Abstract
Which properties of a molecule define its odor? This is a basic yet unanswered question regarding the olfactory system. The olfactory system of Drosophila has a repertoire of approximately 60 odorant receptors. Molecules bind to odorant receptors with different affinities and activate them with different efficacies, thus providing a combinatorial code that identifies odorants. We hypothesized that the binding affinity of an odorant-receptor pair is affected by their relative sizes. The maximum affinity can be attained when the molecular volume of an odorant matches the volume of the binding pocket. The affinity drops to zero when the sizes are too different, thus obscuring the effects of other molecular properties. We developed a mathematical formulation of this hypothesis and verified it using Drosophila data. We also predicted the volume and structural flexibility of the binding site of each odorant receptor; these features significantly differ between odorant receptors. The differences in the volumes and structural flexibilities of different odorant receptor binding sites may explain the difference in the scents of similar molecules with different sizes.
Highlights
Which properties of a molecule define its odor? This is a basic yet unanswered question regarding the olfactory system
We develop a mathematical framework that utilizes available experimental data, and we apply this developed mathematical framework to investigate the relationship between the molecular volume of odorants and the Olfactory receptor neurons (ORNs) response
We showed that molecular volume is an important factor, but it is not the only factor that determines the response of ORNs
Summary
Which properties of a molecule define its odor? This is a basic yet unanswered question regarding the olfactory system. Molecules bind to odorant receptors with different affinities and activate them with different efficacies, providing a combinatorial code that identifies odorants. The differences in the volumes and structural flexibilities of different odorant receptor binding sites may explain the difference in the scents of similar molecules with different sizes. We know which properties of visible light are measured by our eyes, and we know how our eyes process light This knowledge has assisted in the production of cameras and displays. It is not yet clear which properties of a molecule contribute to its smell This question is a topic of ongoing research, and many theories have been proposed[12,13,14,15,16,17,18,19,20,21,22,23,24,25,26]. The topology of ORs in insects is different from that in vertebrates[34,35], and most insect ORs function in the presence of another common receptor known as Orco[36]
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