Myc与G1细胞周期蛋白在细胞周期进程及速度调控中的分工。

Division of labour between Myc and G1 cyclins in cell cycle commitment and pace control.

作者信息

Dong Peng, Maddali Manoj V, Srimani Jaydeep K, Thélot François, Nevins Joseph R, Mathey-Prevot Bernard, You Lingchong

机构信息

Computational Biology and Bioinformatics Program, Duke University, Durham, North Carolina 27708, USA.

1] Department of Biomedical Engineering, Duke University, Durham, North Carolina 27708, USA [2].

出版信息

Nat Commun. 2014 Sep 1;5:4750. doi: 10.1038/ncomms5750.

DOI:10.1038/ncomms5750

PMID:25175461

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4164785/

Abstract

A body of evidence has shown that the control of E2F transcription factor activity is critical for determining cell cycle entry and cell proliferation. However, an understanding of the precise determinants of this control, including the role of other cell-cycle regulatory activities, has not been clearly defined. Here, recognizing that the contributions of individual regulatory components could be masked by heterogeneity in populations of cells, we model the potential roles of individual components together with the use of an integrated system to follow E2F dynamics at the single-cell level and in real time. These analyses reveal that crossing a threshold amplitude of E2F accumulation determines cell cycle commitment. Importantly, we find that Myc is critical in modulating the amplitude, whereas cyclin D/E activities have little effect on amplitude but do contribute to the modulation of duration of E2F activation, thereby affecting the pace of cell cycle progression.

摘要

大量证据表明，E2F转录因子活性的控制对于决定细胞周期进入和细胞增殖至关重要。然而，对于这种控制的确切决定因素，包括其他细胞周期调节活动的作用，尚未有明确的定义。在此，鉴于单个调节成分的作用可能会被细胞群体的异质性所掩盖，我们构建了单个成分潜在作用的模型，并使用一个集成系统在单细胞水平实时跟踪E2F动态变化。这些分析表明，E2F积累的阈值幅度决定了细胞周期进程。重要的是，我们发现Myc对调节幅度至关重要，而细胞周期蛋白D/E的活性对幅度影响不大，但确实有助于调节E2F激活的持续时间，从而影响细胞周期进程的速度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d307/4164785/8671db03dd34/ncomms5750-f1.jpg

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Myc与G1细胞周期蛋白在细胞周期进程及速度调控中的分工。

Division of labour between Myc and G1 cyclins in cell cycle commitment and pace control.

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