Asymmetric genome merging leads to gene expression novelty through nucleo-cytoplasmic disruptions and transcriptomic shock in Chlamydomonas triploids

bioRxiv Pub Date : 2024-08-08 DOI:10.1101/2024.08.06.604315
Lucas Prost-Boxoen, Quinten Bafort, Antoine Van de Vloet, Fabrício Almeida-Silva, Yunn Thet Paing, G. Casteleyn, S. D’hondt, O. De Clerck, Yves Van de Peer
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Abstract

Genome merging is a common phenomenon in many organisms, causing a wide range of consequences on phenotype, adaptation, and gene expression, among other effects, yet its broader implications are not well understood. Two consequences of genome merging on gene expression remain poorly understood: dosage effects and evolution of expression. In this study, we employed Chlamydomonas reinhardtii as a model to investigate the effects of asymmetric genome merging by crossing a diploid with a haploid strain to create a novel triploid line. Five independent clonal lineages derived from this triploid line were evolved for 425 asexual generations in a laboratory natural selection (LNS) experiment. Utilizing fitness assays, qPCR, and RNA-Seq, we assessed the immediate consequences of genome merging and subsequent evolution over time. Our findings reveal substantial alterations in gene expression, protein homeostasis (proteostasis) and cytonuclear stoichiometry. Notably, gene expression exhibited expression level dominance and transgressivity (i.e., expression level higher or lower than either parent). Ongoing expression level dominance and a pattern of “functional dominance” from the haploid parent was observed, alongside remarkable stability in expression patterns across generations. Despite major nucleo-cytoplasmic disruptions, enhanced fitness was detected in the triploid strain. By comparing gene expression across generations, our results indicate that proteostasis restoration is a critical component of rapid adaptation following genome merging in Chlamydomonas reinhardtii and possibly other systems.
不对称基因组合并通过衣藻三倍体中的核-细胞质破坏和转录组冲击导致基因表达新颖性
基因组合并是许多生物体内的常见现象,会对表型、适应性和基因表达等产生广泛的影响,但人们对其更广泛的影响还不甚了解。基因组合并对基因表达的两种影响仍鲜为人知:剂量效应和表达进化。在这项研究中,我们以莱茵衣藻(Chlamydomonas reinhardtii)为模型,通过将一个二倍体与一个单倍体株系杂交,创造出一个新的三倍体株系,来研究不对称基因组合并的影响。在实验室自然选择(LNS)实验中,来自该三倍体品系的五个独立克隆品系经过了425个无性世代的进化。我们利用适配性测定、qPCR 和 RNA-Seq 评估了基因组合并的直接后果以及随后的长期进化。我们的研究结果表明,基因表达、蛋白质稳态(蛋白稳态)和细胞核配比发生了重大变化。值得注意的是,基因表达呈现出表达水平优势和转基因性(即表达水平高于或低于亲本)。从单倍体亲本中观察到持续的表达水平优势和 "功能优势 "模式,以及跨代表达模式的显著稳定性。尽管三倍体菌株的细胞核-细胞质发生了严重破坏,但仍检测到其健康状况有所改善。通过比较不同世代的基因表达,我们的研究结果表明,恢复蛋白稳态是红衣藻(可能也包括其他系统)基因组合并后快速适应的关键组成部分。
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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