A computational model for telomere-dependent cell-replicative aging

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Telomere shortening provides a molecular basis for the Hayflick limit. Recent data suggest that telomere shortening also influence mitotic rate. We propose a stochastic growth model of this phenomena, assuming that cell division in each time interval is a random process which probability decreases linearly with telomere shortening. Computer simulations of the proposed stochastic telomere-regulated model provides good approximation of the qualitative growth of cultured human mesenchymal stem cells.

R. D. Portugal, M. G. P. Land, Benar Fux Svaiter

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BIOSYSTEMS 2007 | BIOSYSTEMS 2008 | Mesenchymal Stem Cells | Stochastic Growth Model | Telomere |

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Added	24 Dec 2010
Updated	24 Dec 2010
Type	Journal
Year	2008
Where	BIOSYSTEMS
Authors	R. D. Portugal, M. G. P. Land, Benar Fux Svaiter

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A computational model for telomere-dependent cell-replicative aging

BIOSYSTEMS 2007 | BIOSYSTEMS 2008 | Mesenchymal Stem Cells | Stochastic Growth Model | Telomere |

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