Inference of gene regulatory networks for overcoming low performance in real-world data

Yusuke Hiki, Yuta Tokuoka, Takahiro G Yamada, Akira Funahashi
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Abstract

The identification of gene regulatory networks is important for understanding the mechanisms of various biological phenomena. Many methods have been proposed to infer networks from time-series gene expression data obtained by high-throughput next-generation sequencings. Such methods can effectively infer gene regulatory networks for in silico data, but inferring the networks accurately from in vivo data remiains a challenge because of the large noise and low time sampling rate. Here, we proposed a novel unsupervised learning method, Multi-view attention Long-short term memory for Network inference (MaLoN). It can infer gene regulatory networks with temporal changes in gene regulation using the multi-view attention Long Short-term memory model. Using in vivo benchmark datasets in Saccharomyces cerevisiae and Escherichia coli, we showed that MaLoN can infer gene regulatory networks more accurately than existing methods. The ablated models indicated that the multi-view attention mechanism suppressed false positives. The order of activation of gene regulations inferred by MaLoN was consistent with existing knowledge.
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推断基因调控网络,克服真实世界数据性能低下的问题
识别基因调控网络对于理解各种生物现象的机制非常重要。从高通量新一代测序获得的时间序列基因表达数据中推断基因调控网络的方法层出不穷。这些方法可以有效地推断硅学数据中的基因调控网络,但由于噪声大、时间采样率低,从体内数据中准确推断网络仍是一个挑战。在此,我们提出了一种新颖的无监督学习方法--网络推断多视角注意力长短期记忆法(MaLoN)。它能利用多视角注意力长短期记忆模型推断出基因调控网络中基因调控的时间变化。通过使用体内基准数据集,我们在酿酒酵母和大肠杆菌中发现,与现有方法相比,MaLoN能更准确地推断基因调控网络。消减模型表明,多视角关注机制抑制了假阳性。MaLoN推断出的基因调控激活顺序与现有知识一致。
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