Probabilistic polynomial dynamical systems for reverse engineering of gene regulatory networks.

Elena S Dimitrova, Indranil Mitra, Abdul Salam Jarrah
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Abstract

Elucidating the structure and/or dynamics of gene regulatory networks from experimental data is a major goal of systems biology. Stochastic models have the potential to absorb noise, account for un-certainty, and help avoid data overfitting. Within the frame work of probabilistic polynomial dynamical systems, we present an algorithm for the reverse engineering of any gene regulatory network as a discrete, probabilistic polynomial dynamical system. The resulting stochastic model is assembled from all minimal models in the model space and the probability assignment is based on partitioning the model space according to the likeliness with which a minimal model explains the observed data. We used this method to identify stochastic models for two published synthetic network models. In both cases, the generated model retains the key features of the original model and compares favorably to the resulting models from other algorithms.

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用于基因调控网络逆向工程的概率多项式动力学系统。
从实验数据中阐明基因调控网络的结构和/或动态是系统生物学的一个主要目标。随机模型具有吸收噪声、考虑不确定性和避免数据过度拟合的潜力。在概率多项式动力学系统的框架内,我们提出了一种将任何基因调控网络逆向工程为离散概率多项式动力学系统的算法。由此产生的随机模型由模型空间中的所有最小模型组合而成,而概率分配则是根据最小模型解释观测数据的可能性来划分模型空间。我们用这种方法为两个已发表的合成网络模型确定了随机模型。在这两种情况下,生成的模型都保留了原始模型的主要特征,而且与其他算法生成的模型相比也更胜一筹。
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