Rapid Cis–Trans Coevolution Driven by a Novel Gene Retroposed from a Eukaryotic Conserved CCR4–NOT Component in Drosophila

Abstract: Young, or newly evolved, genes arise ubiquitously across the tree of life, and they can rapidly acquire novel functions that influence a diverse array of biological processes. Previous work identified a young regulatory duplicate gene in Drosophila, Zeus that unexpectedly diverged rapidly from its parent, Caf40, an extremely conserved component in the CCR4–NOT machinery in post-transcriptional and post-translational regulation of eukaryotic cells, and took on roles in the male reproductive system. This neofunc… Show more

“…These are remarkable examples of the extensive number of changes that sometimes occur in a particular region as a new gene with a new function originates. As a striking example in line with the argument that many changes can quickly take place in the genome as a new gene with a new function is evolving, Krinsky et al [ 18 ] study the male germline transcriptional rewiring that can take place when a new gene evolves from a duplication of a transcription factor.…”

Evolutionary New Genes in a Growing Paradigm

“…These are remarkable examples of the extensive number of changes that sometimes occur in a particular region as a new gene with a new function originates. As a striking example in line with the argument that many changes can quickly take place in the genome as a new gene with a new function is evolving, Krinsky et al [ 18 ] study the male germline transcriptional rewiring that can take place when a new gene evolves from a duplication of a transcription factor.…”

Evolutionary New Genes in a Growing Paradigm