Journal of Animal and Veterinary Advances
Year:
2013
Volume:
12
Issue:
15
Page No.
1289 - 1295
References
Aguado, M.T. and M. Mannik, 1987. Clearance kinetics and organ uptake of complement-solubilized immune complexes in mice. Immunology, 60: 255-260.
PubMed | Arulanandam, B.P., R.H. Raeder, J.G. Nedrud, D.J. Bucher, J. Le and D.W. Metzger, 2001. IgA immunodeficiency leads to inadequate Th cell priming and increased susceptibility to influenza virus infection. J. Immunol., 166: 226-231.
Direct Link | Bando, Y. and D.A. Higgins, 1996. Duck lymphoid organs: Their contribution to the ontogeny of IgM and IgY. Immunology, 89: 8-12.
PubMed | Chartrand, S.L., G.W. Litman, N. Lapointe, R.A. Good and D. Frommel, 1971. The evolution of the immune response. XII. The immunoglobulins of the turtle. Molecular requirements for biologic activity of 5.7S immunoglobulin. J. Immunol., 107: 1-11.
Direct Link | Corthesy, B. and F. Spertini, 1999. Secretory immunoglobulin A: From mucosal protection to vaccine development. Biol. Chem., 380: 1251-1262.
PubMed | Davies, K.A., P.T. Chapman, P.J. Norsworthy, F. Jamar and P. Athanassiou
et al., 1995. Clearance pathways of soluble immune complexes in the pig. Insights into the adaptive nature of antigen clearance in humans. J. Immunol., 155: 5760-5768.
Direct Link | Doherty, P.C., L.E. Brown, A. Kelso and P.G. Thomas, 2009. Immunity to avian influenza A viruses. Rev. Sci. Tech., 28: 175-185.
PubMed | Grey, H.M., 1963. Phylogeny of the immune response: Studies on some physical chemical and serologic characteristics of antibody produced in the turtle. J. Immunol., 91: 819-825.
Direct Link | Grey, H.M., 1967. Duck immunoglobulins. I. Structural studies on a 5.7S and 7.8S γ-globulin. J. Immunol., 98: 811-819.
PubMed | Grey, H.M., 1967. Duck immunoglobulins. II. Biologic and immunochemical studies. J. Immunol., 98: 820-826.
Direct Link | Humphrey, B.D., C.C. Calvert and K.C. Klasing, 2004. The ratio of full length IgY to truncated IgY in immune complexes affects macrophage phagocytosis and the acute phase response of mallard ducks (
Anas platyrhynchos). Dev. Comp. Immunol., 28: 665-672.
CrossRef | Direct Link | Kim, J.K., N.J. Negovetich, H.L. Forrest and R.G. Webster, 2009. Ducks: The Trojan horses of H5N1 influenza. Influenza Other Respir. Viruses, 3: 121-128.
CrossRef | Kopf, M., F. Brombacher and M.F. Bachmann, 2002. Role of IgM antibodies versus B cells in influenza virus-specific immunity. Eur. J. Immunol., 32: 2229-2236.
CrossRef | Lee, B.O., J. Rangel-Moreno, J.E. Moyron-Quiroz, L. Hartson and M. Makris
et al., 2005. CD4 T cell-independent antibody response promotes resolution of primary influenza infection and helps to prevent reinfection. J. Immunol., 175: 5827-5838.
Direct Link | Leslie, G.A. and L.W. Clem, 1972. Phylogeny of immunoglobulin structure and function. VI. 17S, 7.5S and 5.7S anti-DNP of the turtle,
Pseudamys scripta. J. Immunol., 108: 1656-1664.
Direct Link | Lundqvist, M.L., D.L. Middleton, S. Hazard and G.W. Warr, 2001. The immunoglobulin heavy chain locus of the duck: Genomic organization and expression of D, J and C region genes. J. Biol. Chem., 276: 46729-46736.
CrossRef | PubMed | Direct Link | Lykakis, J.J., 1968. Immunoglobulin production in the European pond tortoise, Emys orbicularis, immunized with serum protein antigens. Immunology, 14: 799-808.
PubMed | Magor, K.E., 2011. Immunoglobulin genetics and antibody responses to influenza in ducks. Dev. Comp. Immunol., 35: 1008-1016.
CrossRef | Magor, K.E., G.W. Warr, Y. Bando, D.L. Middleton and D.A. Higgins, 1998. Secretory immune system of the duck (
Anas platyrhynchos). Identification and expression of the genes encoding IgA and IgM heavy chains. Eur. J. Immunol., 28: 1063-1068.
CrossRef | Marchalonis, J. and G.M. Edelman, 1966. Phylogenetic origins of antibody structure. II. Immunoglobulins in the primary immune response of the bullfrog, Rana catesbiana. J. Exp. Med., 124: 901-913.
CrossRef | Direct Link | Nash, J.T., P.R. Taylor, M. Botto, P.J. Norsworthy, K.A. Davies and M.J. Walport, 2001. Immune complex processing in C1q-deficient mice. Clin. Exp. Immunol., 123: 196-202.
CrossRef | Renegar, K.B., P.A. Small Jr., L.G. Boykins and P.F. Wright, 2004. Role of IgA versus IgG in the control of influenza viral infection in the murine respiratory tract. J. Immunol., 173: 1978-1986.
Direct Link | Schaerlinger, B., M. Bascove and J.P. Frippiat, 2008. A new isotype of immunoglobulin heavy chain in the urodele amphibian
Pleurodeles waltl predominantly expressed in larvae. Mol. Immunol., 45: 776-786.
CrossRef | Direct Link | Sha, Z. and R.W. Compans, 2000. Induction of CD4
+ T-cell-independent immunoglobulin responses by inactivated influenza virus. J. Virol., 74: 4999-5005.
CrossRef | Direct Link | Stallknecht, D.E., S.M. Shane, M.T. Kearney and P.J. Zwank, 1990. Persistence of avian influenza viruses in water. Avian Dis., 34: 406-411.
PubMed | Direct Link | Sturm-Ramirez, K.M., D.J. Hulse-Post, E.A. Govorkova, J. Humberd and P. Seiler
et al., 2005. Are ducks contributing to the endemicity of highly pathogenic H5N1 influenza virus in Asia? J. Virol., 79: 11269-11279.
CrossRef | Direct Link | Warr, G.W., K.E. Magor and D.A. Higgins, 1995. IgY: Clues to the origins of modern antibodies. Immunol. Today, 16: 392-398.
CrossRef | Direct Link | Webster, R.G., W.J. Bean, O.T. Gorman, T.M. Chambers and Y. Kawaoka, 1992. Evolution and ecology of influenza A viruses. Microbiol. Rev., 56: 152-179.
PubMed | Direct Link |