Molecular and neuronal homology between the olfactory systems of zebrafish and mouse
Citations Over TimeTop 10% of 2015 papers
Abstract
Studies of the two major olfactory organs of rodents, the olfactory mucosa (OM) and the vomeronasal organ (VNO), unraveled the molecular basis of smell in vertebrates. However, some vertebrates lack a VNO. Here we generated and analyzed the olfactory transcriptome of the zebrafish and compared it to the olfactory transcriptomes of mouse to investigate the evolutionary and molecular relationship between single and dual olfactory systems. Our analyses revealed a high degree of molecular conservation, with orthologs of mouse olfactory cell-specific markers and all but one of their chemosensory receptor classes expressed in the single zebrafish olfactory organ. Zebrafish chemosensory receptor genes are expressed across a large dynamic range and their RNA abundance correlates positively with the number of neurons expressing that RNA. Thus we estimate the relative proportions of neuronal sub-types expressing different chemosensory receptors. Receptor repertoire size drives the absolute abundance of different classes of neurons, but we find similar underlying patterns in both species. Finally, we identified novel marker genes that characterize rare neuronal populations in both mouse and zebrafish. In sum, we find that the molecular and cellular mechanisms underpinning olfaction in teleosts and mammals are similar despite 430 million years of evolutionary divergence.
Related Papers
- → The G‐protein γ‐subunit Gy8 is Expressed in the Developing Axons of Olfactory and Vomeronasal Neurons(1996)42 cited
- → Olfactory marker protein during ontogeny: Immunohistochemical localization(1980)404 cited
- → Embryonic and Postnatal Differentiation of Olfactory Epithelium and Vomeronasal Organ in the Syrian Hamster(2008)21 cited
- → Expression of glucocorticoid receptor mRNA and protein in the olfactory mucosa: Physiologic and pathophysiologic implications(1998)61 cited
- → Incorporation of 3H‐thymidine in the embryonic vomeronasal and olfactory epithelia of garter snakes(1991)12 cited