References
1. D
ARWIN, C.
On the Origin of Species by Means of Natural Selection or the Preservation of Favoured Races in the Struggle for Life. London: Murray, 1859.
Google Scholar
2. B
URNET, F. M.
The Clonal Selection Theory of Acquired Immunity. Nashville: Vanderbilt Univ. Press, 1987.
Google Scholar
3. J
ERNE, N. H. The somatic generation of immune recognition.
Europ. J. Immunol. 1:1-9, 1971.
Google Scholar
4. E
DELMAN, G. M.
Neural Darwinism: The Theory of Neuronal Group Selection. New York: Basic Books, 1987.
Google Scholar
5. E
DELMAN, G. M.
Topobiology: An Introduction to Molecular Embryology. New York: Basic Books, 1988.
Google Scholar
6. E
DELMAN, G. M.
The Remembered Present: A Biological Theory of Consciousness. New York: Basic Books, 1989.
Google Scholar
7. J
OHNSON M. H., and M
ORTON, J.
Biology and Cognitive Development: The Case of Face Recognition. Oxford: Basil Blackwell, 1991.
Google Scholar
8. G
IBILISCO, S.
Encyclopedia of Electronics. Tab Books, Blue Ridge Summit, Pennsylvania, 1985.
Google Scholar
9. N
ATHANSON, D. L.
Shame and Pride: Affect, Sex, and the Birth of the Self. New York: Norton, 1992.
Google Scholar
10. B
LACKMAN, M. A.; K
APPLER, J. W.; and M
ARRACK, P. T-cell specificity and repertoire.
Immunol. Rev. 101:5-19, 1988.
Google Scholar
11. S
PRENT, J.; L
O, D.; G
AO, E. K.; and R
ON, Y. T cell selection in the thymus.
Immunol. Rev. 101:173-190, 1988.
Google Scholar
12. C
HARLTON, B.; A
UCHINCLOSS, H., J
R.; and F
ATHMAN, C. G. Mechanisms of transplantation tolerance.
Ann. Rev. Immunol. 12:707-734, 1994.
Google Scholar
13. A
RNOLD, B.; S
CHONRICH, G.; and H
AMMERLING, G. J. Multiple levels of peripheral tolerance.
Immunol. Today 14:12-14, 1993.
Google Scholar
14. K
OLB, B., and W
HISHAW, I. W.
Fundamentals of Human Neuropsychology, 3rd ed. San Francisco: Freeman, 1990.
Google Scholar
15. S
TEINMAN, R. M. The dendritic cell system and its role in immunogenicity.
Ann. Rev. Immunol. 9:271-296, [1991.].
Google Scholar
16. M
OSMANN, T. R., and C
OFFMAN, R. L. TH1 and TH2 cells: Different patterns of lymphokine secretion lead to different functional properties.
Ann. Rev. Immunol. 7:145-173, 1994.
Google Scholar
17. R
OMAGNANI, S. Lymphokine production by human T cells in disease states.
Ann. Rev. Immunol. 12:227-257, 1994.
Google Scholar
18. C
OOPER, E. L., and N
ISBET-B
ROWN, E., eds.
Developmental Immunology. New York: Oxford Univ. Press, 1993.
Google Scholar
19. R
OMAGNANI, R. Induction of TH1 and TH2 responses: A key role for the "natural" immune response?
Immunol. Today 13:379-381, 1992.
Google Scholar
20. T
RINCHIERI, G.; W
YSOCKA, M.; D'A
NDREA, A.; et al. Natural killer cell stimulatory factor (NKSF) or interleukin-12 is a key regulator of immune response and inflammation.
Prog. Growth Factor Res. 4:355-368, 1992.
Google Scholar
21. S
EDER, R. A., and P
AUL, W. E. Acquisition of lymphokine-producing phenotype by CD4+ T cells.
Ann. Rev. Immunol. 12:635-673, 1994.
Google Scholar
22. J
ANEWAY, C. A., J
R., and B
OTTOMLY, K. Signals and signs for lymphocyte responses.
Cell 76:275-285, 1994.
Google Scholar
23. C
OX, F. E. G., and L
IEW, F. Y. T-cell subsets and cytokines in parasitic infections.
Immunol. Today 13:445-448, 1992.
Google Scholar
24. P
ARMIANI, G. Tumor immunity as autoimmunity: Tumor antigens include normal self proteins which stimulate anergic peripheral T cells.
Immunol. Today 14:536-538, 1993.
Google Scholar
25. M
OSMANN, T. R. Properties and functions of Interleukin-10.
Adv. Immunol. 56:1-26, 1994.
Google Scholar
26. M
ARRACK, P., and K
APPLER, J. Subversion of the immune system by pathogens.
Cell 323-332, 1994.
Google Scholar
27. H
ELBERT, M. R.; L'
AGE-S
TEHR, J.; and M
ITCHISON, N. A. Antigen presentation, loss of immunological memory and AIDS.
Immunol. Today 14:340-344, 1993.
Google Scholar
28...