EUROPEAN PAPERS ON THE NEW WELFARE

The biology of aging

References
Balaban, R.S., Nemoto, S. and Finkel, T. (2005): “Mitochondria, oxidant and aging”, Cell, no. 25, 120(4), pp. 483-95.

Guarente, L. and Picard, F. (2005): “Caloric restriction — the SIR2 connection”, Cell, no. 25, 120(4), pp. 473-482.

Hadley, E.C., Lakatta, E.G., Morrison-Bogorad, M., Warner, H.R. and Hodes, R.J. (2005): “The future of aging therapies”, Cell, no. 25, 120(4), pp. 557-67.

Harman D. (1956): “Aging: a theory based on free radical and radiation chemistry”, J. Gerontol, no. 11, pp. 298-300.

Kenyon, C. (2005): “The plasticity of aging: insights from long-lived mutants, Cell, no. 25, 120 (4), pp. 449-60.

Kim, S., Kaminker, P. and Campisi, J. (2002): “Telomeres, aging and cancer: in search of a happy ending”, Oncogene, no. 21, pp. 5003-511.

Kirkwood, T.B.L. (1977): “Evolution of ageing”, Nature, 27, pp. 301-304.

Kirkwood, T.B.L. (2005): “Understanding the odd science of aging”, Cell, no. 25, 120(4), pp. 437-47.

Martin, G.M. (2005): “Genetic modulation of senescent phenotypes in Homo sapiens”, Cell, no. 25, 120(4), pp. 523-32.

McCay, C.M., Cromwell, M.F. and Maynard, L.A. (1935): “The effect of retarded growth upon the Length of life span and ultimate body size”, J. Nutr, no. 10, pp. 63-79.

Medawar, P.B. (1952): An unsolved problem of biology, Lewis, London.


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