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A transcriptomic atlas of mammalian olfactory mucosae reveals an evolutionary influence on food odor detection in humans

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Comparative transcriptomics of olfactory mucosae offers clues into the putative functions of highly abundant ORs in mammals. The mammalian olfactory system displays species-specific adaptations to different ecological niches. To investigate… Click to show full abstract

Comparative transcriptomics of olfactory mucosae offers clues into the putative functions of highly abundant ORs in mammals. The mammalian olfactory system displays species-specific adaptations to different ecological niches. To investigate the evolutionary dynamics of olfactory sensory neuron (OSN) subtypes across mammalian evolution, we applied RNA sequencing of whole olfactory mucosa samples from mouse, rat, dog, marmoset, macaque, and human. We find that OSN subtypes, representative of all known mouse chemosensory receptor gene families, are present in all analyzed species. Further, we show that OSN subtypes expressing canonical olfactory receptors are distributed across a large dynamic range and that homologous subtypes can be either highly abundant across all species or species/order specific. Highly abundant mouse and human OSN subtypes detect odorants with similar sensory profiles and sense ecologically relevant odorants, such as mouse semiochemicals or human key food odorants. Together, our results allow for a better understanding of the evolution of mammalian olfaction in mammals and provide insights into the possible functions of highly abundant OSN subtypes.

Keywords: osn subtypes; highly abundant; olfactory mucosae; mammalian olfactory; food

Journal Title: Science Advances
Year Published: 2019

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