2012
DOI: 10.1073/pnas.1117491109
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Distributed representation of chemical features and tunotopic organization of glomeruli in the mouse olfactory bulb

Abstract: In the mammalian brain, similar features of the sensory stimuli are often represented in proximity in the sensory areas. However, how chemical features are represented in the olfactory bulb has been controversial. Questions have been raised as to whether specific chemical features of the odor molecules are represented by spatially clustered olfactory glomeruli. Using a sensitive probe, we have analyzed the glomerular response to large numbers of odorants at single glomerulus resolution. Contrary to the general… Show more

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Cited by 94 publications
(156 citation statements)
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“…In contrast, the concept of chemotopy posits a systematic spatial representation in the olfactory system of some odorant feature such as carbon chain length or functional group (reviewed by Mori et al 2006). While a great deal of evidence from a number of different laboratories (reviewed by Johnson and Leon 2007;Murthy 2011) using relatively low-resolution techniques support this canonical hypothesis, more recent high-resolution analyses suggest that even crude chemotopy does not exist in the olfactory bulb (Ma et al 2012; reviewed by Murthy 2011). Indeed, a serious theoretical problem plagues the notion of spatial organization in the olfactory system: it is not clear how olfaction's tremendously high-dimensional stimulus space, entailing tens of thousands of odorants each with thousands of different physiochemical features (shape, size, polarity, etc.)…”
Section: Discussionmentioning
confidence: 98%
“…In contrast, the concept of chemotopy posits a systematic spatial representation in the olfactory system of some odorant feature such as carbon chain length or functional group (reviewed by Mori et al 2006). While a great deal of evidence from a number of different laboratories (reviewed by Johnson and Leon 2007;Murthy 2011) using relatively low-resolution techniques support this canonical hypothesis, more recent high-resolution analyses suggest that even crude chemotopy does not exist in the olfactory bulb (Ma et al 2012; reviewed by Murthy 2011). Indeed, a serious theoretical problem plagues the notion of spatial organization in the olfactory system: it is not clear how olfaction's tremendously high-dimensional stimulus space, entailing tens of thousands of odorants each with thousands of different physiochemical features (shape, size, polarity, etc.)…”
Section: Discussionmentioning
confidence: 98%
“…Because the entire sample is imaged intact, the results are not dependent on the orientation of the sample or the cutting plane. Importantly, our method covers all ∼3,600 glomeruli of the olfactory bulb, in contrast to functional imaging, which is confined to the dorsal olfactory bulb and covers only ∼200 glomeruli (33). Finally, our method is based on commercially available imaging equipment and software.…”
Section: Discussionmentioning
confidence: 99%
“…After applying ultra-high-resolution calcium-indicator dependent imaging to the olfactory bulb, Ma et al (4) failed to identify a correlation between odorant pairwise structural differences and pairwise neuronal response differences [ figure 4E in Ma et (5). To estimate whether these decisions contributed to the lack of correlation reported by Ma et al, we repeated the full analysis.…”
mentioning
confidence: 99%