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References
Aptekman, P. M., Lewis, M. R. &King, H. D. (1946). A method of producing in inbred albino rats a high percentage of immunity from tumors native in their strain.J. Immunol. 52, 77–85.
Bailey, G. H. &Raffel, S. (1941). Organ specificity of tissues of the dog and man as shown by passive anaphylaxis in guinea-pigs.J. Exp. Med. 73, 617–28.
Bittner, J. J. (1931). A genetic study of the transplantation of tumors arising in hybrid mice.Amer. J. Cancer,15, 2202–47.
Bittner, J. J. (1933a). Genetic studies on the transplantation of tumors. IV. Linkage in tumor 19308A.Amer. J. Cancer,17, 699–708.
Bittner, J. J. (1933b). Genetic studies on the transplantation of tumors. VII. Comparative study of tumors 1930A, B and C.Amer. J. Cancer,17, 724–34.
Bittner, J. J. (1935). A review of genetic studies on the transplantation of tumours.J. Genet. 31, 471–87.
Boorman, K. E. &Dodd, B. E. (1943). The group-specific substances,A, B, M, N andRh: their occurrence in tissues and body fluids.J. Path. Bact. 55, 329–39.
Cavelti, P. A. (1945). Autoantibodies in rheumatic fever.Proc. Soc. Exp. Biol., N. Y.,60, 379–81.
Cloudman, A. M. (1932). A comparative study of transplantability of eight mammary gland tumors arising in inbred mice.Amer. J. Cancer,16, 568–630.
Fisher, R. A. &Race, R. R. (1946).Rh gene frequencies in Britain.Nature, Lond.,157, 48–9.
Goldfeder, Anna (1945). Induced resistance in inbred homozygous rats to a lymphosarcoma autogenous to the strain.Proc. Soc. Exp. Biol., N. Y.,59, 104–9.
Gorer, P. A. (1937). The genetic and antigenic basis of tumour transplantation.J. Path. Bact. 44, 691–7.
Gorer, P. A. (1942). The role of antibodies in immunity to transplanted leukaemia in mice.J. Path. Bact. 54, 51–65.
Gross, L. (1943). Intradermal immunization of C3H mice against a sarcoma that originated in an animal of the same line.Cancer Res 3, 326–33.
Haldane, J. B. S. (1936). The amount of heterozygosis to be expected in an approximately pure line.J. Genet. 32, 375–91.
Irwin, M. R. (1945). Antigens, antibodies and genes.Biol. Rev. 21, 93–100.
Kidd, J. G. (1946a). Suppression of growth of Brown-Pearce tumor cells by a specific antibody. With a consideration of the nature of the reacting cell constituent.J. Exp. Med. 83, 227–50.
Kidd, J. G. (1946b). Distinctive constituents of tumor cells and their possible relations to the phenomena of autonomy, anaplasia, and tumor causation.Cold Spr. Harb. Symp. Quant Biol. 11, 94–112.
Kidd, J. G. &Friedewald, W. F. (1942). A natural antibody that reactsin vitro with a sedimentable constituent of normal tissue cells. II. Specificity of the phenomenon: general discussion.J. Exp. Med. 76, 557–78.
Law, L. W. (1942). Foster nursing and the growth of transplantable leukemias in mice.Cancer Res. 2, 108–15.
Little, C. C. (1941).The Biology of the Laboratory Mouse, Chap. 7. Philadelphia: The Blakiston Co.
Little, C. C. &Strong, L. C. (1924). Genetic studies on the transplantation of two adenocarcinomata.J. Exp. Zoöl. 41, 93–114.
Little, C. C. &Tyzzer, E. E. (1916). Further studies on inheritance of susceptibility to a transplantable tumor of Japanese waltzing mice.J. Med. Res. 33, 393–425.
MacDowell, E. C., Potter, J. S. &Taylor, M. J. (1939). The influence of transplantation upon immunological properties of leukemic cells.Proc. Nat. Acad. Sci., Wash.,25, 416–20.
MacDowell, E. C. &Richter, M. N. (1932). Studies on mouse leukemia. V. A. genetic analysis of susceptibility to inoculated leukemia of line I.Biol. Zbl. 52, 266–79.
MacDowell, E. C., Taylor, M. J. &Potter, J. S. (1934). Immunization of mice naturally susceptible to a transplantable leukemia.Proc. Soc. Exp. Biol., N. Y.,32, 84–6.
Metalnikoff, S. (1900). Études, sur la spermatoxine.Ann. Inst. Pasteur,14, 577–89.
Snell, G. D., Cloudman, A. M., Failor, E. &Douglass, P. (1946). Inhibition and stimulation of tumor homoiotransplants by prior injections of lyophilized, tumor tissue.J. Nat. Cancer Inst. 6, 303–16.
Spencer, R. R. (1942). Tumor immunity.J. Nat. Cancer Inst. 2, 317–32.
Strandskov, H. H. (1944). Physiological aspects of human genetics, five human blood characteristics.Phys. Rev. 24, 445–66.
Strong, L. C. (1926). Changes in the reaction potential of a transplantable tumor.J. Exp. Med. 43, 713–24.
Wiener, A. S. (1945). Theory and nomenclature of theHr blood factors.Science,102, 479–82.
Woglom, W. H. (1929). Immunity to transplantable tumours.Cancer Res. 4, 129–214.
Wright, S. (1945). Physiological aspects of genetics.Ann. Rev. Physiol. 7, 75–106.
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The experimental work for which this paper presents the theoretical background and the plan is being carried out as part of a project financed by a grant from the Committee on growth of the National Research Council.
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Snell, G.D. Methods for the study of histocompatibility genes. Journ. of Genetics 49, 87–108 (1948). https://doi.org/10.1007/BF02986826
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DOI: https://doi.org/10.1007/BF02986826