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Items: 1 to 20 of 54

1.

A reassortant H9N2 influenza virus containing 2009 pandemic H1N1 internal-protein genes acquired enhanced pig-to-pig transmission after serial passages in swine.

Mancera Gracia JC, Van den Hoecke S, Richt JA, Ma W, Saelens X, Van Reeth K.

Sci Rep. 2017 May 2;7(1):1323. doi: 10.1038/s41598-017-01512-x.

2.

M Gene Reassortment in H9N2 Influenza Virus Promotes Early Infection and Replication: Contribution to Rising Virus Prevalence in Chickens in China.

Pu J, Sun H, Qu Y, Wang C, Gao W, Zhu J, Sun Y, Bi Y, Huang Y, Chang KC, Cui J, Liu J.

J Virol. 2017 Mar 29;91(8). pii: e02055-16. doi: 10.1128/JVI.02055-16. Print 2017 Apr 15.

PMID:
28148803
3.

Reassortant Eurasian Avian-Like Influenza A(H1N1) Virus from a Severely Ill Child, Hunan Province, China, 2015.

Zhu W, Zhang H, Xiang X, Zhong L, Yang L, Guo J, Xie Y, Li F, Deng Z, Feng H, Huang Y, Hu S, Xu X, Zou X, Li X, Bai T, Chen Y, Li Z, Li J, Shu Y.

Emerg Infect Dis. 2016 Nov;22(11):1930-1936. doi: 10.3201/eid2211.160181.

4.

Contact transmission of influenza virus between ferrets imposes a looser bottleneck than respiratory droplet transmission allowing propagation of antiviral resistance.

Frise R, Bradley K, van Doremalen N, Galiano M, Elderfield RA, Stilwell P, Ashcroft JW, Fernandez-Alonso M, Miah S, Lackenby A, Roberts KL, Donnelly CA, Barclay WS.

Sci Rep. 2016 Jul 19;6:29793. doi: 10.1038/srep29793.

5.

Origins of the 2009 H1N1 influenza pandemic in swine in Mexico.

Mena I, Nelson MI, Quezada-Monroy F, Dutta J, Cortes-Fernández R, Lara-Puente JH, Castro-Peralta F, Cunha LF, Trovão NS, Lozano-Dubernard B, Rambaut A, van Bakel H, García-Sastre A.

Elife. 2016 Jun 28;5. pii: e16777. doi: 10.7554/eLife.16777.

6.

Pathogenicity of reassortant H9 influenza viruses with different NA genes in mice and chickens.

Yan L, Liu Q, Su X, Teng Q, Bao D, Che G, Chen H, Cui H, Ruan T, Li X, Li Z.

Vet Res. 2016 Jun 24;47(1):67. doi: 10.1186/s13567-016-0352-y.

7.

A North American H7N3 Influenza Virus Supports Reassortment with 2009 Pandemic H1N1 and Induces Disease in Mice without Prior Adaptation.

Williams GD, Pinto AK, Doll B, Boon AC.

J Virol. 2016 Apr 14;90(9):4796-806. doi: 10.1128/JVI.02761-15. Print 2016 May.

8.

Molecular requirements for a pandemic influenza virus: An acid-stable hemagglutinin protein.

Russier M, Yang G, Rehg JE, Wong SS, Mostafa HH, Fabrizio TP, Barman S, Krauss S, Webster RG, Webby RJ, Russell CJ.

Proc Natl Acad Sci U S A. 2016 Feb 9;113(6):1636-41. doi: 10.1073/pnas.1524384113. Epub 2016 Jan 25.

9.

Nonreplicating influenza A virus vaccines confer broad protection against lethal challenge.

Baz M, Boonnak K, Paskel M, Santos C, Powell T, Townsend A, Subbarao K.

MBio. 2015 Oct 20;6(5):e01487-15. doi: 10.1128/mBio.01487-15.

10.

The soft palate is an important site of adaptation for transmissible influenza viruses.

Lakdawala SS, Jayaraman A, Halpin RA, Lamirande EW, Shih AR, Stockwell TB, Lin X, Simenauer A, Hanson CT, Vogel L, Paskel M, Minai M, Moore I, Orandle M, Das SR, Wentworth DE, Sasisekharan R, Subbarao K.

Nature. 2015 Oct 1;526(7571):122-5. doi: 10.1038/nature15379. Epub 2015 Sep 23.

11.

Influenza A virus transmission via respiratory aerosols or droplets as it relates to pandemic potential.

Richard M, Fouchier RA.

FEMS Microbiol Rev. 2016 Jan;40(1):68-85. doi: 10.1093/femsre/fuv039. Epub 2015 Sep 17. Review.

12.

One health, multiple challenges: The inter-species transmission of influenza A virus.

Short KR, Richard M, Verhagen JH, van Riel D, Schrauwen EJ, van den Brand JM, Mänz B, Bodewes R, Herfst S.

One Health. 2015 Dec 1;1:1-13.

13.

Changes to the dynamic nature of hemagglutinin and the emergence of the 2009 pandemic H1N1 influenza virus.

Yoon SW, Chen N, Ducatez MF, McBride R, Barman S, Fabrizio TP, Webster RG, Haliloglu T, Paulson JC, Russell CJ, Hertz T, Ben-Tal N, Webby RJ.

Sci Rep. 2015 Aug 13;5:12828. doi: 10.1038/srep12828.

14.

Identification of Influenza A/PR/8/34 Donor Viruses Imparting High Hemagglutinin Yields to Candidate Vaccine Viruses in Eggs.

Johnson A, Chen LM, Winne E, Santana W, Metcalfe MG, Mateu-Petit G, Ridenour C, Hossain MJ, Villanueva J, Zaki SR, Williams TL, Cox NJ, Barr JR, Donis RO.

PLoS One. 2015 Jun 11;10(6):e0128982. doi: 10.1371/journal.pone.0128982. eCollection 2015.

15.

Host adaptation and transmission of influenza A viruses in mammals.

Schrauwen EJ, Fouchier RA.

Emerg Microbes Infect. 2014 Feb;3(2):e9. doi: 10.1038/emi.2014.9. Epub 2014 Feb 12. Review.

16.

Transmission of influenza A viruses.

Neumann G, Kawaoka Y.

Virology. 2015 May;479-480:234-46. doi: 10.1016/j.virol.2015.03.009. Epub 2015 Mar 24. Review.

17.

Pandemic Swine H1N1 Influenza Viruses with Almost Undetectable Neuraminidase Activity Are Not Transmitted via Aerosols in Ferrets and Are Inhibited by Human Mucus but Not Swine Mucus.

Zanin M, Marathe B, Wong SS, Yoon SW, Collin E, Oshansky C, Jones J, Hause B, Webby R.

J Virol. 2015 Jun;89(11):5935-48. doi: 10.1128/JVI.02537-14. Epub 2015 Mar 25.

18.

Improving pandemic influenza risk assessment.

Russell CA, Kasson PM, Donis RO, Riley S, Dunbar J, Rambaut A, Asher J, Burke S, Davis CT, Garten RJ, Gnanakaran S, Hay SI, Herfst S, Lewis NS, Lloyd-Smith JO, Macken CA, Maurer-Stroh S, Neuhaus E, Parrish CR, Pepin KM, Shepard SS, Smith DL, Suarez DL, Trock SC, Widdowson MA, George DB, Lipsitch M, Bloom JD.

Elife. 2014 Oct 16;3:e03883. doi: 10.7554/eLife.03883.

19.

Assessment of the internal genes of influenza A (H7N9) virus contributing to high pathogenicity in mice.

Bi Y, Xie Q, Zhang S, Li Y, Xiao H, Jin T, Zheng W, Li J, Jia X, Sun L, Liu J, Qin C, Gao GF, Liu W.

J Virol. 2015 Jan;89(1):2-13. doi: 10.1128/JVI.02390-14. Epub 2014 Oct 15.

20.

Residue 41 of the Eurasian avian-like swine influenza a virus matrix protein modulates virion filament length and efficiency of contact transmission.

Campbell PJ, Kyriakis CS, Marshall N, Suppiah S, Seladi-Schulman J, Danzy S, Lowen AC, Steel J.

J Virol. 2014 Jul;88(13):7569-77. doi: 10.1128/JVI.00119-14. Epub 2014 Apr 23.

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