Young adult-born neurons improve odor coding by mitral cells

Shani-Narkiss et al. established an experimental system to test the functional role of adult born neurons (ABNs) on Mitral Cell (MC) coding. Silencing ABNs, unexpectedly, quenched MC odor responses. A computational model provides a mechanistic explanation to the functional role of adult-born neurons...

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Autores principales:	H. Shani-Narkiss, A. Vinograd, I. D. Landau, G. Tasaka, N. Yayon, S. Terletsky, M. Groysman, I. Maor, H. Sompolinsky, A. Mizrahi
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2020
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/6efbe38e78d34f58ba0d7ef02b8ddab2
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spelling	oai:doaj.org-article:6efbe38e78d34f58ba0d7ef02b8ddab22021-12-02T16:50:03ZYoung adult-born neurons improve odor coding by mitral cells10.1038/s41467-020-19472-82041-1723https://doaj.org/article/6efbe38e78d34f58ba0d7ef02b8ddab22020-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-19472-8https://doaj.org/toc/2041-1723Shani-Narkiss et al. established an experimental system to test the functional role of adult born neurons (ABNs) on Mitral Cell (MC) coding. Silencing ABNs, unexpectedly, quenched MC odor responses. A computational model provides a mechanistic explanation to the functional role of adult-born neurons in circuit computation of the olfactory bulb.H. Shani-NarkissA. VinogradI. D. LandauG. TasakaN. YayonS. TerletskyM. GroysmanI. MaorH. SompolinskyA. MizrahiNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-16 (2020)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q H. Shani-Narkiss A. Vinograd I. D. Landau G. Tasaka N. Yayon S. Terletsky M. Groysman I. Maor H. Sompolinsky A. Mizrahi Young adult-born neurons improve odor coding by mitral cells
description	Shani-Narkiss et al. established an experimental system to test the functional role of adult born neurons (ABNs) on Mitral Cell (MC) coding. Silencing ABNs, unexpectedly, quenched MC odor responses. A computational model provides a mechanistic explanation to the functional role of adult-born neurons in circuit computation of the olfactory bulb.
format	article
author	H. Shani-Narkiss A. Vinograd I. D. Landau G. Tasaka N. Yayon S. Terletsky M. Groysman I. Maor H. Sompolinsky A. Mizrahi
author_facet	H. Shani-Narkiss A. Vinograd I. D. Landau G. Tasaka N. Yayon S. Terletsky M. Groysman I. Maor H. Sompolinsky A. Mizrahi
author_sort	H. Shani-Narkiss
title	Young adult-born neurons improve odor coding by mitral cells
title_short	Young adult-born neurons improve odor coding by mitral cells
title_full	Young adult-born neurons improve odor coding by mitral cells
title_fullStr	Young adult-born neurons improve odor coding by mitral cells
title_full_unstemmed	Young adult-born neurons improve odor coding by mitral cells
title_sort	young adult-born neurons improve odor coding by mitral cells
publisher	Nature Portfolio
publishDate	2020
url	https://doaj.org/article/6efbe38e78d34f58ba0d7ef02b8ddab2
work_keys_str_mv	AT hshaninarkiss youngadultbornneuronsimproveodorcodingbymitralcells AT avinograd youngadultbornneuronsimproveodorcodingbymitralcells AT idlandau youngadultbornneuronsimproveodorcodingbymitralcells AT gtasaka youngadultbornneuronsimproveodorcodingbymitralcells AT nyayon youngadultbornneuronsimproveodorcodingbymitralcells AT sterletsky youngadultbornneuronsimproveodorcodingbymitralcells AT mgroysman youngadultbornneuronsimproveodorcodingbymitralcells AT imaor youngadultbornneuronsimproveodorcodingbymitralcells AT hsompolinsky youngadultbornneuronsimproveodorcodingbymitralcells AT amizrahi youngadultbornneuronsimproveodorcodingbymitralcells
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Young adult-born neurons improve odor coding by mitral cells

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