Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation

Some anesthetics despite being generally associated with sedation, can also increase brain activity—a phenomenon called paradoxical excitation. The authors identified dozens of compounds that generally decrease neuronal activity, but increase activity in the caudal hindbrain of zebrafish.

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Autores principales: Matthew N. McCarroll, Leo Gendelev, Reid Kinser, Jack Taylor, Giancarlo Bruni, Douglas Myers-Turnbull, Cole Helsell, Amanda Carbajal, Capria Rinaldi, Hye Jin Kang, Jung Ho Gong, Jason K. Sello, Susumu Tomita, Randall T. Peterson, Michael J. Keiser, David Kokel
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Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/800557a8a9ec49a7a80e98ddf53a8be2
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spelling oai:doaj.org-article:800557a8a9ec49a7a80e98ddf53a8be22021-12-02T17:02:15ZZebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation10.1038/s41467-019-11936-w2041-1723https://doaj.org/article/800557a8a9ec49a7a80e98ddf53a8be22019-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-11936-whttps://doaj.org/toc/2041-1723Some anesthetics despite being generally associated with sedation, can also increase brain activity—a phenomenon called paradoxical excitation. The authors identified dozens of compounds that generally decrease neuronal activity, but increase activity in the caudal hindbrain of zebrafish.Matthew N. McCarrollLeo GendelevReid KinserJack TaylorGiancarlo BruniDouglas Myers-TurnbullCole HelsellAmanda CarbajalCapria RinaldiHye Jin KangJung Ho GongJason K. SelloSusumu TomitaRandall T. PetersonMichael J. KeiserDavid KokelNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-14 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Matthew N. McCarroll
Leo Gendelev
Reid Kinser
Jack Taylor
Giancarlo Bruni
Douglas Myers-Turnbull
Cole Helsell
Amanda Carbajal
Capria Rinaldi
Hye Jin Kang
Jung Ho Gong
Jason K. Sello
Susumu Tomita
Randall T. Peterson
Michael J. Keiser
David Kokel
Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation
description Some anesthetics despite being generally associated with sedation, can also increase brain activity—a phenomenon called paradoxical excitation. The authors identified dozens of compounds that generally decrease neuronal activity, but increase activity in the caudal hindbrain of zebrafish.
format article
author Matthew N. McCarroll
Leo Gendelev
Reid Kinser
Jack Taylor
Giancarlo Bruni
Douglas Myers-Turnbull
Cole Helsell
Amanda Carbajal
Capria Rinaldi
Hye Jin Kang
Jung Ho Gong
Jason K. Sello
Susumu Tomita
Randall T. Peterson
Michael J. Keiser
David Kokel
author_facet Matthew N. McCarroll
Leo Gendelev
Reid Kinser
Jack Taylor
Giancarlo Bruni
Douglas Myers-Turnbull
Cole Helsell
Amanda Carbajal
Capria Rinaldi
Hye Jin Kang
Jung Ho Gong
Jason K. Sello
Susumu Tomita
Randall T. Peterson
Michael J. Keiser
David Kokel
author_sort Matthew N. McCarroll
title Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation
title_short Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation
title_full Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation
title_fullStr Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation
title_full_unstemmed Zebrafish behavioural profiling identifies GABA and serotonin receptor ligands related to sedation and paradoxical excitation
title_sort zebrafish behavioural profiling identifies gaba and serotonin receptor ligands related to sedation and paradoxical excitation
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/800557a8a9ec49a7a80e98ddf53a8be2
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