Gene Regulatory Network Inference with Covariance Dynamics

Yue Wang, Peng Zheng, Yu-Chen Cheng, Zikun Wang, Aleksandr Aravkin
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Abstract

Determining gene regulatory network (GRN) structure is a central problem in biology, with a variety of inference methods available for different types of data. For a widely prevalent and challenging use case, namely single-cell gene expression data measured after intervention at multiple time points with unknown joint distributions, there is only one known specifically developed method, which does not fully utilize the rich information contained in this data type. We develop an inference method for the GRN in this case, netWork infErence by covariaNce DYnamics, dubbed WENDY. The core idea of WENDY is to model the dynamics of the covariance matrix, and solve this dynamics as an optimization problem to determine the regulatory relationships. To evaluate its effectiveness, we compare WENDY with other inference methods using synthetic data and experimental data. Our results demonstrate that WENDY performs well across different data sets.
利用协方差动力学推断基因调控网络
确定基因调控网络(GRN)结构是生物学的一个核心问题,针对不同类型的数据有多种推断方法。对于一种广泛流行且极具挑战性的使用情况,即在多个时间点进行干预后测量的、联合分布未知的单细胞基因表达数据,目前只有一种已知的专门开发的方法,它没有充分利用这种数据类型所包含的丰富信息。在这种情况下,我们为 GRN 开发了一种推断方法,即通过协方差 DYnamics 进行网络工作推断(netWorkinfErence by covariaNce DYnamics),并将其命名为 WENDY。WENDY 的核心思想是对协方差矩阵的动态进行建模,并将此动态作为一个优化问题来解决,以确定调控关系。为了评估其有效性,我们使用合成数据和实验数据将 WENDY 与其他推断方法进行了比较。结果表明,WENDY 在不同的数据集上都表现出色。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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