about
Pacemaker channel dysfunction in a patient with sinus node diseaseHypoosmotic cell swelling as a novel mechanism for modulation of cloned HCN2 channels.Functional development of mechanosensitive hair cells in stem cell-derived organoids parallels native vestibular hair cells.Pharmacological analysis of intrinsic neuronal oscillations in rd10 retinaReal-time visualization of conformational changes within single MloK1 cyclic nucleotide-modulated channels.Structure and Rearrangements in the Carboxy-Terminal Region of SpIH ChannelsSolution structure of the Mesorhizobium loti K1 channel cyclic nucleotide-binding domain in complex with cAMPStructural insights into conformational changes of a cyclic nucleotide-binding domain in solution from Mesorhizobium loti K1 channelLigand-induced structural changes in the cyclic nucleotide-modulated potassium channel MloK1.Ethanol action on dopaminergic neurons in the ventral tegmental area: interaction with intrinsic ion channels and neurotransmitter inputs.Hyperpolarization moves S4 sensors inward to open MVP, a methanococcal voltage-gated potassium channelDifferent roles for the cyclic nucleotide binding domain and amino terminus in assembly and expression of hyperpolarization-activated, cyclic nucleotide-gated channelsRegulation of hyperpolarization-activated HCN channel gating and cAMP modulation due to interactions of COOH terminus and core transmembrane regionsHCN channels are expressed differentially in retinal bipolar cells and concentrated at synaptic terminalsPostnatal expression pattern of HCN channel isoforms in thalamic neurons: relationship to maturation of thalamocortical oscillations.Localization of HCN1 channels to presynaptic compartments: novel plasticity that may contribute to hippocampal maturationThe hyperpolarization-activated channel HCN4 is required for the generation of pacemaker action potentials in the embryonic heart.The murine HCN3 gene encodes a hyperpolarization-activated cation channel with slow kinetics and unique response to cyclic nucleotidesConvergent and reciprocal modulation of a leak K+ current and I(h) by an inhalational anaesthetic and neurotransmitters in rat brainstem motoneurones.The pre- and post-somatic segments of the human type I spiral ganglion neurons--structural and functional considerations related to cochlear implantation.Suppression of ih contributes to propofol-induced inhibition of mouse cortical pyramidal neurons.A transcriptomic analysis of type I-III neurons in the bed nucleus of the stria terminalisDistinct expression patterns of HCN channels in HL-1 cardiomyocytes.Functional expression of the hyperpolarization-activated, non-selective cation current I(f) in immortalized HL-1 cardiomyocytes.Cloning and molecular characterization of cGMP-gated ion channels from rod and cone photoreceptors of striped bass ( M. saxatilis ) retina.P-loop residues critical for selectivity in K channels fail to confer selectivity to rabbit HCN4 channels.Expression of key ion channels in the rat cardiac conduction system by laser capture microdissection and quantitative real-time PCR.Hyperpolarization-activated and cyclic nucleotide-gated channels are differentially expressed in juxtaglomerular cells in the olfactory bulb of miceChronic cervical radiculopathic pain is associated with increased excitability and hyperpolarization-activated current ( Ih) in large-diameter dorsal root ganglion neuronsRegulated expression of HCN channels and cAMP levels shape the properties of the h current in developing rat hippocampusA novel mutation in the HCN4 gene causes symptomatic sinus bradycardia in Moroccan Jews.Sequence-function analysis of the K+-selective family of ion channels using a comprehensive alignment and the KcsA channel structure.PKA-dependent and PKA-independent pathways for cAMP-regulated exocytosis.Hyperpolarization-activated cation current (Ih) is an ethanol target in midbrain dopamine neurons of mice.An unexpected requirement for brain-type sodium channels for control of heart rate in the mouse sinoatrial node.Differential expression of hyperpolarization-activated cyclic nucleotide-gated channel subunits during hippocampal development in the mouseThe expression and role of hyperpolarization-activated and cyclic nucleotide-gated channels in endocrine anterior pituitary cells.Gating of the MlotiK1 potassium channel involves large rearrangements of the cyclic nucleotide-binding domains.Phosphodiesterases Regulate BAY 41-2272-Induced VASP Phosphorylation in Vascular Smooth Muscle Cells.The structure of the prokaryotic cyclic nucleotide-modulated potassium channel MloK1 at 16 A resolution.
P2860
Q24301951-8F696E7A-427E-4DAB-8177-A0C90C5D55E7Q24538745-5B5C84DF-4AE9-4093-A7FB-D7B7FB64B5EEQ27317317-8CF25D68-8E36-4C96-A708-D85D0916692CQ27324461-B3CD498B-7D67-4912-87F5-3490CA1456AFQ27325768-5FAF61D7-1A1F-4BA5-B984-48CE2763E6C2Q27645597-3B788DC2-FF61-4B7E-8FC6-9E4B66FDC434Q27655598-3F3F76F1-F441-478D-A489-F33AA00EBC87Q27667315-373AB28D-E385-4DD1-8973-ABBE86BA36D5Q27681473-03508041-7ABE-44E5-A41E-663333A4EF5EQ27687624-7F5EF4C6-421E-4CA5-9F56-59644EBF88F0Q28183888-21454CB9-64CD-44FA-894A-BF5762EF4934Q28201116-8FA6C2EF-1DE5-4C40-8445-3E35B6DC55BDQ28346769-E356D605-E999-4CF0-945D-414D245349E7Q28581037-D71933D5-408A-40C1-88DC-224C9256CD4BQ28583228-ABED48AA-6CF8-4F1D-9B41-E84A1A0985AEQ28583723-25FF360E-1790-42D1-B3B5-4F2D292468B4Q28585488-EC14C921-3EDD-4A4D-A86F-2685553D9250Q28586569-D6086E14-F3C3-49B4-9EB4-B7D997C6E7C9Q30309527-5990BF95-40AA-456B-8182-FBF070432E01Q30420429-45A03AAA-7496-4417-A202-E326C4B6AC53Q30437738-27CD9477-1B1D-4817-959F-F0707EA7DC69Q30469105-9A4071F1-8745-4E6D-9DBA-A10324113361Q30656532-5772C610-1BA4-481C-8B44-9517404544AEQ30757352-B22A50AA-3630-44AE-AB27-23D0355E9D8FQ33239020-E13A0527-48BF-4241-8CCB-E3957CC32130Q33515020-23895661-53AD-4B98-B78C-6521D87CF735Q33590464-DF8D3D6A-C5CE-4B4A-B57F-DB35C1A32F70Q33727334-7D403C3F-0663-4327-8077-EBE0D63A9A3AQ33783551-26489B54-13CB-46D1-8E4C-C7F621AEE89EQ34056344-18F3682F-483F-48BE-A7F8-F09220242622Q34128155-547F8DC0-898A-44ED-821B-42CA2E3D651FQ34181050-E6AEDA8C-8771-4AC0-B10B-9F6B50A05C39Q34453808-888F9C43-3C58-4D5E-9FE8-208F66C02946Q34582883-B3605E9C-9C8D-4EB5-884C-C4027A6D7510Q34871426-56216BD5-D51A-4637-9D74-D7CEC855F10EQ35155490-9DFDD0A3-21FA-4766-B208-B2094050C5AFQ35640687-1A32BC83-BA7A-435C-B9D4-A344D01615B5Q35651195-69C2BB17-8AB8-46A7-AA4D-F96C8ED4CAFFQ35740400-5BB47ECB-3004-4BFA-BCD9-2F340CD41DA1Q36025437-C4E76853-21A6-4B0F-90F6-6CFDED369C4E
P2860
description
2001 nî lūn-bûn
@nan
2001 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Molecular diversity of pacemaker ion channels.
@ast
Molecular diversity of pacemaker ion channels.
@en
Molecular diversity of pacemaker ion channels.
@nl
type
label
Molecular diversity of pacemaker ion channels.
@ast
Molecular diversity of pacemaker ion channels.
@en
Molecular diversity of pacemaker ion channels.
@nl
prefLabel
Molecular diversity of pacemaker ion channels.
@ast
Molecular diversity of pacemaker ion channels.
@en
Molecular diversity of pacemaker ion channels.
@nl
P1476
Molecular diversity of pacemaker ion channels.
@en
P2093
P304
P356
10.1146/ANNUREV.PHYSIOL.63.1.235
P577
2001-01-01T00:00:00Z