Identification of Nodal-dependent enhancer of amphioxus Chordin sufficient to drive gene expression into the chordate dorsal organizer.

Abstract

The core molecular mechanisms of dorsal organizer formation during gastrulation are highly conserved within the chordate lineage. One of the key characteristics is that Nodal signaling is required for the organizer-specific gene expression. This feature appears to be ancestral, as evidenced by the presence in the most basally divergent chordate amphioxus. To provide a better understanding of the evolution of organizer-specific gene regulation in chordates, we analyzed the cis-regulatory sequence of amphioxus Chordin in the context of the vertebrate embryo. First, we generated stable zebrafish transgenic lines, and by using light-sheet fluorescent microscopy, characterized in detail the expression pattern of GFP driven by the cis-regulatory sequences of amphioxus Chordin. Next, we performed a 5'deletion analysis and identified an enhancer sufficient to drive the expression of the reporter gene into a chordate dorsal organizer. Finally, we found that the identified enhancer element strongly depends on Nodal signaling, which is consistent with the well-established role of this pathway in the regulation of the expression of dorsal organizer-specific genes across chordates. The enhancer identified in our study may represent a suitable simple system to study the interplay of the evolutionarily conserved regulatory mechanisms operating during early chordate development.