Abstract
To gain insight into how mammalian gene expression is controlled by rapidly evolving regulatory elements, we jointly analysed promoter and enhancer activity with downstream transcription levels in liver samples from twenty species. Genes associated with complex regulatory landscapes generally exhibit high expression levels that remain evolutionarily stable. While the number of regulatory elements is the key driver of transcriptional output and resilience, regulatory conservation matters: elements active across mammals most effectively stabilise gene expression. In contrast, recently-evolved enhancers typically contribute weakly, consistent with their high evolutionary plasticity. These effects are observed across the entire mammalian clade and robust to potential confounders, such as gene expression level. Overall, our results illuminate how the evolutionary stability of gene expression is profoundly entwined with both the number and conservation of surrounding promoters and enhancers.
Highlights
Gene expression levels and stability are linked to the number of elements in the regulatory landscape.
Conserved regulatory elements associate with tightly controlled, highly expressed genes.
Recently evolved enhancers weakly influence gene expression, but promoters are similarly active regardless of conservation.
The interplay between complexity of the regulatory landscape and conservation of individual promoters and enhancers shapes gene expression in mammals.