Cogprints
Login | Create Account

The immune system and other cognitive systems

Hershberg, Uri and Efroni, Sol (2001) The immune system and other cognitive systems. [Journal (Paginated)]

Full text available as:

[img]
Preview
PDF - Requires a PDF viewer such as GSview, Xpdf or Adobe Acrobat Reader
591Kb

Abstract

In the following pages we propose a theory on cognitive systems and the common strategies of perception, which are at the basis of their function. We demonstrate that these strategies are easily seen to be in place in known cognitive systems such as vision and language. Furthermore we show that taking these strategies into consideration implies a new outlook on immune function calling for a new appraisal of the immune system as a cognitive system.

Item Type:Journal (Paginated)
Keywords:definitions of cognition, immunity, complex systems
Subjects:Biology > Animal Cognition
Biology > Theoretical Biology
Psychology > Cognitive Psychology
Psychology > Developmental Psychology
Linguistics > Learnability
Linguistics > Syntax
Psychology > Perceptual Cognitive Psychology
Philosophy > Philosophy of Mind
Psychology > Psycholinguistics
ID Code:2276
Deposited By:Hershberg, Uri
Deposited On:16 Jun 2002
Last Modified:12 Sep 2007 17:43

References in Article

Select the SEEK icon to attempt to find the referenced article. If it does not appear to be in cogprints you will be forwarded to the paracite service. Poorly formated references will probably not work.

1. Burrnet, F.M. A modification of Jerne’s theory of antibody production using the concept of clonal selection. Aust J Sci 20, 1957, 67–69.

2. Cohen, I.R. Tending Adam’s garden. Academic Press, San Diego, CA, 2000.

3. Seminars In Immunology. Vol. 12, No. 3, (June 2000, R.E. Langman, M. Cohn, eds.).

4. A.S. Perelson, and G. Weisbuch. Immunology for physicists. Rev. Mod. Phys. 69/4, 1997, pp. 1219–1267.

5. Clyde, W.O. The human eye. Sinauer, Sunderland, MA, 1999.

6. Cutting, J.E. Perception with an eye for motion. MIT, 1986.

7. Ingram, D. Child Language Acquisition: Method, description, and explanation. Cambridge University Press, 1989.

8. Bates, E., Bretherton, I., Snyder, L., and Beeghly, M. From first words to grammar: individual differences and dissociable mechanisms. Cambridge

University Press, 1988.

9. Ninio, A. Model learning in syntactic development: Intransitive verbs. International Journal of Bilingualism, 3, 111–131. (Invited article for a special

issue on Cross-linguistic Studies of Early Grammar, edited by M.M. Vihman, 1999).

10. Ninio, A. Pathbreaking verbs in syntactic development and the question of prototypical transitivity. Journal of Child Language. 26/3, 1999, pp.

619–653.

11. Germain, R.N., Stefanova, I. The dynamics of T cell receptor signaling: complex orchestration and the key roles of tempo and cooperation. Annu Rev

Immunol 17: 1999, pp. 467–522.

12. Langman, R.E., and Cohn, M. A minimal model for the self/non-self discrimination: a return to the basics. Seminars in Immunology 12(3): 2000, pp.

189–195.

13. Mason, D. A very high level of crossreactivity is an essential feature of the T-cell receptor. Immunology Today 19(9): 1998, 395–404.

14. Janeway, C.A., Travers, P., Walport, M., and Capra, J.D. Basic concepts in immunology. Immuno-biology: the immune system in health and disease.

Chapter 1, especially Figure 1.13. (4th ed., 1999).

15. Paul, W.E. Tumor immunology: effector mechanisms in cancer immunity. Fundamental Immunology Chapter 37 (4th ed., 1998).

16. Hayakawa, K., Asano, M., Shinton, S.A., Gui, M., Allman, D., Stewart, C.L., Silver, J., Hardy, R.R. Positive selection of natural autoreactive B cells.

Science 285(5424): 1999, 113–116.

17. Sebzda et al. Selection of the T cell repertoire. Annu Rev Immunol 17, 1999, 829.

18. Barton, G.M., Rudensky, A.Y. Requirement for diverse, low-abundance peptides in positive selection of T cells. Science 283(5398): 1999, 67–70.

19. Gupta Redhay, S. Protein phylogenies and signature sequences: a reappraisal of evolutionary relationships among archaebacteria, eubacteria, and

eukaryotes. Microbiol Mol Biol Rev 62(4): 1998, 1435–1491.

20. Cohen, I.R., Young, D.B. Autoimmunity, microbial immunity and the immunological homunculus. Immunol Today 12(4): 1991, 105–110.

21. Moalem, G., Yoles, E., Leibowitz-Amit, R., Muller-Gilor, S., Mor, F., Cohen, I.R., Schwartz, M. Autoimmune T cells retard the loss of function in injured

rat optic nerves. J Neuroimmunol 106(1–2): 2000, 189–197.

22. Schwartz, M., Cohen, I.R. Autoimmunity can benefit self-maintenance. Immunol Today 21(6): 2000, 265–268.

23. Abulafia-Lapid, R., Elias, D., Raz, I., Keren-Zur, Y., Atlan, H., Cohen, I.R. T cell proliferative responses of type 1 diabetes patients and healthy

individuals to human hsp60 and its peptides. J Autoimmun 12(2): 1999, 121–129.

24. Kipnis, J., Yoles, E., Porat, Z., Cohen, A., Mor, F., Sela, M., Cohen, I.R., Schwartz, M. T cell immunity to copolymer 1 confers neuroprotection on

the damaged optic nerve: possible therapy for optic neuropathies. Proc Natl Acad Sci USA 97(13): 2000, 7446–7451.

25. Lacroix-Desmazes, S., Kaveri, S.V., Mouthon, L., Ayouba, A., Malanchere, E., Coutinho, A., Kazatchkine, M.D. Self-reactive antibodies (natural

autoantibodies) in healthy individuals. J Immunol Methods 216(1–2): 1998, 117–137.

26. Paul, W.E. Affinity maturation. Fundam Immunol Chapter 25. (4th ed., 1998).

Metadata

Repository Staff Only: item control page

Cogprints is powered by EPrints 3 which is developed by the School of Electronics and Computer Science at the University of Southampton. More information and software credits.