Non-additive genetic components contribute significantly to population-wide gene expression variation.

IF 11.1 Q1 CELL BIOLOGY Cell genomics Pub Date : 2024-01-10 Epub Date: 2023-12-04 DOI:10.1016/j.xgen.2023.100459
Andreas Tsouris, Gauthier Brach, Joseph Schacherer, Jing Hou
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Abstract

Gene expression variation, an essential step between genotype and phenotype, is collectively controlled by local (cis) and distant (trans) regulatory changes. Nevertheless, how these regulatory elements differentially influence gene expression variation remains unclear. Here, we bridge this gap by analyzing the transcriptomes of a large diallel panel consisting of 323 unique hybrids originating from genetically divergent Saccharomyces cerevisiae isolates. Our analysis across 5,087 transcript abundance traits showed that non-additive components account for 36% of the gene expression variance on average. By comparing allele-specific read counts in parent-hybrid trios, we found that trans-regulatory changes underlie the majority of gene expression variation in the population. Remarkably, most cis-regulatory variations are also exaggerated or attenuated by additional trans effects. Overall, we showed that the transcriptome is globally buffered at the genetic level mainly due to trans-regulatory variation in the population.

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非加性遗传成分对整个群体的基因表达变异有很大影响。
基因表达变异是基因型和表型之间的重要环节,由局部(顺式)和远端(反式)调控变化共同控制。然而,这些调控因子如何对基因表达变异产生不同的影响仍不清楚。在这里,我们通过分析由 323 个来自遗传上不同的酿酒酵母分离株的独特杂交种组成的大型二联体面板的转录组,弥补了这一空白。我们对 5,087 个转录本丰度性状的分析表明,非加成成分平均占基因表达变异的 36%。通过比较亲本-杂交三系中的等位基因特异性读数,我们发现反式调控变化是群体中大部分基因表达变异的基础。值得注意的是,大多数顺式调控变异也会被额外的反式效应夸大或减弱。总之,我们发现转录组在基因水平上的全局缓冲主要是由于群体中的反式调控变异。
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