建立及验证
3.Cloning and Molecular Characterization of VP26 Gene of Duck Plauge Virus鸭瘟病毒VP26基因克隆和分子特性分析
4.Analysis of molecular characteristics of duck plague virus UL24 gene鸭瘟病毒UL24基因的分子特征分析
5.Studies on the Detetion of Antibodies Against New Duck Plague Virus by an Indirect ELISA and the Detection of New Duck Plague Virus by an Indirect Immunofluorescent Assay;间接ELISA检测新型鸭瘟抗体和IFA检测新型鸭瘟病毒的研究
6.Development of a multiplex PCR assay for detection of goose parvovirus and duck plague virus鹅细小病毒和鸭瘟病毒复合PCR检测方法的建立
7.Duck Hemorrhagic Disease(DHD)is a new infectious disease caused by a new type herpesivrus diferent from duck plague virus.鸭出血症是由不同于鸭瘟病毒的鸭新型疱疹病毒引起的鸭的一种传染性疾病。
8.Discovery, Prokaryotic Expression and Applications of Duck Plague Virus gC Gene;鸭瘟病毒gC基因的发现、原核表达和应用研究
9.Studies on the Discovery, Prokaryotic Expression and Applications of Duck Plague Virus US3 Gene鸭瘟病毒US3基因的发现、原核表达及应用研究
10.DPV UL25 Gene Prokaryotic Expression and the Study of Its Cellular Localization in Virus-infected Cells鸭瘟病毒UL25基因的原核表达及细胞定位研究
11.Transient expression of duck plague virus UL51 gene in COS-7 cells鸭瘟病毒UL51基因在COS-7细胞中的瞬时表达
12.DPV UL30 Gene Prokaryotic Expression and the Study of Its Localization in Duck Embryo Fibroblast鸭瘟病毒UL30基因原核表达及在鸭胚成纤维细胞内的定位
13.Construction of Recombinant Duck Plague Virus Expressing HA and NA Gene of H5N1 Subtype Avian Influenza Virus;表达H5N1亚型禽流感病毒HA和NA基因重组鸭瘟病毒的构建
14.Cloning of gH, TK, UL24 Gene and Construction of Transfer Plasmid for Recombinatation of Duck Entertitis Virus;鸭瘟病毒gH、TK、UL24基因的克隆与病毒转移质粒的构建
15.Cloning and Analysis of Partial Genomic Sequence of Duck Enteritis Virus and Construction of Transfer Vector for Recombinant Virus鸭瘟病毒部分基因组序列的克隆及重组病毒转移载体的构建
16.DPV UL26.5 Gene Prokaryotic Expression and the Study of Its Cellular Localization in Virus-infected Cells鸭瘟病毒UL26.5基因的原核表达及在病毒感染细胞定位研究
17.Cloning, Expression and Function Studies of the UL34 Gene in the Replication Procedure of Duck Plague Virus鸭瘟病毒UL34基因的克隆、表达以及在病毒复制中的功能研究
18.DPV UL32 Gene Prokaryotic Expression and the Study of Its Subcellular Localization in Virus-infected Host Cells鸭瘟病毒UL32基因的原核表达及在病毒感染宿主亚细胞定位研究
相关短句/例句
DPV鸭瘟病毒
1.The SD-01 strain of DPV was propagated in chicken embryo fibroblast monolayer cells.将鸭瘟病毒分离株SD-01在鸡胚成纤维细胞上增殖。
2.According to the UL6 and UL7 gene data of duck plague virus(DPV),a pair of primers were designed and used for a polymerase chain reaction(PCR) with two duck plague vaccine strains and one standard strain and one field isolate.根据鸭瘟病毒UL6和UL7基因序列,设计合成了一对引物,以2株疫苗株1、株强毒株和1株山东分离株DNA为模板,进行PCR扩增,得到预期690 bp的目的片段。
3.According to DPV gC gene sequence discovered by our laboratory,a series of scientific research were conducted and the results were obtained as followed:1.本文对本实验室发现的鸭瘟病毒gC基因开展系列研究,获如下结果:1。
3)duck plague virus virulent strain鸭瘟病毒强毒
1.Replication kinetics of duck plague virus virulent strain in parenchymatous organs of experimentally infected ducklings;鸭瘟病毒强毒株在感染鸭实质器官内的增殖与分布
4)antibody against duck plague virus鸭瘟病毒抗体
5)Goose Parvoviruses番鸭小鹅瘟病毒
6)DNA of duck plague virus鸭瘟病毒-DNA(DPV-DNA)
延伸阅读
稻瘟病 由稻梨孢 (Piricularia oryzae) 真菌引起的一种水稻病害。又称稻热病。病菌侵染叶片、茎秆、穗颈、小穗梗和谷粒。根据受害时期和侵染部位不同,可分别引起苗瘟、叶瘟、节瘟、穗颈瘟和粒瘟。分布遍及世界各稻区,严重发生时可使水稻颗粒无收。中国南部稻区叶瘟、穗颈瘟发生较重,北部稻区以穗颈瘟为主。(见彩图) 秧田播种太密、分蘖期高温高湿、孕穗期骤遇低温、氮肥用量过多、冷水灌田、遮荫或种植感病品种等都容易诱发稻瘟病。幼苗期、分蘖盛期、孕穗抽穗期是最易感病的生育阶段。水稻不同品种或同一品种不同的生育期,其抗病性不同。叶片表面细胞壁的硅化程度以及植株体内氮、碳化合物的状态、含量与比例与抗病性有密切关系。 稻瘟病菌只侵害水稻。病菌有生理分化现象,各生理小种之间的寄生能力、对温、湿度的反应和分生孢子形态均有一定差异。病菌以菌丝体和分生孢子在病稻草、病谷上越冬,为次年初侵染的菌源。生长季产生大量分生孢子。孢子的形成与萌发对湿度要求很高,如相对湿度降至90%以下,分生孢子的形成减至10%左右,孢子不能萌发。分生孢子靠气流传播进行再侵染。 首要的防治措施是针对各地区生理小种的区系变化,种植不同的抗病品种。在栽培管理方面应注意处理染病稻草和稻种的消毒以减少菌源;同时应根据水稻的生育状况和生育期,合理施肥灌水。在水稻分蘖盛期和孕穗抽穗期加强对病害发生的预测,及时喷药防止病菌蔓延。稻瘟净、多菌灵、春雷霉素等防治效果较好。
