2007
DOI: 10.1111/j.1469-185x.2007.00019.x
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The sense of smell: molecular basis of odorant recognition

Abstract: Most animal species rely on odorant compounds to locate food, predators, or toxins. The sense of smell is also involved in animal communication, and revealing the underlying mechanisms will therefore facilitate a deeper understanding of animal behaviour. Since the 1940s different theories have speculated on the fundamental basis of olfaction. It was assumed that odorant molecules were recognized by selective protein receptors in the nose, triggering a nervous signal processed by the brain. The discovery of the… Show more

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Cited by 112 publications
(95 citation statements)
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References 172 publications
(279 reference statements)
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“…Insights about the potential mechanisms underlying the interaction and specificity of odorant receptors come from recent advances in our understanding of the interactions of G protein-coupled receptors with their ligands [14], which include hormone and neurotransmitter receptors as well as photoreceptors, taste receptors and ORs. However, the location of the agonist binding sites in these receptors is highly variable [15], and three-dimensional structures and potential binding sites are known only for a few ORs [16], which hampers computational models for determining potential olfactory ligands and specific structural motifs (often referred to as 'odotopes') within odorant molecules [17]. Early ideas suggested a key/lock type mechanism between the odorant and the OR protein [18,19], and much research has been performed during the past 50 years to describe the interactions of these odotopes with particular sites of the OR molecules.…”
Section: Introductionmentioning
confidence: 99%
“…Insights about the potential mechanisms underlying the interaction and specificity of odorant receptors come from recent advances in our understanding of the interactions of G protein-coupled receptors with their ligands [14], which include hormone and neurotransmitter receptors as well as photoreceptors, taste receptors and ORs. However, the location of the agonist binding sites in these receptors is highly variable [15], and three-dimensional structures and potential binding sites are known only for a few ORs [16], which hampers computational models for determining potential olfactory ligands and specific structural motifs (often referred to as 'odotopes') within odorant molecules [17]. Early ideas suggested a key/lock type mechanism between the odorant and the OR protein [18,19], and much research has been performed during the past 50 years to describe the interactions of these odotopes with particular sites of the OR molecules.…”
Section: Introductionmentioning
confidence: 99%
“…One attempt to find a way forward was to suggest that receptors only bind to parts of the odourant: this is the odotope theory [112]. The positive side of this theory is that odour appears to be a characteristic of chemical groups [111] (for example -SH or -NH 2 groups have odours associated with them), and thus the receptors could bind these groups. It is not clear how this operates in practice though [52].…”
Section: Docking Theorymentioning
confidence: 99%
“…Even if just one component of the ligand is key to the stability (e.g. some group that binds strongly to a metal ion [111]), the rearrangement could be sensitive to the remainder of the molecule.…”
Section: Docking Theorymentioning
confidence: 99%
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“…Moreover, human sensual pleasure (e.g., the odor of perfume) is one important aspect of life quality. So this primal sense can be designated as a major agent for communication between the individual and its environment [2].…”
Section: Introductionmentioning
confidence: 99%