Real time reverse transcription (RRT)-polymerase chain reaction (PCR) methods for detection of pandemic (H1N1) 2009 influenza virus and European swine influenza A virus infections in pigs.
about
Association between Influenza A Virus Infection and Pigs Subpopulations in Endemically Infected Breeding HerdsEarly responses of natural killer cells in pigs experimentally infected with 2009 pandemic H1N1 influenza A virusLow dose influenza virus challenge in the ferret leads to increased virus shedding and greater sensitivity to oseltamivir.European surveillance network for influenza in pigs: surveillance programs, diagnostic tools and Swine influenza virus subtypes identified in 14 European countries from 2010 to 2013.Prevalence of influenza A virus in live-captured North Atlantic gray seals: a possible wild reservoirLive Animal Markets in Minnesota: A Potential Source for Emergence of Novel Influenza A Viruses and Interspecies Transmission.Novel Human-like Influenza A Viruses Circulate in Swine in Mexico and Chile.Rapid detection and subtyping of European swine influenza viruses in porcine clinical samples by haemagglutinin- and neuraminidase-specific tetra- and triplex real-time RT-PCRs.Distinct immune responses and virus shedding in pigs following aerosol, intra-nasal and contact infection with pandemic swine influenza A virus, A(H1N1)09Origin, distribution, and potential risk factors associated with influenza A virus in swine in two production systems in Guatemala.Reassortant Pandemic (H1N1) 2009 virus in pigs, United KingdomInfluenza research database: an integrated bioinformatics resource for influenza research and surveillance.Infection dynamics of pandemic 2009 H1N1 influenza virus in a two-site swine herd.Expression Dynamics of Innate Immunity in Influenza Virus-Infected Swine.Immune and inflammatory response in pigs during acute influenza caused by H1N1 swine influenza virus.Analysis of the acute-phase protein response in pigs to clinical and subclinical infection with H3N2 swine influenza virusC-reactive protein, haptoglobin, serum amyloid A and pig major acute phase protein response in pigs simultaneously infected with H1N1 swine influenza virus and Pasteurella multocida.Indirect Transmission of Influenza A Virus between Pig Populations under Two Different Biosecurity SettingsAirborne detection and quantification of swine influenza a virus in air samples collected inside, outside and downwind from swine barnsConcentration, Size Distribution, and Infectivity of Airborne Particles Carrying Swine VirusesCharacterization of Viral Load, Viability and Persistence of Influenza A Virus in Air and on Surfaces of Swine Production Facilities.The impact of maternally derived immunity on influenza A virus transmission in neonatal pig populationsSubclinical influenza virus A infections in pigs exhibited at agricultural fairs, Ohio, USA, 2009-2011.Relationship between airborne detection of influenza A virus and the number of infected pigs.Molecular evidence for interspecies transmission of H3N2pM/H3N2v influenza A viruses at an Ohio agricultural fair, July 2012Genome plasticity of triple-reassortant H1N1 influenza A virus during infection of vaccinated pigs.Evaluation of an electrostatic particle ionization technology for decreasing airborne pathogens in pigs.Complete Genome Sequencing of Influenza A Viruses within Swine Farrow-to-Wean Farms Reveals the Emergence, Persistence, and Subsidence of Diverse Viral Genotypes.Profile of the porcine acute-phase proteins response following experimental co-infection with H3N2 swine influenza virus and Pasteurella multocida.Assessment of air sampling methods and size distribution of virus-laden aerosols in outbreaks in swine and poultry farms.Multiple Genome Constellations of Similar and Distinct Influenza A Viruses Co-Circulate in Pigs During Epidemic Events.Influenza D in Italy: towards a better understanding of an emerging viral infection in swine.Epidemiological survey of swine influenza A virus in the wild boar population of two Italian provinces.Comparative effectiveness of isolation techniques for contemporary Influenza A virus strains circulating in exhibition swine.Immune and acute phase response in pigs experimentally infected with H1N2 swine influenza virus.Scientific opinion on the possible risks posed by the influenza A (H3N2v) virus for animal health and its potential spread and implications for animal and human healthInduction of influenza-specific local CD8 T-cells in the respiratory tract after aerosol delivery of vaccine antigen or virus in the Babraham inbred pig.Detection of influenza A virus in aerosols of vaccinated and non-vaccinated pigs in a warm environment.Therapeutic Administration of Broadly Neutralizing FI6 Antibody Reveals Lack of Interaction Between Human IgG1 and Pig Fc Receptors.
P2860
Q27304825-3C6D82E4-3696-41EF-A530-E4EFB01BF9FBQ27322383-1FE490A9-CD3F-46E0-A2C5-287410CE4474Q30361125-8B08B974-B9AC-425A-876A-F1DD7F030E9FQ30370161-3961B181-C223-4DF9-AF8C-41CA32FFFEF5Q30372902-F8BE1051-A82E-48EF-9A24-24E2C48A17E9Q30377323-A24CF010-CF62-4BD4-8B0F-E18BED87FF24Q30378867-614B2C44-A301-40EA-9886-4805D8B28BC4Q30390348-2BBE71E9-5DE7-47E6-83C7-9424BFE57F77Q30394336-BA237CEC-456E-46EB-A8F9-5D52A2F3D3F5Q30395347-71CA5DA9-1826-4DCF-B899-5957E9E46909Q30404715-F9B6DF42-FFC9-4EEA-BF66-C3A6606F36CEQ30411991-ED1A50F4-EFF1-4B6B-BB67-BA246892CF28Q30425569-467545F7-5750-467F-807D-BB45F1FFC322Q33589283-752C9081-3DDC-4B90-A7CB-54BF0422C2DDQ34235413-10146B92-4570-4F82-AD76-94243DE73979Q34292694-394B3E4F-0018-40D8-8F30-2987D354A06CQ34554549-D4AE56AA-D098-4BD9-ADDE-00CB8127024FQ34785670-70965677-8B58-40A3-8150-28DF03339473Q34949568-651AF720-90DB-45D6-A546-4735371BE35BQ35750060-BAB6F1DE-7233-4F01-ACF2-2187706824CCQ35891726-00E0DFDE-CF56-4B07-8877-8EE86E97F54DQ36501567-671491F2-0900-4B88-8ABD-571CE9F0CA6CQ36570516-133CE1C7-63AA-4157-9154-EABFDEEA5E4CQ36640087-0F3CDD79-7308-4A14-A2DF-69744DE3434CQ36779818-D9BFB331-EF1F-49D1-A406-540BF6543CA6Q36871866-35683CD2-82B0-4EE2-BC44-96B6A7A7F522Q37201616-A73A6241-C61E-472A-AB66-4A11220E74B2Q40141927-F9BDF489-592E-4B62-BF3B-EBD993956BD3Q40147886-56D7EACB-984E-462B-8EC4-2E40584BD01AQ40265052-5F676B35-35E2-4B0E-B391-2233BEB357E0Q41717509-B68A2ACA-2AD5-4EAA-88E1-12B28327350DQ41718537-53A1E4A8-6BF8-4732-AEAE-A8FE1D51B736Q42253271-AD924ABC-70D7-4872-AEAA-27807D9EBE2CQ45125249-6CC4B86C-2946-4408-9BC3-A15560EC9BCCQ45355247-4D0CB21D-33A9-48A9-AC59-A2ED27180490Q47153755-9E4B4080-6C59-4D05-94ED-8CD01C26A25EQ54109159-7B154011-D966-4893-A2BA-1390CF988DC1Q54204353-2D1C1262-7C75-45FD-86E4-943417DD0FC3Q54217589-6E2132F8-6F03-462A-85FB-1252E6362947
P2860
Real time reverse transcription (RRT)-polymerase chain reaction (PCR) methods for detection of pandemic (H1N1) 2009 influenza virus and European swine influenza A virus infections in pigs.
description
2010 nî lūn-bûn
@nan
2010 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Real time reverse transcriptio ...... za A virus infections in pigs.
@ast
Real time reverse transcriptio ...... za A virus infections in pigs.
@en
type
label
Real time reverse transcriptio ...... za A virus infections in pigs.
@ast
Real time reverse transcriptio ...... za A virus infections in pigs.
@en
prefLabel
Real time reverse transcriptio ...... za A virus infections in pigs.
@ast
Real time reverse transcriptio ...... za A virus infections in pigs.
@en
P2093
P2860
P1476
Real time reverse transcriptio ...... nza A virus infections in pigs
@en
P2093
Amanda Hanna
Anstice L E Densham
David L Suarez
Erica Spackman
Ian H Brown
Jonathan Ridgeon
Marek J Slomka
Rebecca Gardner
Richard M Irvine
Steve Essen
P2860
P304
P356
10.1111/J.1750-2659.2010.00149.X
P577
2010-09-01T00:00:00Z