Abstract
AbstractAnimals in their natural milieu are surrounded by odors. These odors are rich source of information, and are perceived by sophisticated olfactory systems, that have evolved over time. The sense of smell helps species to localize prey, evade predators, explore food and recognize viable mates. In humans, memoirs, thoughts, emotions, and associations are more readily reached through the sense of smell than through any other channel. This suggests that olfactory processing is imperative and may differ fundamentally from processing in other sensory modalities. The molecular age in olfaction initiated in 1991 with the significant discovery of a large, multigene family of olfactory receptors in rat by Linda Buck and Richard Axel (Buck and Axel, 1991). The first cloned olfactory receptors consisted of a diverse repertoire of G-protein coupled receptors (GPCRs) with seven-trans membrane topology, and they were sparsely expressed in the olfactory epithelium. This Nobel Prize worthy pioneering discovery, together with availability of modern techniques and numerous completely sequenced genomes opened the way to characterize the gene families of olfactory receptors through exhaustive computational data mining in different species genome as well as by in vitro biology. In this review, I will explain about the two main model organism of olfactory perceptions, zebrafish and mouse.
Highlights
Animals in their natural milieu are surrounded by odors
Volatile odorants are perceived by a large repertoire of olfactory receptors (ORs) expressed on the cilia and dendritic knob of the ciliated olfactory sensory neurons (OSNs) in the olfactory epithelium (OE), that project their axons to the main olfactory bulb (OB)
The Grueneberg ganglion (GG) located in the vestibule of the anterior nasal cavity is considered as an olfactory organ based on the presence of the olfactory marker protein (OMP), expression of V2R and trace amine-associated receptors (TAARs) olfactory receptors and olfactory neurons axonal projection to the olfactory bulb (Fleischer et al, 2007)
Summary
Animals in their natural milieu are surrounded by odors. These odors are rich source of information, and are perceived by sophisticated olfactory systems, that have evolved over time. Memoirs, thoughts, emotions, and associations are more readily reached through the sense of smell than through any other channel This suggests that olfactory processing is imperative and may differ fundamentally from processing in other sensory modalities. The first cloned olfactory receptors consisted of a diverse repertoire of Gprotein coupled receptors (GPCRs) with seven-trans membrane topology, and they were sparsely expressed in the olfactory epithelium. This Nobel Prize worthy pioneering discovery, together with availability of modern techniques and numerous completely sequenced genomes opened the way to characterize the gene families of olfactory receptors through exhaustive computational data mining in different species genome as well as by in vitro biology. In this review , I will explain about the two main model organism of olfactory perceptions, zebrafish and mouse
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