统计核小体占用预测的定量模型

Yu Zhang, Xiuwen Liu, J. Dennis
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引用次数: 1

摘要

核小体是真核细胞中DNA的基本单位。由于核小体限制了被包裹的DNA对转录因子和其他DNA结合蛋白的接近,它们的位置在基因活动的调控中起着至关重要的作用。实验表明,DNA序列通过增强或降低核小体与核小体的结合亲和力来强烈影响核小体的定位,因此提供了一种内在的细胞调节机制。虽然已知一些序列特征是形成核小体或抑制核小体,但是,现有模型在基于DNA序列定量预测核小体占用(即统计核小体定位)方面的准确性有限。在本文中,我们提出了基于二核苷酸匹配特征的DNA序列核小体占用预测的新定量模型,其中参数是通过回归算法学习的。在酵母全基因组数据集上的实验结果表明,我们的模型比现有模型给出了更准确的预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantitative models for statistical nucleosome occupancy prediction
Nucleosome is the basic unit of DNA in eukaryotic cells. As nucleosomes limit the accessibility of the wrapped DNA to transcription factors and other DNA-binding proteins, their positions play an essential role in regulations of gene activities. Experiments have indicated that DNA sequence strongly influences nucleosome positioning by enhancing or reducing their binding affinity to nucleosomes, therefore providing an intrinsic cell regulatory mechanism. While some sequence features are known to be nucleosome forming or nucleosome inhibiting, however, existing models have limited accuracy in predicting quantitatively nucleosomes occupancy (i.e., statistical nucleosome positioning) based on DNA sequence. In this paper, we propose new quantitative models for DNA sequence-based nucleosome-occupancy prediction based on dinucleotide-matching features, where the parameters are learned through regression algorithms. Experimental results on a genome-wide set of yeast dataset show that our models give more accurate predictions than existing models.
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