Genomic characterization of cyclostome Dlx gene family members: Insight into the evolution of the chordate genome and body plan from the organizational and transcriptional regulatory properties of Dlx genes in the petromyzontiformes (lamprey) and the hyperotreti (Hagfish)

Abstract

Gnathostome novelties include jaws, paired appendages, and true teeth. Dlx genes encode transcription factors indispensable for embryonic development of these novelties. Gnathostomes possess at least 6 Dlx genes organized in 3 bi-gene clusters, a physical arrangement which is proposed to affect their expression though shared enhancer elements. I studied the Dlx genes of Cyclostomes, the evolutionary sister group of Gnathostomes. I identified 4 novel members of the Dlx gene family in hagfish (Eptatretus stoutii), and confirmed the presence of 6 Dlx genes in lamprey ( Petromyzon marinus). I found that Cyclostomes have only 1 gene cluster and several orphan genes. This lack of conserved arrangement is coincident with an absence of conserved Dlx enhancers. Irregardless, some regulatory conservation is still apparent as lamprey non-coding DNA is able to drive dlx specific expression patterns of reporter genes in zebrafish. Therefore Cyclostome and Gnathostome Dlx are both organized and regulated differently. The causes and consequences of these changes in Chordate evolution are discussed.