Evolution of transcription factor binding in metazoans—mechanisms and functional implications
Differences in transcription factor binding can contribute to organismal evolution by altering
downstream gene expression programmes. Genome-wide studies in Drosophila
melanogaster and mammals have revealed common quantitative and combinatorial
properties of in vivo DNA binding, as well as marked differences in the rate and mechanisms
of evolution of transcription factor binding in metazoans. Here, we review the recently
discovered rapid're-wiring'of in vivo transcription factor binding between related metazoan …
downstream gene expression programmes. Genome-wide studies in Drosophila
melanogaster and mammals have revealed common quantitative and combinatorial
properties of in vivo DNA binding, as well as marked differences in the rate and mechanisms
of evolution of transcription factor binding in metazoans. Here, we review the recently
discovered rapid're-wiring'of in vivo transcription factor binding between related metazoan …
Abstract
Differences in transcription factor binding can contribute to organismal evolution by altering downstream gene expression programmes. Genome-wide studies in Drosophila melanogaster and mammals have revealed common quantitative and combinatorial properties of in vivo DNA binding, as well as marked differences in the rate and mechanisms of evolution of transcription factor binding in metazoans. Here, we review the recently discovered rapid 're-wiring' of in vivo transcription factor binding between related metazoan species and summarize general principles underlying the observed patterns of evolution. We then consider what might explain the differences in genome evolution between metazoan phyla and outline the conceptual and technological challenges facing this research field.
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