随机波动可以在单分子水平上揭示基因调控网络的反馈信号。

Stochastic fluctuations can reveal the feedback signs of gene regulatory networks at the single-molecule level.

机构信息

Department of Mathematical Sciences, University of Texas at Dallas, Richardson, TX 75080, USA.

Department of Biological Sciences, Center for Systems Biology, University of Texas at Dallas, Richardson, TX 75080, USA.

出版信息

Sci Rep. 2017 Nov 22;7(1):16037. doi: 10.1038/s41598-017-15464-9.

DOI:10.1038/s41598-017-15464-9

PMID:29167445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5700158/

Abstract

Understanding the relationship between spontaneous stochastic fluctuations and the topology of the underlying gene regulatory network is of fundamental importance for the study of single-cell stochastic gene expression. Here by solving the analytical steady-state distribution of the protein copy number in a general kinetic model of stochastic gene expression with nonlinear feedback regulation, we reveal the relationship between stochastic fluctuations and feedback topology at the single-molecule level, which provides novel insights into how and to what extent a feedback loop can enhance or suppress molecular fluctuations. Based on such relationship, we also develop an effective method to extract the topological information of a gene regulatory network from single-cell gene expression data. The theory is demonstrated by numerical simulations and, more importantly, validated quantitatively by single-cell data analysis of a synthetic gene circuit integrated in human kidney cells.

摘要

理解自发随机波动与潜在基因调控网络拓扑之间的关系，对于单细胞随机基因表达的研究至关重要。本文通过求解具有非线性反馈调节的随机基因表达一般动力学模型中蛋白质拷贝数的解析稳态分布，揭示了在单分子水平上随机波动与反馈拓扑之间的关系，为反馈环如何以及在何种程度上增强或抑制分子波动提供了新的见解。基于这种关系，我们还开发了一种从单细胞基因表达数据中提取基因调控网络拓扑信息的有效方法。该理论通过数值模拟得到了验证，更重要的是，通过整合在人肾细胞中的合成基因回路的单细胞数据分析得到了定量验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/404c/5700158/237c93c0728d/41598_2017_15464_Fig1_HTML.jpg

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随机波动可以在单分子水平上揭示基因调控网络的反馈信号。

Stochastic fluctuations can reveal the feedback signs of gene regulatory networks at the single-molecule level.

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