Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-26T04:12:49.176Z Has data issue: false hasContentIssue false

Immunogenetics as an Aid to Selection for Disease Resistance in the Fowl*

Published online by Cambridge University Press:  18 September 2007

A. W. Nordskog
Affiliation:
Department of Animal Science, Iowa State University, Ames, Iowa 50011
Get access

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Research Article
Copyright
Copyright © Cambridge University Press 1983

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

Journal Paper No. J-10748 of the lowa Agriculture and Home Economics Experiment Station, Ames. Projects 2237 and 2351. Supported in part by USPHS NIH Grant AI 12746.

References

Benacerraf, B., and Germain, R. N., (1978). The immune response genes of the major histocompatibility complex. Immunology Review 38: 71.Google Scholar
Benacerraf, B., and Katz, D. H., (1975). The immune response genes of the major histocompatibility complex. Advances in Cancer Research 21: 121.CrossRefGoogle Scholar
Birkmeyer, R. C., and Nordskog, A. W., (1982). Control of Rous sarcoma virus regression by the chicken major histocompatibility complex. Proc. XVIII Intern. Conf. on Anim. Blood Groups and Bioch. Polymorphisms.Univ. Ottawa,Canada,July 18-24 (Abst).Google Scholar
Bloom, S. E., and Cole, R. K., (1978). Chromosomal localization of the major histocompatibility (B) locus in the chicken. Poultry Science 57: 1119 (Abst).Google Scholar
Briles, W. E., Stone, H. A., and Cole, R. K., (1977). Marek's disease effects of B histocompatibility alloalleles in resistant and susceptible chicken lines. Science 195: 193.Google Scholar
Briles, W. E., Bumstead, N., Ewert, D. L., Gilmour, D. G., Gogusev, J., Hala, K., Kock, C., Longenecker, B. M., Nordskog, A. W., Pink, J. R. L., Schierman, L. W., Simonsen, M., Toivanen, A., Toivanen, P., Vainio, O., and Wick, G., (1982). Nomenclature for chicken major histocompatibility (B) complex. Immunogenetics 15: 441.CrossRefGoogle ScholarPubMed
Calnek, B. W., Fabricant, J., Schat, K. A., and Murthy, K. K., (1978). Rejection of a transplantable Marek's disease lymphoma in normal versus immunologically deficient chickens. Journal National Cancer Institute 60: 623.CrossRefGoogle ScholarPubMed
Cole, R. K., (1968). Studies on genetic resistance to Marek's disease Avian Diseases 12: 9.CrossRefGoogle ScholarPubMed
Collins, W. M., Briles, W. E. Zsigray, R. M. Dunlop, W. R. Corbett, A. C. Clark, K. K. Marks, J. L. and McGrail, T. P. (1977). The B locus (MHC) in the chicken: association with the fate of RSV-induced tumours. Immunogenetics 5: 333.CrossRefGoogle Scholar
Collins, W. M., Heinzelman, E. W. Corbett, A. C. Szigray, R. M. and Dunlap, W. R. (1980). Rous sarcoma regression in seven highly inbred lines of White Leghorns. Poultry Science 59: 1172.CrossRefGoogle ScholarPubMed
Gavora, J. S., and Spencer, J. L. (1979). Studies on genetic resistance of chickens to Marek's disease—a review. Comparative Immunology and Microbiology of Infectious Diseases 2: 359.CrossRefGoogle ScholarPubMed
Gebriel, G. M., Pevzner, I. Y. and Nordskog, A. W. (1979). Genetic linkage between immune response to GAT and the fate of RSV-induced tumours in chickens. Immunogenetics 9: 327.CrossRefGoogle Scholar
Gebriel, G. M., and Nordskog, A. W. (1983). B complex versus non-B genetic background on cellular resistance and on Rous sarcoma virus-induced tumour regression in chickens. Avian Pathology (In press).Google Scholar
Hála, K., (1977a). The major histocompatibility system of the chicken. In: Gotze, (ed). The major histocompatibility system in man and animals, chapter 8. Springer-Verlag, N.Y.Google Scholar
Hála, K., (1977b). The structure of the major histocompatibility (B) complex of the chicken. Folia Biol. (Praha) 23: 400.Google ScholarPubMed
Hanson, M. P., van Zandy, J. N. and Law, G. R. J. (1967). Differences in susceptibility to Marek's disease in chickens carrying two different B locus blood group alleles. Poultry Science 46: 1268.Google Scholar
Hutt, F. G., (1958). Genetic resistance to disease in domestic animals. Cornstock Publ. Cornell University Press, Ithaca, N.Y. p. 198.Google Scholar
Longenecker, B. M., Pazderka, F. Gavora, J. S. Spencer, J. L. and Ruth, R. F. (1976). Lymphoma induced by herpesvirus: resistance associated with a major histocompatibility gene. Immunogenetics 3: 401.CrossRefGoogle Scholar
Longenecker, B. M., Pazderka, F. Gavora, J. S. Spencer, J. L. Stephens, E. A. Witter, R. L. and Ruth, R. F. (1977). Role of the major histocompatibility locus in resistance to Marek's disease: restriction of the growth of JMV-MD tumour cells in genetically resistant birds. Advances in Experimental Medicine and Biology 88: 287.Google Scholar
Longenecker, B. M., and Mosmann, T. R. (1981a). Structure and properties of the major histocompatibility complex of the chicken. Speculations on the advantages and evolution of polymorphism. Immunogenetics 13: 1CrossRefGoogle ScholarPubMed
Longenecker, B. M., and Mosmann, T. R. (1981b). Nomenclature for chicken MHC (B) antigens defined by monoclonal antibodies. Immunogenetics 13: 25.Google Scholar
Milstein, C., (1980). Monoclonal antibodies, Scientific American 243: 66.Google Scholar
McBride, R. A., Cutting, J. A. Schierman, L. W. Strebel, F. S. and Watanabe, D. H. (1980). Genetically controlled regression of avian sarcoma virus-induced tumours in inbred chickens is determined by the virus strain. Federation Proceedings 39: 1154.Google Scholar
Nordskog, A. W., Rishell, W. A. and Briggs, D. M. (1973). Influence of B locus blood groups on adult mortality and egg production in the White Leghorn chicken. Genetics 75: 181.CrossRefGoogle ScholarPubMed
Nordskog, A. W., Pevzner, I. Y. Trowbridge, C. L. and Benedict, A. A. (1977). Immune response and adult mortality associated with the B locus in chickens. Advances Experimental Medicine and Biology 88: 245.Google Scholar
Nordskog, A. W., and Gebriel, G. M. (1983). Genetic aspects of Rous sarcoma-induced tumour expression in chickens. Poultry Science 62: 725.CrossRefGoogle ScholarPubMed
Oltjen, R. C., (1982). Genes instead of vaccines. Animal Nutrition and Health, May, 1982. p. 4.Google Scholar
Pink, J. R. L., Droege, W. Hala, K. Miggiano, V. C. Ziegler, A. (1977). A three-locus model for the chicken major histocompatibility complex. Immunogenetics 5: 203.Google Scholar
Palmer, D. K., and Nordskog, A. W. (1982). Mapping the Ir-GAT gene within the major histocompatibility complex (MHC) of the chicken. Proceedings XVIII International Conference, Animal Blood Groups,University of Ottawa,Canada,July 18th-21st (Abstract).Google Scholar
Pazderka, F., Longenecker, B. M. Law, G. R. J. and Ruth, R. F. (1975a). The major histocompatibility complex of the chicken. Immunogenetics 2: 101.Google Scholar
Pevzner, I. Y., Nordskog, A. W. and Kaeberle, M. L. (1975). Immune response and the B blood group locus in chickens. Genetics 80: 753.CrossRefGoogle Scholar
Pevzner, I. Y., Trowbridge, C. L. and Nordskog, A. W. (1978). Recombination between genes coding for immune response and the serologically determined antigens in the chicken B system. Immunogenetics 7: 25.CrossRefGoogle Scholar
Pevzner, I. Y., Stone, H. A. and Nordskog, A. W. (1981a). Immune response and disease resistance in chickens. I. Selection for high and low titer to salmonella pullorum antigen. Poultry Science 60: 820.Google Scholar
Pevzner, I. Y., Kujdych, I. and Nordskog, A. W. (1981b). Immune response and disease resistance in chicken. II. Marek's disease and immune response to GAT. Poultry Science 60: 927.Google Scholar
Rees, M. J., and Nordskog, A. W. (1981). Genetic control of serum immunoglobulin G levels in the chicken. Journal of Immunogenetics 8(6): 425.CrossRefGoogle ScholarPubMed
Schierman, L. W., Watanabe, D. H. and McBride, R. A. (1977). Genetic control of Rous sarcoma regression in chickens: Linkage with the major histocompatibility complex. Immunogenetics 5: 325.CrossRefGoogle Scholar
Simonsen, M., Hála, K. and Nicolaisen, M. (1980). Linkage disequilibrium of MHC genes in the chicken. I. The B-F and B-G loci. Immunogenetics 10: 103.CrossRefGoogle ScholarPubMed
Somes, R. G., (1978). Registry of poultry genetic stocks. A directory of specialized lines and strains, mutations, breeds and varieties of chickens, Japanese quail and turkeys in North America, England, France, Spain, and the Netherlands. Conn. Storrs Agri. Exp. St. Bulletin 446.Google Scholar
Smith, C., (1967). Improvement of metric traits through specific genetic loci. Animal Production 9: 349.Google Scholar
Thomson, G., and Bodmer, W. (1977). The genetic analysis of HLA and disease associations. In: The HLA and Disease. Dausset and Syejgaard, eds, Muksgaard, Copenhagen, p. 84.Google Scholar
Wing, T. L., Singh, H. and Nordskog, A. W. (1983). Use of individual feed records in a selection programme for egg production efficiency. III. Relative effectiveness of two-stage selection. Poultry Science 62: 721.CrossRefGoogle Scholar