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基因调控中精确性的物理层面

Physical aspects of precision in genetic regulation.

作者信息

Tamari Zvi, Barkai Naama, Fouxon Itzhak

出版信息

J Biol Phys. 2011 Mar;37(2):213-25. doi: 10.1007/s10867-010-9208-2. Epub 2010 Nov 19.

DOI:10.1007/s10867-010-9208-2
PMID:22379230
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3047200/
Abstract

The process by which transcription factors (TFs) locate specific DNA binding sites is stochastic and as such, is subject to a considerable level of noise. TFs diffuse in the three-dimensional nuclear space, but can also slide along the DNA. It was proposed that this sliding facilitates the TF molecules arriving to their binding site, by effectively reducing the dimensionality of diffusion. However, the possible implications of DNA sliding on the accuracy by which the nuclear concentration of TFs can be estimated were not examined. Here, we calculate the mean and the variance of the number of TFs that bind to their binding site in reduced and partially reduced diffusion dimensionality regimes. We find that a search process which combines three-dimensional diffusion in the nucleus with one-dimensional sliding along the DNA can reduce the noise in TF binding and in this way enables a better estimation of the TF concentration inside the nucleus.

摘要

转录因子(TFs)定位特定DNA结合位点的过程是随机的,因此会受到相当程度的噪声影响。TFs在三维核空间中扩散,但也能沿着DNA滑动。有人提出,这种滑动通过有效降低扩散维度,促进TF分子到达其结合位点。然而,DNA滑动对估计TF核浓度准确性的潜在影响尚未得到研究。在这里,我们计算了在扩散维度降低和部分降低的情况下,与结合位点结合的TF数量的均值和方差。我们发现,将核内三维扩散与沿DNA的一维滑动相结合的搜索过程,可以降低TF结合中的噪声,从而能够更好地估计核内TF浓度。

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