Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations

Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata
Nature Publishing Group (NPG)
Published 2018

Publication Date:	2018-10-25
Publisher:	Nature Publishing Group (NPG)
Electronic ISSN:	2041-1723
Topics:	Biology Chemistry and Pharmacology Natural Sciences in General Physics
Published by:	http://www.nature.com/

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autor	Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata
beschreibung	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations, Published online: 24 October 2018; doi:10.1038/s41467-018-06859-x Kv1.2 is a voltage-gated potassium channel that influences action potential generation and propagation in the central nervous system. Here authors use electrophysiology and find that Slc7a5, a neutral amino acid transporter, has a profound impact on Kv1.2.
citation_standardnr	6348433
datenlieferant	ipn_articles
feed_id	134647
feed_publisher	Nature Publishing Group (NPG)
feed_publisher_url	http://www.nature.com/
insertion_date	2018-10-25
journaleissn	2041-1723
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	Nature Publishing Group (NPG)
quelle	Nature Communications
relation	http://feeds.nature.com/~r/ncomms/rss/current/~3/RxAaUhw0It0/s41467-018-06859-x
search_space	articles
shingle_author_1	Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata
shingle_author_2	Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata
shingle_author_3	Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata
shingle_author_4	Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata
shingle_catch_all_1	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations, Published online: 24 October 2018; doi:10.1038/s41467-018-06859-x Kv1.2 is a voltage-gated potassium channel that influences action potential generation and propagation in the central nervous system. Here authors use electrophysiology and find that Slc7a5, a neutral amino acid transporter, has a profound impact on Kv1.2. Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata Nature Publishing Group (NPG) 2041-1723 20411723
shingle_catch_all_2	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations, Published online: 24 October 2018; doi:10.1038/s41467-018-06859-x Kv1.2 is a voltage-gated potassium channel that influences action potential generation and propagation in the central nervous system. Here authors use electrophysiology and find that Slc7a5, a neutral amino acid transporter, has a profound impact on Kv1.2. Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata Nature Publishing Group (NPG) 2041-1723 20411723
shingle_catch_all_3	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations, Published online: 24 October 2018; doi:10.1038/s41467-018-06859-x Kv1.2 is a voltage-gated potassium channel that influences action potential generation and propagation in the central nervous system. Here authors use electrophysiology and find that Slc7a5, a neutral amino acid transporter, has a profound impact on Kv1.2. Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata Nature Publishing Group (NPG) 2041-1723 20411723
shingle_catch_all_4	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations, Published online: 24 October 2018; doi:10.1038/s41467-018-06859-x Kv1.2 is a voltage-gated potassium channel that influences action potential generation and propagation in the central nervous system. Here authors use electrophysiology and find that Slc7a5, a neutral amino acid transporter, has a profound impact on Kv1.2. Victoria A. Baronas; Runying Y. Yang; Luis Carlos Morales; Simonetta Sipione; Harley T. Kurata Nature Publishing Group (NPG) 2041-1723 20411723
shingle_title_1	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations
shingle_title_2	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations
shingle_title_3	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations
shingle_title_4	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations
timestamp	2025-06-30T23:37:11.090Z
titel	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations
titel_suche	Slc7a5 regulates Kv1.2 channels and modifies functional outcomes of epilepsy-linked channel mutations
topic	W V TA-TD U
uid	ipn_articles_6348433