Identification and expression of the lampreyPax6gene: evolutionary origin of the segmented brain of vertebrates
Citations Over TimeTop 10% of 2001 papers
Abstract
The Pax6 gene plays a developmental role in various metazoans as the master regulatory gene for eye patterning. Pax6 is also spatially regulated in particular regions of the neural tube. Because the amphioxus has no neuromeres, an understanding of Pax6 expression in the agnathans is crucial for an insight into the origin of neuromerism in the vertebrates. We have isolated a single cognate cDNA of the Pax6 gene, LjPax6, from a Lampetra japonica cDNA library and observed the pattern of its expression using in situ hybridization. Phylogenetic analysis revealed that LjPax6 occurs as an sister group of gnathostome Pax6. In lamprey embryos, LjPax6 is expressed in the eye, the nasohypophysial plate, the oral ectoderm and the brain. In the central nervous system, LjPax6 is expressed in clearly delineated domains in the hindbrain, midbrain and forebrain. We compared the pattern of LjPax6 expression with that of other brain-specific regulatory genes, including LjOtxA, LjPax2/5/8, LjDlx1/6, LjEmx and LjTTF1. Most of the gene expression domains showed conserved pattern, which reflects the situation in the gnathostomes, conforming partly to the neuromeric patterns proposed for the gnathostomes. We conclude that most of the segmented domains of the vertebrate brain were already established in the ancestor common to all vertebrates. Major evolutionary changes in the vertebrate brain may have involved local restriction of cell lineages, leading to the establishment of neuromeres.
Related Papers
- → Pax6 Is a Human Neuroectoderm Cell Fate Determinant(2010)499 cited
- → Establishment of the Mesoderm-Neuroectoderm Boundary in the Drosophila Embryo(1991)245 cited
- → A Sox1 to Pax6 Switch Drives Neuroectoderm to Radial Glia Progression During Differentiation of Mouse Embryonic Stem Cells(2008)114 cited
- → Characterization of the functional properties of the neuroectoderm in mouse Cripto -/- embryos showing severe gastrulation defects(2009)17 cited
- → Neuroectoderm in Drosophila embryos is dependent on the mesoderm for positioning but not for formation.(1991)59 cited