Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts

Hippocampal pyramidal cells encode an animal’s location by single action potentials and complex spike bursts. The authors show that Kcnq3-containing M-channels synergistically with GABAergic inputs coordinate complex spike bursts during theta oscillations, which is a key mechanism for spatial coding...

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Autores principales: Xiaojie Gao, Franziska Bender, Heun Soh, Changwan Chen, Mahsa Altafi, Sebastian Schütze, Matthias Heidenreich, Maria Gorbati, Mihaela-Anca Corbu, Marta Carus-Cadavieco, Tatiana Korotkova, Anastasios V. Tzingounis, Thomas J. Jentsch, Alexey Ponomarenko
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Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/f33b14e1f0f7463ca569e8ee7b4956bb
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spelling oai:doaj.org-article:f33b14e1f0f7463ca569e8ee7b4956bb2021-12-02T15:07:48ZPlace fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts10.1038/s41467-021-24805-22041-1723https://doaj.org/article/f33b14e1f0f7463ca569e8ee7b4956bb2021-08-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-24805-2https://doaj.org/toc/2041-1723Hippocampal pyramidal cells encode an animal’s location by single action potentials and complex spike bursts. The authors show that Kcnq3-containing M-channels synergistically with GABAergic inputs coordinate complex spike bursts during theta oscillations, which is a key mechanism for spatial coding by single spikes.Xiaojie GaoFranziska BenderHeun SohChangwan ChenMahsa AltafiSebastian SchützeMatthias HeidenreichMaria GorbatiMihaela-Anca CorbuMarta Carus-CadaviecoTatiana KorotkovaAnastasios V. TzingounisThomas J. JentschAlexey PonomarenkoNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-13 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Xiaojie Gao
Franziska Bender
Heun Soh
Changwan Chen
Mahsa Altafi
Sebastian Schütze
Matthias Heidenreich
Maria Gorbati
Mihaela-Anca Corbu
Marta Carus-Cadavieco
Tatiana Korotkova
Anastasios V. Tzingounis
Thomas J. Jentsch
Alexey Ponomarenko
Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts
description Hippocampal pyramidal cells encode an animal’s location by single action potentials and complex spike bursts. The authors show that Kcnq3-containing M-channels synergistically with GABAergic inputs coordinate complex spike bursts during theta oscillations, which is a key mechanism for spatial coding by single spikes.
format article
author Xiaojie Gao
Franziska Bender
Heun Soh
Changwan Chen
Mahsa Altafi
Sebastian Schütze
Matthias Heidenreich
Maria Gorbati
Mihaela-Anca Corbu
Marta Carus-Cadavieco
Tatiana Korotkova
Anastasios V. Tzingounis
Thomas J. Jentsch
Alexey Ponomarenko
author_facet Xiaojie Gao
Franziska Bender
Heun Soh
Changwan Chen
Mahsa Altafi
Sebastian Schütze
Matthias Heidenreich
Maria Gorbati
Mihaela-Anca Corbu
Marta Carus-Cadavieco
Tatiana Korotkova
Anastasios V. Tzingounis
Thomas J. Jentsch
Alexey Ponomarenko
author_sort Xiaojie Gao
title Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts
title_short Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts
title_full Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts
title_fullStr Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts
title_full_unstemmed Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts
title_sort place fields of single spikes in hippocampus involve kcnq3 channel-dependent entrainment of complex spike bursts
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/f33b14e1f0f7463ca569e8ee7b4956bb
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