Japanese medaka Hox paralog group 2: insights into the evolution of Hox PG2 gene composition and expression in the Osteichthyes

Abstract

Hox paralog group 2 (PG2) genes function to specify the development of the hindbrain and pharyngeal arch-derived structures in the Osteichthyes. In this article, we describe the cDNA cloning and embryonic expression analysis of Japanese medaka (Oryzias latipes) Hox PG2 genes. We show that there are only two functional canonical Hox genes, hoxa2a and b2a, and that a previously identified hoxa2b gene is a transcribed pseudogene, psihoxa2b. The functional genes, hoxa2a and b2a, were expressed in developing rhombomeres and pharyngeal arches in a manner that was relatively well conserved compared with zebrafish (Danio rerio) but differed significantly from orthologous striped bass (Morone saxatilis) and Nile tilapia (Oreochromis niloticus) genes, which, we suggest, may be owing to effects of post-genome duplication loss of a Hox PG2 gene in the medaka and zebrafish lineages. psihoxa2b was expressed at readily detectable levels in several noncanonical Hox expression domains, including the ventral aspect of the neural tube, the pectoral fin buds and caudal-most region of the embryonic trunk, indicative that regulatory control elements needed for spatio-temporal expression have diverged from their ancestral counterparts. Comparative expression analyses showed medaka hoxa2a and b2a expression in the 2nd pharyngeal arch (PA2) beyond the onset of chondrogenesis, which, according to previous hypotheses, suggests these genes function redundantly as selector genes of PA2 identity. We conclude that Hox PG2 gene composition and expression have diverged significantly during osteichthyan evolution and that this divergence in teleosts may be related to lineage-dependent differential gene loss following an actinopterygian-specific whole genome duplication.