一种用于端粒依赖性细胞复制性衰老的计算模型。

A computational model for telomere-dependent cell-replicative aging.

作者信息

Portugal R D, Land M G P, Svaiter B F

机构信息

Hematology Service, Federal University of Rio de Janeiro, Rio de Janeiro, Brazil.

出版信息

Biosystems. 2008 Jan;91(1):262-7. doi: 10.1016/j.biosystems.2007.10.003. Epub 2007 Nov 1.

DOI:10.1016/j.biosystems.2007.10.003

PMID:18063293

Abstract

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.

摘要

端粒缩短为海弗利克极限提供了分子基础。最近的数据表明，端粒缩短也会影响有丝分裂速率。我们提出了一种关于这种现象的随机生长模型，假定在每个时间间隔内细胞分裂是一个随机过程，其概率随着端粒缩短而线性降低。对所提出的随机端粒调控模型进行计算机模拟，能够很好地近似培养的人间充质干细胞的定性生长情况。

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一种用于端粒依赖性细胞复制性衰老的计算模型。

A computational model for telomere-dependent cell-replicative aging.

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