• Citer

Variants of the KCNMB3 regulatory subunit of maxi BK channels affect channel inactivation.

par Hu, Song;Labuda, Małgorzata;Pandolfo, Massimo ;Goss, Greg G;McDermid, Heather E;Ali, Declan W
Référence Physiological genomics (Print), 15, 3, page (191-198)
Publication Publié, 2003-11

Article révisé par les pairs

• Détails
• Contenu

Titre:	Variants of the KCNMB3 regulatory subunit of maxi BK channels affect channel inactivation.
Auteur:	Hu, Song; Labuda, Małgorzata; Pandolfo, Massimo; Goss, Greg G; McDermid, Heather E; Ali, Declan W
Informations sur la publication:	Physiological genomics (Print), 15, 3, page (191-198)
Statut de publication:	Publié, 2003-11
Sujet CREF:	Sciences bio-médicales et agricoles
MeSH keywords:	Amino Acid Sequence
	Animals
	Electrophysiology -- methods
	Female
	Gene Expression Regulation -- physiology
	Genetic Variation
	Large-Conductance Calcium-Activated Potassium Channel beta Subunits
	Large-Conductance Calcium-Activated Potassium Channels
	Molecular Sequence Data
	Nerve Tissue Proteins -- antagonists & inhibitors
	Nerve Tissue Proteins -- biosynthesis
	Nerve Tissue Proteins -- genetics
	Nerve Tissue Proteins -- physiology
	Neurons -- chemistry
	Neurons -- metabolism
	Oocytes -- chemistry
	Oocytes -- metabolism
	Patch-Clamp Techniques
	Potassium -- metabolism
	Potassium Channels -- biosynthesis
	Potassium Channels -- genetics
	Potassium Channels -- physiology
	Potassium Channels, Calcium-Activated -- antagonists & inhibitors
	Potassium Channels, Calcium-Activated -- genetics
	Potassium Channels, Calcium-Activated -- physiology
	Protein Isoforms -- biosynthesis
	Protein Isoforms -- physiology
	Protein Subunits -- genetics
	Protein Subunits -- physiology
	RNA, Messenger -- biosynthesis
	Xenopus laevis
Note générale:	Comparative Study
	Journal Article
	Research Support, Non-U.S. Gov't
Langue:	Anglais
Identificateurs:	urn:issn:1094-8341
	info:doi/10.1152/physiolgenomics.00110.2003
	info:pii/15/3/191
	info:scp/0347762906
	info:pmid/14612589