Symmetry, Stereotypy, and Topography of Odorant Representations in Mouse Olfactory Bulbs

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The Journal of Neuroscience, March 15, 2001, 21(6):2113-2122

Symmetry, Stereotypy, and Topography of Odorant Representations in Mouse Olfactory Bulbs
Leonardo Belluscio and Lawrence C. Katz
Howard Hughes Medical Institute and Department of Neurobiology, Duke University Medical Center, Durham, North Carolina 27710
The molecular basis of vertebrate odorant representations has been derived extensively from mice. The functional correlatesof these molecular features were visualized using optical imagingof intrinsic signals in mouse olfactory bulbs. Single odorantsactivated clusters of glomeruli in consistent, restricted portionsof the bulb. Patterns of activated glomeruli were clearly bilaterallysymmetric and consistent in different individual mice, but theprecise number, position, and intensity of activated glomeruliin the two bulbs of the same individual and between individualsvaried considerably. Representations of aliphatic aldehydes ofdifferent carbon chain length shifted systematically along a rostral-caudalstrip of the dorsal bulb, indicating a functional topography ofodorant representations. Binary mixtures of individual aldehydeselicited patterns of glomerular activation that were topographiccombinations of the maps for each individual odor. Thus the principlesderived from the molecular organization of a small subset of murineolfactory receptor neuron projection patterns $---$ bilateral symmetry,local clustering, and local variability $---$ are reliable guides tothe initial functional representation of odorantmolecules.

Key words: optical imaging; functional maps; glomeruli; odorant mixtures; aldehydes; olfactory
Copyright © 2001 Society for Neuroscience 0270-6474/01/2162113-10$05.00/0

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