INTRODUCTION How novel protein architectures evolve remains poorly understood. The
rearrangement of domains with preexisting functions into new composite architectures …

RESULTS: We used comparative genomics to survey all tetrapod genomes with available
gene models (596) for putative HTFs. We identified 106 distinct HTFs derived from 94 …

Despite their vital role as regulators of gene expression, the evolutionary origin of
transcription factors (TFs) and the mechanisms by which new TFs evolve remain poorly …

Genes with novel cellular functions may evolve through exon shuffling, which can assemble
novel protein architectures. Here, we show that DNA transposons provide a recurrent supply …

Genes with novel cellular functions may evolve through exon shuffling, which can assemble
novel protein architectures. Here, we show that DNA transposons provide a recurrent supply …

抄録< jats: title> A recipe for new genes</jats: title>< jats: p> Most lineages contain
evolutionarily novel genes, but their origin is not always clear. Cosby< jats: italic> et al.</jats …

How genes with novel cellular functions evolve is a central biological question. Exon
shuffling is one mechanism to assemble new protein architectures. Here we show that DNA …

How genes with novel cellular functions evolve is a central biological question. Exon 15
shuffling is one mechanism to assemble new protein architectures. Here we show that DNA …

Genes with novel cellular functions may evolve through exon shuffling which can assemble
unique protein architectures. Here we show that DNA transposons provide a recurrent …

Genes with novel cellular functions may evolve through exon shuffling which can assemble
unique protein architectures. Here we show that DNA transposons provide a recurrent …