Page 75 - Influenza Report
P. 75

Referenze   75


                           57.   Guan Y, Peiris M, Kong KF, et al. H5N1 inßuenza viruses isolated from geese in
                               Southeastern China: evidence for genetic reassortment and interspecies transmission to
                               ducks. Virology 2002b; 292: 16-23. Abstract: http://amedeo.com/lit.php?id=11878904
                           58.   Guan Y, Poon LL, Cheung CY, Ellis TM, Lim W, Lipatov AS, Chan KH, Sturm-Ramirez
                               KM, Cheung CL, Leung YH, Yuen KY, Webster RG, Peiris JS. H5N1 inßuenza: a
                               protean pandemic threat. Proc Natl Acad Sci U S A 2004; 101: 8156-61. Abstract:
                               http://amedeo.com/lit.php?id=15148370 - Full text at
                               http://www.pnas.org/cgi/content/full/101/21/8156
                           59.   Guo Y, Wang M, Kawaoka Y, Gorman O, Ito T, Saito T, Webster RG. Characterization of
                               a new avian-like inßuenza A virus from horses in China. Virology 1992; 188: 245-55.
                               Abstract: http://amedeo.com/lit.php?id=1314452
                           60.   Haque ME, Koppaka V, Axelsen PH, Lentz BR. Properties and Structures of the
                               Inßuenza and HIV Fusion Peptides on Lipid Membranes: Implications for a Role in
                               Fusion. Biophys J. 2005; 89:3183-94. Abstract: http://amedeo.com/lit.php?id=16183890
                           61.   Harvey R, Martin AC, Zambon M, Barclay WS. Restrictions to the adaptation of influenza
                               a virus h5 hemagglutinin to the human host. J Virol. 2004; 78: 502-7. Abstract:
                               http://amedeo.com/lit.php?id=14671130 - Full text at
                               http://jvi.asm.org/cgi/content/full/78/1/502
                           62.   Hatta M, Gao P, Halfmann P, Kawaoka Y. Molecular basis for high virulence of Hong
                               Kong H5N1 inßuenza A viruses. 2001; Science 293: 1840-1842. Abstract:
                               http://amedeo.com/lit.php?id=11546875
                           63.   Hayden F, Croisier A. Transmission of avian inßuenza viruses to and between humans. J
                               Infect Dis 2005;192: 1311-4.
                           64.   Heinen P (2002). Swine inßuenza: a zoonosis. Vet. Sci. Tomorrow, September 2003.
                               http://www.vetscite.org/publish/articles/000041/print.html
                           65.   Henzler DJ, Kradel DC, Davison S, et al. Epidemiology, production losses, and control
                               measures associated with an outbreak of avian inßuenza subtype H7N2 in Pennsylvania
                               (1996-98). Avian Dis 2003; 47: Suppl: 1022-36. Abstract:
                               http://amedeo.com/lit.php?id=14575105
                           66.   Herrler G, Hausmann J, Klenk HD. Sialic acid as receptor determinant of ortho- and
                               paramyxoviruses. In: Rosenberg A (ed), Biology of the Sialic Acids, Plenum Press NY,
                               1995: p. 315-336
                           67.   Hoffmann E, Stech J, Leneva I, et al. Characterization of the inßuenza A virus gene pool
                               in avian species in southern China: was H6N1 a derivative or a precursor of H5N1? J
                               Virol 2000; 74: 6309-15. Abstract: http://amedeo.com/lit.php?id=10864640 - Full text at
                               http://jvi.asm.org/cgi/content/full/74/14/6309
                           68.   Horimoto T, Nakayama K, Smeekens SP, Kawaoka Y. Proprotein-processing
                               endoproteases PC6 and furin both activate hemagglutinin of virulent avian inßuenza
                               viruses. J Virol 1994; 68: 6074-8. Abstract: http://amedeo.com/lit.php?id=8057485 - Full
                               text at http://www.pubmedcentral.gov/articlerender.fcgi?pubmedid=8057485
                           69.   Horimoto T, Kawaoka Y. Molecular changes in virulent mutants arising from avirulent
                               avian inßuenza viruses during replication in 14-day-old embryonated eggs. Virology
                               1995; 206: 755-9. Abstract: http://amedeo.com/lit.php?id=7831837
                           70.   Hulse-Post DJ, Sturm-Ramirez KM, Humberd J, et al. Role of domestic ducks in the
                               propagation and biological evolution of highly pathogenic H5N1 inßuenza viruses in Asia.
                               Proc Natl Acad Sci U S A 2005; 102: 10682-7. Abstract:
                               http://amedeo.com/lit.php?id=16030144
                           71.   Ito T, Kawaoka Y, Nomura A, Otsuki K. Receptor speciÞcity of inßuenza A viruses from
                               sea mammals correlates with lung sialyloligosaccharides in these animals. J Vet Med Sci
                               1999; 61: 955-8. Abstract: http://amedeo.com/lit.php?id=10487239
                           72.   Ito T, Okazaki K, Kawaoka Y, Takada A, Webster RG, Kida H (1995). Perpetuation of
                               inßuenza A viruses in Alaskan waterfowl reservoirs. Arch.Virol. 140, 1163-1172.
                               Abstract: http://amedeo.com/lit.php?id=7646350
                           73.   Ito T, Goto H, Yamamoto E, et al. Generation of a highly pathogenic avian inßuenza A
                               virus from an avirulent Þeld isolate by passaging in chicken. J Virol 2001; 75: 4439-43.
                               Abstract: http://amedeo.com/lit.php?id=11287597 - Full text at
                               http://jvi.asm.org/cgi/content/full/75/9/4439
   70   71   72   73   74   75   76   77   78   79   80