Development of a TaqMan PCR assay with internal amplification control for the detection of African swine fever virus.
about
Development of a suspension microarray for the genotyping of African swine fever virus targeting the SNPs in the C-terminal end of the p72 gene region of the genomeRedistribution of Endosomal Membranes to the African Swine Fever Virus Replication Site.A sensitive one-step real-time PCR for detection of avian influenza viruses using a MGB probe and an internal positive control.Small peptide inhibitors disrupt a high-affinity interaction between cytoplasmic dynein and a viral cargo protein.Dynamics of African swine fever virus shedding and excretion in domestic pigs infected by intramuscular inoculation and contact transmissionDetection of capripoxvirus DNA using a novel loop-mediated isothermal amplification assayPhytochemical analysis and in-vitro anti-African swine fever virus activity of extracts and fractions of Ancistrocladus uncinatus, Hutch and Dalziel (Ancistrocladaceae).Development and validation of a multiplex, real-time RT PCR assay for the simultaneous detection of classical and African swine fever viruses.Protection of European domestic pigs from virulent African isolates of African swine fever virus by experimental immunisation.Prevalence of African swine fever virus in apparently healthy domestic pigs in UgandaRapid molecular detection methods for arboviruses of livestock of importance to northern Europe.Characterization of African swine fever virus Caucasus isolate in European wild boars.Assessment of African Swine Fever Diagnostic Techniques as a Response to the Epidemic Outbreaks in Eastern European Union Countries: How To Improve Surveillance and Control Programs.Development of cross-priming amplification for direct detection of the African Swine Fever Virus, in pig and wild boar blood and sera samples.MeltMan: Optimization, Evaluation, and Universal Application of a qPCR System Integrating the TaqMan qPCR and Melting Analysis into a Single Assay.Antiviral Role of IFITM Proteins in African Swine Fever Virus Infection.Development of a novel lateral flow assay for detection of African swine fever in blood.Development of an updated PCR assay for detection of African swine fever virus.Deletion of African swine fever virus interferon inhibitors from the genome of a virulent isolate reduces virulence in domestic pigs and induces a protective responseDifferent routes and doses influence protection in pigs immunised with the naturally attenuated African swine fever virus isolate OURT88/3Polymerase cross-linking spiral reaction (PCLSR) for detection of African swine fever virus (ASFV) in pigs and wild boars.Survival of African Swine Fever Virus in Excretions from Pigs Experimentally Infected with the Georgia 2007/1 Isolate.Gene expression analysis of whole blood RNA from pigs infected with low and high pathogenic African swine fever viruses.African Swine Fever Diagnosis Adapted to Tropical Conditions by the Use of Dried-blood Filter Papers.Field-Deployable Reverse Transcription-Insulated Isothermal PCR (RT-iiPCR) Assay for Rapid and Sensitive Detection of Foot-and-Mouth Disease Virus.Vaccine Potential of Two Previously Uncharacterized African Swine Fever Virus Isolates from Southern Africa and Heterologous Cross Protection of an Avirulent European Isolate.Highly sensitive PCR assay for routine diagnosis of African swine fever virus in clinical samples.Motion-based video monitoring for early detection of livestock diseases: The case of African swine fever.Virulent strain of African swine fever virus eclipses its attenuated derivative after challenge.DNA-Binding Properties of African Swine Fever Virus pA104R, a Histone-Like Protein Involved in Viral Replication and Transcription.Genetic Assessment of African Swine Fever Isolates Involved in Outbreaks in the Democratic Republic of Congo between 2005 and 2012 Reveals Co-Circulation of p72 Genotypes I, IX and XIV, Including 19 Variants.Biological characterization of African swine fever virus genotype II strains from north-eastern Estonia in European wild boar.Identification of a New Genotype of African Swine Fever Virus in Domestic Pigs from Ethiopia.Cholesterol Flux Is Required for Endosomal Progression of African Swine Fever Virions during the Initial Establishment of Infection.Experimental Transmission of African Swine Fever (ASF) Low Virulent Isolate NH/P68 by Surviving Pigs.First Detection of Antibodies Against African Swine Fever Virus in Faeces Samples.Early Detection of Infection in Pigs through an Online Monitoring System.Course and transmission characteristics of oral low-dose infection of domestic pigs and European wild boar with a Caucasian African swine fever virus isolate.Immunization of African Indigenous Pigs with Attenuated Genotype I African Swine Fever Virus OURT88/3 Induces Protection Against Challenge with Virulent Strains of Genotype I.Deletion of virulence associated genes from attenuated African swine fever virus isolate OUR T88/3 decreases its ability to protect against challenge with virulent virus.
P2860
Q28270634-55F00DA8-7113-44CE-AFE6-E30CD467D729Q32183457-26C0F5B4-C741-4ACA-B989-5753556E1EAEQ33244705-F7EACA33-5826-48C1-890D-94FB669CFFA1Q34178234-A0565109-6980-401B-B5D0-C15AE8916F50Q34304155-C423708C-6EE5-477C-9B6F-8BB42459F65DQ34698725-E779AE33-9A58-4542-B485-FC35CF0888CAQ34777446-92FFBB7C-E4E2-4DCC-8540-1E4F37891B14Q34907727-9E6DB624-81F1-4CE4-B35A-F1AEFAB64A45Q35061976-0120EAA5-FB4A-490E-A7EF-29662012EA01Q35076229-BD6DE31B-6D9D-4901-B258-002D1A343777Q35636380-E43B18F6-CE01-4134-8F26-31C06C1F1D7DQ35849092-03D23602-A413-4ED6-BC60-16B46C4B9A17Q35868626-4919898C-ADF8-4359-90AB-626BBD42E9EDQ35965865-C8677BCF-2089-4BD4-8FEB-016173AE53E7Q35975451-69A7313E-CF98-4F19-94A4-FE44D9476BB1Q35999685-1C5E8377-7319-48D5-AEBE-A5E077C5D198Q36135088-E78C3569-3556-4867-ADAB-A7F54A5EEDFAQ36156145-86E27B31-9E24-4DCB-83E3-196B6090EBFFQ37235299-58A26F01-0AFF-4130-9BDF-067FE8F55BE6Q37594124-6F2F7D74-0894-412D-AAB8-647C4E9B4312Q37642838-B02BF6DB-7F85-4B42-8957-9704DC8EA6A6Q37696432-1890A0FE-CB05-4E01-8FBD-F24B583CC827Q38599051-57580F5C-4562-4D7B-846E-03850BB37927Q39093355-13181730-0DFD-429B-86CD-40CE59E50170Q39427616-0DEC895B-A3E2-4448-A21F-53DA401FC1E2Q39481216-49DFFC70-36D1-4891-A2AA-D1802E925914Q39887316-FD4FAC9D-63B4-4E8F-BE54-ED2ECD21E789Q40040516-52EC0F2B-01FF-47B3-B292-4C038D2C055BQ40049155-677D9476-4D71-4DEC-8863-95C8C4F955EEQ40062315-64831613-815E-4DBE-AB53-382BCE6E12D0Q40068208-010DDCE6-7972-42DD-AA84-F0FC2F3FC600Q40072043-E3A09183-765E-4890-B6B8-3A7CD477C5C3Q40104731-6C69368A-9895-4494-BA21-BA1B0680C5EAQ40129332-D75DB660-6399-484E-8EBE-52620B78A7E6Q40136543-4C2D5F8B-B553-4E96-927C-29ED5C11AE7FQ40136568-20996478-34C3-4429-A5D1-57BA894E2721Q40156922-91EBAF5A-30A7-463F-AC54-00B2782B2ED4Q40158552-77E74EF9-A9BB-4372-89DF-4A4FFDCAE54CQ40169034-F61FEE34-28B8-4846-AD1F-ED7652B75513Q40245829-89B8162F-CD73-4C3B-BFC3-4E253D0AB7A6
P2860
Development of a TaqMan PCR assay with internal amplification control for the detection of African swine fever virus.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Development of a TaqMan PCR as ...... of African swine fever virus.
@en
type
label
Development of a TaqMan PCR as ...... of African swine fever virus.
@en
prefLabel
Development of a TaqMan PCR as ...... of African swine fever virus.
@en
P2093
P50
P1476
Development of a TaqMan PCR as ...... n of African swine fever virus
@en
P2093
Geoffrey H Hutchings
Philip J Wilkinson
Scott M Reid
Sylvia S Grierson
Trevor W Drew
P356
10.1016/S0166-0934(02)00189-1
P577
2003-01-01T00:00:00Z