Department of Computer Science and Engineering, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong.
Department of Computer Science, Vrije Universiteit, Amsterdam, the Netherlands.
Nat Genet. 2017 Oct;49(10):1428-1436. doi: 10.1038/ng.3950. Epub 2017 Sep 4.
We propose a new method for determining the target genes of transcriptional enhancers in specific cells and tissues. It combines global trends across many samples and sample-specific information, and considers the joint effect of multiple enhancers. Our method outperforms existing methods when predicting the target genes of enhancers in unseen samples, as evaluated by independent experimental data. Requiring few types of input data, we are able to apply our method to reconstruct the enhancer-target networks in 935 samples of human primary cells, tissues and cell lines, which constitute by far the largest set of enhancer-target networks. The similarity of these networks from different samples closely follows their cell and tissue lineages. We discover three major co-regulation modes of enhancers and find defense-related genes often simultaneously regulated by multiple enhancers bound by different transcription factors. We also identify differentially methylated enhancers in hepatocellular carcinoma (HCC) and experimentally confirm their altered regulation of HCC-related genes.
我们提出了一种新的方法,用于确定特定细胞和组织中转录增强子的靶基因。它结合了来自多个样本的全局趋势和样本特异性信息,并考虑了多个增强子的联合效应。我们的方法在预测未见样本中增强子的靶基因时表现优于现有方法,这可以通过独立的实验数据进行评估。我们的方法需要的输入数据类型很少,因此能够应用于重建来自人类原代细胞、组织和细胞系的 935 个样本的增强子-靶标网络,这是迄今为止最大的增强子-靶标网络集合。不同样本的这些网络之间的相似性与其细胞和组织谱系密切相关。我们发现了三种主要的增强子共调控模式,并发现防御相关基因经常同时受到多个由不同转录因子结合的增强子的共同调控。我们还在肝细胞癌 (HCC) 中鉴定出差异甲基化的增强子,并通过实验证实了它们对 HCC 相关基因的调控作用发生了改变。
