Transposable elements contribute to the evolution of host shift–related genes in cactophilic Drosophila species

生物 转座因子 基因 遗传学 寄主(生物学) 基因组 宿主适应 背景(考古学) 进化生物学 转录组 基因家族 基因组学 生殖隔离 功能基因组学 功能(生物学) RNA序列 后转座子 基因表达调控 计算生物学 遗传变异 转录因子 基因表达 DNA测序 功能分歧 适应(眼睛) DNA结合位点
作者
Daniel Siqueira de Oliveira,Anaïs Larue,William Vilas Boas Nunes,François Sabot,Alejandra Bodelón,Pilar García Guerreiro María,Cristina Vieira,Cláudia M. A. Carareto
出处
期刊:Genome Research [Cold Spring Harbor Laboratory Press]
卷期号:36 (3): 487-505
标识
DOI:10.1101/gr.280463.125
摘要

Host shifts in insects are considered a key process with the potential to contribute to reproductive isolation and speciation. Both genomic and transcriptomic variation are attributed to such a process, in which gene families with functions associated with host localization, acceptance, and usage are proposed to evolve. In this context, cactophilic Drosophila species serve as an excellent model to study host shift evolution, because they use a wide range of cacti as hosts, and many species display different preferences. Transposable elements are a source of genetic novelty between populations and species, driving rapid adaptive evolution. However, the extent of TEs' contribution to host shift remains unexplored. Here, we perform genomic and transcriptomic analyses in six genomes of cactophilic species/subspecies to investigate how TEs interact with genes associated with host shift. Our results reveal enrichment of TEs at promoter regions of host shift-related genes, with ∼39% of the odorant receptors containing their transcription factor binding sites within TEs. We observe that ∼50% of these TEs are Helitrons, demonstrating an unprecedented putative cis-regulatory role of Helitrons in Drosophila Differential expression analysis between species with different preferred hosts reveals divergence in gene expression in heads and larvae. Although TEs' presence does not affect overall gene expression, we observe 6.27% of the expressed genes generating gene-TE chimeric transcripts, including those with function affecting host preference. Our combined genomic and transcriptomic approaches provide evidence of TE-driven divergence between species, highlighting the evolutionary role of TEs in the context of host shift, a key adaptive process that can cause reproductive isolation.
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