Gompertz law and aging as exclusion effects

Ackers GK (1967) A new calibration procedure for gel filtration columns. J Biol Chem 242:3237–3238 Brock MA, Chrest F (1993) Differential regulation of actin polymerization following activation of resting T-lymphocytes from young and aged mice. J Cell Physiol 157:367–378 Brody S (1923) The kinetics of senescence. J Gen Physiol 6:245–257 Carnes BA, Holden LR, Olshansky SJ, Witten TM, Siegel JS (2006) Mortality partitions and their relevance to research on senescence. Biogerontology 7:183–198 Carnes BA, Olshansky SJ (2001) Heterogeneity and its biodemographic implications for longevity and mortality. Exp Gerontol 36:419–430 Charras GT, Yarrow JC, Horton MA, Mahadevan L, Mitchison TJ (2005) Non-equilibrium of hydrostatic pressure in blebbing cells. Nature 435:365–369 Conti B, Sanchez-Alavez M, Winsky-Sommerer R, Morale MC, Lucero J, Brownell S, Fabre V, Huitron-Resendiz S, Henriksen S, Zorilla EP, deLecea L, Bartfai T (2006) Transgenic mice with a reduced core body temperature have an increased life span. Science 314:825–828 Drenos F, Westendorp RGJ, Kirkwood TBL (2006) Trade-off mediated effects on the genetics of human survival caused by increasingly benign living conditions. Biogerontology 7:287–295 Driver C (2001) The Gompertz function does not measure ageing. Biogerontology 2:61–65 Failla G (1958) The aging process and cancerogenesis. Ann NY Acad Sci 721:1124–1140 Finch CE, Pike MC (1996) Maximum life span prediction from the Gompertz mortality model. J Gerontol 51A:B183–B194 Gavrilov LA, Gavrilova NS (1991) The biology of life span: a quantitative approach. Harwood Academic, New York Gompertz B (1825) On the nature of the function expressive of the law of human mortality, and on a new mode of determining the value of life contingencies. Philosophical Transactions of the Royal Society (London) Series A 115:513–585 Greenwood M (1928) “Laws” of mortality from the biological point of view. J Hyg 28:267–294 Hallén A (2002) Accumulation of insoluble protein and aging. Biogerontology 3:307–315 Jones HB (1956) A special consideration of the aging process, disease and life expectancy. Adv Biol Med Phys 4:281–337 Laurent TC (1963) The interaction between polysaccharides and other macromolecules 5. The solubility of proteins in the presence of dextran. Biochem J 89:253–257 Laurent TC (1964) The interaction between polysaccharides and other macromolecules 9. The exclusion of molecules from hyaluronic acid gels and solutions. Biochem J 93:106–112 Laurent TC, Killander J (1964) A theory of gel filtration and its experimental verification. J Chromatogr 14:317–330 van Leeuwen IMM, Kelpin FDL, Kooijman SALM (2002) A mathematical model that accounts for the effects of caloric restriction on body weight and longevity. Biogerontology 3:373–381 Liu RK, Walford RL (1975) Mid-life temperature-transfer effects on life-span of annual fish. J Gerontol 30:129–131 Loeb J, Northrop JH (1916) Is there a temperature coefficient for the duration of life? Proc Natl Acad Sci USA 2:456–457 Makeham WM (1860) On the law of mortality and the construction of annuity tables. J Inst Actuaries 8:301–310 Makeham WM (1867) On the law of mortality. J Inst Actuaries 13:325–358 Mildvan AS, Strehler BL (1960) A critique of theories of mortality. In: Strehler BL (ed) The biology of aging, vol 6. Am Inst Biol Sci, Washington, DC, pp 216–235 Ogston AG (1958) The spaces in a uniform random suspension of fibres. Trans Faraday Soc 54:1754–1757 Olshansky SJ, Carnes BA (1997) Ever since Gompertz. Demography 34:1–15 Rao KMK, Currie MS, Padmanabhan J, Cohen HJ (1992) Age-related alterations in actin cytosceleton and receptor expression in human leukocytes. J Gerontol 47:B37–B44 Ris H (1985) The cytoplasmic filament system in critical point-dried whole mounts and plastic-embedded sections. J Cell Biol 100:1474–1487 Rose MR, Rauser CL, Mueller LD, Benford G (2006) A revolution for aging research. Biogerontology 7:269–277 Sacher GA, Trucco E (1962) The Stochastic theory of mortality. Ann NY Acad Sci 96:985–1007 Shock NW (1957) Age changes in some physiologic processes. Geriatrics 12:40–48 Strehler BL (1961) Studies on the comparative physiology of aging II. On the mechanism of temperature life-shortening in Drosophila melanogaster. J Gerontol 16:2–12 Strehler BL (1977) Time, cells, and aging, 2nd edn. Academic Press, New York Strehler BL, Mildvan AS (1960) General theory of mortality and aging. Science 132:14–21 Stroikin Y, Dalen H, Brunk UT, Terman A (2005) Testing the “garbage” accumulation theory of ageing: mitotic activity protects cells from death induced by inhibition of autophagy. Biogerontology 6:39–47 Wang E (1985) Are cross-bridging structures involved in the bundle formation of intermediate filaments and the decrease in locomotion that accompany cell aging? J Cell Biol 100:1466–1473 Wang E, Gundersen D (1984) Increased organization of cytosceleton accompanying the aging of human fibroblasts in vitro. Exp Cell Res 154:191–202 Yashin AI, Begun AS, Boiko SI, Ukraintseva SV, Oeppen J (2001) The new trends in survival improvements require a revision of traditional gerontological concepts. Exp Gerontol 37:157–167 Yashin AI, Begun AS, Boiko SI, Ukraintseva SV, Oeppen J (2002a) New age patterns of survival improvement in Sweden: do they characterize changes in individual aging? Mech Ageing Develop 123:637–647 Yashin AI, Ukraintseva SV, Boiko SI, Arbeev KG (2002b) Individual aging and mortality rate: how are they related? Soc Biol 49:206–217 Yoshida S, Handa Y, Suzuki T, Ogawa M, Suzuki M, Tamai A, Abe A, Katayama E, Sasakawa C (2006) Microtubule-severing activity of Shigella is pivotal for intercellular spreading. Science 314:985–989