Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation

Intra- and interlimb coordination during locomotion is governed by hierarchically organized lumbar spinal networks. Here, the authors show that reversible silencing of spinal L2–L5 interneurons specifically disrupts hindlimb alternation leading to a continuum of walking to hopping.

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Autores principales: Amanda M. Pocratsky, Darlene A. Burke, Johnny R. Morehouse, Jason E. Beare, Amberly S. Riegler, Pantelis Tsoulfas, Gregory J. R. States, Scott R. Whittemore, David S. K. Magnuson
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Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/61c12fdd45c24223be75489c98ecb5e8
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spelling oai:doaj.org-article:61c12fdd45c24223be75489c98ecb5e82021-12-02T13:24:23ZReversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation10.1038/s41467-017-02033-x2041-1723https://doaj.org/article/61c12fdd45c24223be75489c98ecb5e82017-12-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-02033-xhttps://doaj.org/toc/2041-1723Intra- and interlimb coordination during locomotion is governed by hierarchically organized lumbar spinal networks. Here, the authors show that reversible silencing of spinal L2–L5 interneurons specifically disrupts hindlimb alternation leading to a continuum of walking to hopping.Amanda M. PocratskyDarlene A. BurkeJohnny R. MorehouseJason E. BeareAmberly S. RieglerPantelis TsoulfasGregory J. R. StatesScott R. WhittemoreDavid S. K. MagnusonNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-17 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Amanda M. Pocratsky
Darlene A. Burke
Johnny R. Morehouse
Jason E. Beare
Amberly S. Riegler
Pantelis Tsoulfas
Gregory J. R. States
Scott R. Whittemore
David S. K. Magnuson
Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
description Intra- and interlimb coordination during locomotion is governed by hierarchically organized lumbar spinal networks. Here, the authors show that reversible silencing of spinal L2–L5 interneurons specifically disrupts hindlimb alternation leading to a continuum of walking to hopping.
format article
author Amanda M. Pocratsky
Darlene A. Burke
Johnny R. Morehouse
Jason E. Beare
Amberly S. Riegler
Pantelis Tsoulfas
Gregory J. R. States
Scott R. Whittemore
David S. K. Magnuson
author_facet Amanda M. Pocratsky
Darlene A. Burke
Johnny R. Morehouse
Jason E. Beare
Amberly S. Riegler
Pantelis Tsoulfas
Gregory J. R. States
Scott R. Whittemore
David S. K. Magnuson
author_sort Amanda M. Pocratsky
title Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
title_short Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
title_full Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
title_fullStr Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
title_full_unstemmed Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
title_sort reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/61c12fdd45c24223be75489c98ecb5e8
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