量化克隆适应性在受到扰动时的异质性和动态变化。
Quantifying heterogeneity and dynamics of clonal fitness in response to perturbation.
作者信息
Frick Peter L, Paudel Bishal B, Tyson Darren R, Quaranta Vito
机构信息
Department of Cancer Biology, Vanderbilt University School of Medicine, Nashville, Tennessee.
出版信息
J Cell Physiol. 2015 Jul;230(7):1403-12. doi: 10.1002/jcp.24888.
Abstract
The dynamics of heterogeneous clonal lineages within a cell population, in aggregate, shape both normal and pathological biological processes. Studies of clonality typically relate the fitness of clones to their relative abundance, thus requiring long-term experiments and limiting conclusions about the heterogeneity of clonal fitness in response to perturbation. We present, for the first time, a method that enables a dynamic, global picture of clonal fitness within a mammalian cell population. This novel assay allows facile comparison of the structure of clonal fitness in a cell population across many perturbations. By utilizing high-throughput imaging, our methodology provides ample statistical power to define clonal fitness dynamically and to visualize the structure of perturbation-induced clonal fitness within a cell population. We envision that this technique will be a powerful tool to investigate heterogeneity in biological processes involving cell proliferation, including development and drug response.
摘要
细胞群体中异质克隆谱系的动态变化总体上塑造了正常和病理生物学过程。克隆性研究通常将克隆的适应性与其相对丰度联系起来,因此需要长期实验,并且限制了关于克隆适应性对扰动响应的异质性的结论。我们首次提出了一种方法,能够动态、全面地描绘哺乳动物细胞群体内克隆适应性的情况。这种新颖的检测方法允许轻松比较细胞群体中克隆适应性结构在多种扰动下的情况。通过利用高通量成像,我们的方法提供了足够的统计能力来动态定义克隆适应性,并可视化细胞群体内扰动诱导的克隆适应性结构。我们设想,这项技术将成为研究涉及细胞增殖的生物学过程中的异质性的有力工具,包括发育和药物反应。
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