增强子/基因关系:需要更可靠的全基因组参考集。

IF 2.8 Q2 MATHEMATICAL & COMPUTATIONAL BIOLOGY Frontiers in bioinformatics Pub Date : 2023-02-24 eCollection Date: 2023-01-01 DOI:10.3389/fbinf.2023.1092853
Tristan Hoellinger, Camille Mestre, Hugues Aschard, Wilfried Le Goff, Sylvain Foissac, Thomas Faraut, Sarah Djebali
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摘要

细胞功能的差异源于包括增强子在内的调控元件的不同活性。增强子是顺式调控元件,通过转录因子与启动子合作,在细胞核的三维空间中通过物理方式靠近启动子,激活一个或多个基因的表达。越来越多的证据表明,与常见疾病相关的基因变异富集在与这些疾病相关的细胞类型中活跃的增强子中。识别与基因相关的增强子,以及反过来说,在不同细胞类型中由每个增强子激活的基因集(即所谓的增强子/基因或 E/G 关系),有助于理解人类疾病的遗传机制。在全基因组范围内鉴定细胞类型中的 E/G 关系有三种广泛的方法:1)基因链接方法或 eQTL;2)基于一维功能数据(如开放染色质、组蛋白标记或基因表达)的功能链接方法;3)基于三维数据(如 HiC)的空间链接方法。由于 1) 和 3) 的成本较高,目前的策略是开发功能链接方法,并将 1) 和 3) 的数据作为评估这些方法的参考。然而,迄今为止,对于最佳的功能链接方法仍未达成共识,而且方法比较仍然很少。在这里,我们使用该领域的三个最新基准:一个结合了三维数据和 eQTL 数据的基准(称为 BENGI),以及两个遗传筛选基准(称为 CRiFF 和 CRiSPRi),比较了 TargetFinder、Average-Rank 和 ABC 模型这三种最新的增强子-基因链接识别方法的相对性能。总的来说,这三种方法在三个参考文献中的表现都不是最好的。CRiFF 和 CRISPRi 参考集可能更可靠,但 CRiFF 不是全基因组的,而 CRiFF 和 CRISPRi 大部分是 K562 癌细胞系的数据。BENGI 参考集是全基因组的,但可能包含许多假阳性。因此,这项研究需要新的可靠的全基因组 E/G 参考数据,而不是新的功能联系 E/G 鉴定方法。
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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Enhancer/gene relationships: Need for more reliable genome-wide reference sets.

Differences in cells' functions arise from differential activity of regulatory elements, including enhancers. Enhancers are cis-regulatory elements that cooperate with promoters through transcription factors to activate the expression of one or several genes by getting physically close to them in the 3D space of the nucleus. There is increasing evidence that genetic variants associated with common diseases are enriched in enhancers active in cell types relevant to these diseases. Identifying the enhancers associated with genes and conversely, the sets of genes activated by each enhancer (the so-called enhancer/gene or E/G relationships) across cell types, can help understanding the genetic mechanisms underlying human diseases. There are three broad approaches for the genome-wide identification of E/G relationships in a cell type: 1) genetic link methods or eQTL, 2) functional link methods based on 1D functional data such as open chromatin, histone mark or gene expression and 3) spatial link methods based on 3D data such as HiC. Since 1) and 3) are costly, the current strategy is to develop functional link methods and to use data from 1) and 3) as reference to evaluate them. However, there is still no consensus on the best functional link method to date, and method comparison remain seldom. Here, we compared the relative performances of three recent methods for the identification of enhancer-gene links, TargetFinder, Average-Rank, and the ABC model, using the three latest benchmarks from the field: a reference that combines 3D and eQTL data, called BENGI, and two genetic screening references, called CRiFF and CRiSPRi. Overall, none of the three methods performed best on the three references. CRiFF and CRISPRi reference sets are likely more reliable, but CRiFF is not genome-wide and CRiFF and CRISPRi are mostly available on the K562 cancer cell line. The BENGI reference set is genome-wide but likely contains many false positives. This study therefore calls for new reliable and genome-wide E/G reference data rather than new functional link E/G identification methods.

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