Spatial transcriptomic reconstruction of the mouse olfactory glomerular map suggests principles of odor processing

I. Hao Wang; Evan Murray; Greg Andrews; Hao Ching Jiang; Sung Jin Park; Elisa Donnard; Violeta Durán-Laforet; Daniel M. Bear; Travis E. Faust; Manuel Garber; Christina E. Baer; Dorothy P. Schafer; Zhiping Weng; Fei Chen; Evan Z. Macosko; Paul L. Greer

doi:10.1038/s41593-022-01030-8

Spatial transcriptomic reconstruction of the mouse olfactory glomerular map suggests principles of odor processing

I. Hao Wang
, Evan Murray
, Greg Andrews
, Hao Ching Jiang
, Sung Jin Park
, Elisa Donnard
, Violeta Durán-Laforet
, Daniel M. Bear
, Travis E. Faust
, Manuel Garber
, Christina E. Baer
, Dorothy P. Schafer
, Zhiping Weng
, Fei Chen
, Evan Z. Macosko
, Paul L. Greer

University of Massachusetts Medical School
Broad Institute
Stanford University
Harvard University
Massachusetts General Hospital

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

The olfactory system’s ability to detect and discriminate between the vast array of chemicals present in the environment is critical for an animal’s survival. In mammals, the first step of this odor processing is executed by olfactory sensory neurons, which project their axons to a stereotyped location in the olfactory bulb (OB) to form glomeruli. The stereotyped positioning of glomeruli in the OB suggests an importance for this organization in odor perception. However, because the location of only a limited subset of glomeruli has been determined, it has been challenging to determine the relationship between glomerular location and odor discrimination. Using a combination of single-cell RNA sequencing, spatial transcriptomics and machine learning, we have generated a map of most glomerular positions in the mouse OB. These observations significantly extend earlier studies and suggest an overall organizational principle in the OB that may be used by the brain to assist in odor decoding.

Original language	English
Pages (from-to)	484-492
Number of pages	9
Journal	Nature Neuroscience
Volume	25
Issue number	4
DOIs	https://doi.org/10.1038/s41593-022-01030-8
State	Published - Apr 2022
Externally published	Yes

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Wang, I. H., Murray, E., Andrews, G., Jiang, H. C., Park, S. J., Donnard, E., Durán-Laforet, V., Bear, D. M., Faust, T. E., Garber, M., Baer, C. E., Schafer, D. P., Weng, Z., Chen, F., Macosko, E. Z., & Greer, P. L. (2022). Spatial transcriptomic reconstruction of the mouse olfactory glomerular map suggests principles of odor processing. Nature Neuroscience, 25(4), 484-492. https://doi.org/10.1038/s41593-022-01030-8

@article{3bc59a1d18634c6fb44f8736e78f1d4d,

title = "Spatial transcriptomic reconstruction of the mouse olfactory glomerular map suggests principles of odor processing",

abstract = "The olfactory system{\textquoteright}s ability to detect and discriminate between the vast array of chemicals present in the environment is critical for an animal{\textquoteright}s survival. In mammals, the first step of this odor processing is executed by olfactory sensory neurons, which project their axons to a stereotyped location in the olfactory bulb (OB) to form glomeruli. The stereotyped positioning of glomeruli in the OB suggests an importance for this organization in odor perception. However, because the location of only a limited subset of glomeruli has been determined, it has been challenging to determine the relationship between glomerular location and odor discrimination. Using a combination of single-cell RNA sequencing, spatial transcriptomics and machine learning, we have generated a map of most glomerular positions in the mouse OB. These observations significantly extend earlier studies and suggest an overall organizational principle in the OB that may be used by the brain to assist in odor decoding.",

author = "Wang, \{I. Hao\} and Evan Murray and Greg Andrews and Jiang, \{Hao Ching\} and Park, \{Sung Jin\} and Elisa Donnard and Violeta Dur{\'a}n-Laforet and Bear, \{Daniel M.\} and Faust, \{Travis E.\} and Manuel Garber and Baer, \{Christina E.\} and Schafer, \{Dorothy P.\} and Zhiping Weng and Fei Chen and Macosko, \{Evan Z.\} and Greer, \{Paul L.\}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to Springer Nature America, Inc.",

year = "2022",

month = apr,

doi = "10.1038/s41593-022-01030-8",

language = "English",

volume = "25",

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Wang, IH, Murray, E, Andrews, G, Jiang, HC, Park, SJ, Donnard, E, Durán-Laforet, V, Bear, DM, Faust, TE, Garber, M, Baer, CE, Schafer, DP, Weng, Z, Chen, F, Macosko, EZ & Greer, PL 2022, 'Spatial transcriptomic reconstruction of the mouse olfactory glomerular map suggests principles of odor processing', Nature Neuroscience, vol. 25, no. 4, pp. 484-492. https://doi.org/10.1038/s41593-022-01030-8

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AU - Wang, I. Hao

AU - Murray, Evan

AU - Andrews, Greg

AU - Jiang, Hao Ching

AU - Park, Sung Jin

AU - Donnard, Elisa

AU - Durán-Laforet, Violeta

AU - Bear, Daniel M.

AU - Faust, Travis E.

AU - Garber, Manuel

AU - Baer, Christina E.

AU - Schafer, Dorothy P.

AU - Weng, Zhiping

AU - Chen, Fei

AU - Macosko, Evan Z.

AU - Greer, Paul L.

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AB - The olfactory system’s ability to detect and discriminate between the vast array of chemicals present in the environment is critical for an animal’s survival. In mammals, the first step of this odor processing is executed by olfactory sensory neurons, which project their axons to a stereotyped location in the olfactory bulb (OB) to form glomeruli. The stereotyped positioning of glomeruli in the OB suggests an importance for this organization in odor perception. However, because the location of only a limited subset of glomeruli has been determined, it has been challenging to determine the relationship between glomerular location and odor discrimination. Using a combination of single-cell RNA sequencing, spatial transcriptomics and machine learning, we have generated a map of most glomerular positions in the mouse OB. These observations significantly extend earlier studies and suggest an overall organizational principle in the OB that may be used by the brain to assist in odor decoding.

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JO - Nature Neuroscience

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ER -

Spatial transcriptomic reconstruction of the mouse olfactory glomerular map suggests principles of odor processing

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