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Abstract
1. The immune system of the chicken is an invaluable model for studying basic immunology and has made seminal contributions to fundamental immunological principles. Graft versus host responses and the key role of lymphocytes in adaptive immunity were first described in work with chicken embryos and chickens. 2. Most notably, the bursa of Fabricius provided the first substantive evidence that there are two major lineages of lymphocytes. Bursal-derived lymphocytes, or B cells, make antibodies while thymus-derived, or T cells, are involved in cell-mediated immune responses. 3. Gene conversion, the mechanism used by the chicken to produce its antibody repertoire, was first described in the chicken and requires the unique environment of the bursa. Subsequently it has been shown that some mammals also use gene conversion. 4. The chicken's Major Histocompatibility Complex (MHC), the first non-mammalian MHC to be sequenced, is minimal, compact and some 20-fold smaller than that of mammals. Uniquely, the chicken MHC is strongly associated with resistance to infectious diseases. 5. The first attenuated vaccine was developed by Louis Pasteur against a chicken pathogen, fowl cholera, and the first vaccine against a natural occurring cancer agent, Marek's disease virus, was developed for the chicken. 6. Vaccination of chick embryos on the 18th d of incubation, another breakthrough using chickens, provides protection early after hatching. In ovo vaccination now is widely practised by the poultry industry. 7. Evidence that widespread and intensive vaccination can lead to increased virulence with some pathogens, such as Marek's disease virus and infectious bursal disease virus, was first described with chicken populations. It warns of the need to develop more sustainable vaccination strategies in future and provides useful lessons for other species, including in the human population. 8. Recombinant DNA technologies now provide the opportunity for the rational design of new vaccines. Such vaccines could contain the protective immunogenic elements from several pathogens and immunomodulatory molecules to direct and enhance immune responses so providing improved protection. The important thing will be to design vaccines that are sustainable and do not drive pathogens to ever-increasing virulence.