HCN4
384 literature references associated to HCN4
1
Du Y
et al.
β1-Adrenergic blocker bisoprolol reverses down-regulated ion channels in sinoatrial node of heart failure rats.
J. Physiol. Biochem.,
2016
Jun
, 72 (293-302).
2
Hurtado R
et al.
Hyperpolarization-activated cation and T-type calcium ion channel expression in porcine and human renal pacemaker tissues.
J. Anat.,
2016
Jan
25
, ().
3
Qiu X
et al.
Therapeutic effect of astragaloside-IV on bradycardia is involved in up-regulating klotho expression.
Life Sci.,
2016
Jan
1
, 144 (94-102).
4
Mezzano V
et al.
Desmosomal junctions are necessary for adult sinus node function.
Cardiovasc. Res.,
2016
Apr
20
, ().
5
Liu J
et al.
Effects of Yiqi Tongyang on HCN4 Protein Phosphorylation in Damaged Rabbit Sinoatrial Node Cells.
Evid Based Complement Alternat Med,
2016
, 2016 (4379139).
6
Zaragoza MV
et al.
Exome Sequencing Identifies a Novel LMNA Splice-Site Mutation and Multigenic Heterozygosity of Potential Modifiers in a Family with Sick Sinus Syndrome, Dilated Cardiomyopathy, and Sudden Cardiac Death.
PLoS ONE,
2016
, 11 (e0155421).
7
Huang X
et al.
Age-associated expression of HCN channel isoforms in rat sinoatrial node.
Exp. Biol. Med. (Maywood),
2015
Sep
3
, ().
8
Li YD
et al.
Altered expression of hyperpolarization-activated cyclic nucleotide-gated channels and microRNA-1 and -133 in patients with age-associated atrial fibrillation.
Mol Med Rep,
2015
Sep
, 12 (3243-8).
9
Millat G
et al.
HCN4 mutation as a molecular explanation on patients with bradycardia and non-compaction cardiomyopathy.
Eur J Med Genet,
2015
Sep
, 58 (439-42).
10
Li N
et al.
Molecular Mapping of Sinoatrial Node HCN Channel Expression in the Human Heart.
Circ Arrhythm Electrophysiol,
2015
Oct
, 8 (1219-27).
11
Wu X
et al.
[Expression of HCN4 protein in ventricular outflow tract of rabbit with idiopathic ventricular tachycardia].
Zhonghua Yi Xue Za Zhi,
2015
Nov
24
, 95 (3620-4).
12
Hou B
et al.
Characteristics of hyperpolarization-activated cyclic nucleotide-gated channels in dorsal root ganglion neurons at different ages and sizes.
Neuroreport,
2015
Nov
11
, 26 (981-7).
13
O'Donnell AM
et al.
Decreased expression of hyperpolarisation-activated cyclic nucleotide-gated channel 3 in Hirschsprung's disease.
World J. Gastroenterol.,
2015
May
14
, 21 (5635-40).
14
Smith T
et al.
Increased Expression of HCN2 Channel Protein in L4 Dorsal Root Ganglion Neurons Following Axotomy of L5- and Inflammation of L4-Spinal Nerves in Rats.
Neuroscience,
2015
Mar
23
, ().
15
Notomi T
et al.
Zinc-Induced Effects on Osteoclastogenesis Involves Activation of Hyperpolarization-Activated Cyclic Nucleotide Modulated Channels Via Changes in Membrane Potential.
J. Bone Miner. Res.,
2015
Mar
12
, ().
16
Simmons O
et al.
Persistent Noggin arrests cardiomyocyte morphogenesis and results in early in utero lethality.
Dev. Dyn.,
2015
Mar
, 244 (457-67).
17
Kelder TP
et al.
The sinus venosus myocardium contributes to the atrioventricular canal: potential role during atrioventricular node development?
J. Cell. Mol. Med.,
2015
Jun
, 19 (1375-89).
18
Yu HD
et al.
Spironolactone Regulates HCN Protein Expression Through Micro-RNA-1 in Rats With Myocardial Infarction.
J. Cardiovasc. Pharmacol.,
2015
Jun
, 65 (587-92).
19
Sun C
et al.
The short stature homeobox 2 (Shox2)-bone morphogenetic protein (BMP) pathway regulates dorsal mesenchymal protrusion development and its temporary function as a pacemaker during cardiogenesis.
J. Biol. Chem.,
2015
Jan
23
, 290 (2007-23).
20
Liang X
et al.
Insights into cardiac conduction system formation provided by HCN4 expression.
Trends Cardiovasc. Med.,
2015
Jan
, 25 (1-9).
21
Tsai CT
et al.
Next-generation sequencing of nine atrial fibrillation candidate genes identified novel de novo mutations in patients with extreme trait of atrial fibrillation.
J. Med. Genet.,
2015
Jan
, 52 (28-36).
22
Huang J
et al.
PP2 prevents isoproterenol stimulation of cardiac pacemaker activity.
J. Cardiovasc. Pharmacol.,
2015
Feb
, 65 (193-202).
23
Lees-Miller JP
et al.
Ivabradine prolongs phase 3 of cardiac repolarization and blocks the hERG1 (KCNH2) current over a concentration-range overlapping with that required to block HCN4.
J. Mol. Cell. Cardiol.,
2015
Aug
, 85 (71-8).
24
Chen XF
et al.
[Changes of HCN4, Cx43 Expression in the Sinoatrial Node of Electric Shock Death].
Fa Yi Xue Za Zhi,
2015
Aug
, 31 (266-8).
25
Melgari D
et al.
hERG potassium channel blockade by the HCN channel inhibitor bradycardic agent ivabradine.
J Am Heart Assoc,
2015
Apr
, 4 ().
26
Allegue C
et al.
Genetic Analysis of Arrhythmogenic Diseases in the Era of NGS: The Complexity of Clinical Decision-Making in Brugada Syndrome.
PLoS ONE,
2015
, 10 (e0133037).
27
Feng Y
et al.
Electric-Pulse Current Stimulation Increases If Current in mShox2 Genetically Modified Canine Mesenchymal Stem Cells.
Cardiology,
2015
, 132 (49-57).
28
Saito Y
et al.
Enhancement of Spontaneous Activity by HCN4 Overexpression in Mouse Embryonic Stem Cell-Derived Cardiomyocytes - A Possible Biological Pacemaker.
PLoS ONE,
2015
, 10 (e0138193).
29
Günther A
et al.
Distinct expression patterns of HCN channels in HL-1 cardiomyocytes.
BMC Cell Biol.,
2015
, 16 (18).
30
Seo H
et al.
Differential expression of hyperpolarization-activated cyclic nucleotide-gated channel subunits during hippocampal development in the mouse.
Mol Brain,
2015
, 8 (13).
31
Fürst O
et al.
Isoform dependent regulation of human HCN channels by cholesterol.
Sci Rep,
2015
, 5 (14270).
32
Verkerk AO
et al.
Pacemaker activity of the human sinoatrial node: an update on the effects of mutations in HCN4 on the hyperpolarization-activated current.
Int J Mol Sci,
2015
, 16 (3071-94).
33
Chen H
et al.
Berberine attenuates spontaneous action potentials in sinoatrial node cells and the currents of human HCN4 channels expressed in Xenopus laevis oocytes.
Mol Med Rep,
2014
Sep
, 10 (1576-82).
34
Li H
et al.
Dual effects of amiodarone on pacemaker currents in hypertrophied ventricular myocytes isolated from spontaneously hypertensive rats.
Clin. Exp. Pharmacol. Physiol.,
2014
Sep
, 41 (698-707).
35
Wen W
et al.
Meta-analysis of genome-wide association studies in East Asian-ancestry populations identifies four new loci for body mass index.
Hum. Mol. Genet.,
2014
Oct
15
, 23 (5492-504).
36
Pauza DH
et al.
Innervation of sinoatrial nodal cardiomyocytes in mouse. A combined approach using immunofluorescent and electron microscopy.
J. Mol. Cell. Cardiol.,
2014
Oct
, 75 (188-97).
37
Lai MH
et al.
BK channels regulate sinoatrial node firing rate and cardiac pacing in vivo.
Am. J. Physiol. Heart Circ. Physiol.,
2014
Nov
1
, 307 (H1327-38).
38
Nam YJ
et al.
Induction of diverse cardiac cell types by reprogramming fibroblasts with cardiac transcription factors.
Development,
2014
Nov
, 141 (4267-78).
39
Akimoto M
et al.
A Mechanism for the Auto-Inhibition of Hyperpolarization-Activated Cyclic Nucleotide-Gated (HCN) Channel Opening and its Relief by cAMP.
J. Biol. Chem.,
2014
May
30
, ().
40
Möller S
et al.
Cyclic nucleotide mapping of hyperpolarization-activated cyclic nucleotide-gated (HCN) channels.
ACS Chem. Biol.,
2014
May
16
, 9 (1128-37).
41
Zhao J
et al.
Relationship between two arrhythmias: sinus node dysfunction and atrial fibrillation.
Arch. Med. Res.,
2014
May
, 45 (351-5).
42
Verkerk AO
et al.
Pacemaker activity of the human sinoatrial node: effects of HCN4 mutations on the hyperpolarization-activated current.
Europace,
2014
Mar
, 16 (384-95).
43
Macri V
et al.
A novel trafficking-defective HCN4 mutation is associated with early-onset atrial fibrillation.
Heart Rhythm,
2014
Jun
, 11 (1055-62).
44
Schroeder C
et al.
Pacemaker current inhibition in experimental human cardiac sympathetic activation: a double-blind, randomized, crossover study.
Clin. Pharmacol. Ther.,
2014
Jun
, 95 (601-7).
45
Borbas Z
et al.
161 novel immunohistochemical and structural features of subsidiary atrial pacemakers in the goat; relevance to potential sites for biological pacemakers.
Heart,
2014
Jun
, 100 Suppl 3 (A92-3).
46
Mackiewicz U
et al.
Ivabradine protects against ventricular arrhythmias in acute myocardial infarction in the rat.
J. Cell. Physiol.,
2014
Jun
, 229 (813-23).
47
Shahi PK
et al.
The possible roles of hyperpolarization-activated cyclic nucleotide channels in regulating pacemaker activity in colonic interstitial cells of Cajal.
J. Gastroenterol.,
2014
Jun
, 49 (1001-10).
48
Huang J
et al.
PP2 prevents β-adrenergic stimulation of cardiac pacemaker activity.
J. Cardiovasc. Pharmacol.,
2014
Jun
, 63 (533-43).
49
Lolicato M
et al.
Cyclic dinucleotides bind the C-linker of HCN4 to control channel cAMP responsiveness.
Nat. Chem. Biol.,
2014
Jun
, 10 (457-62).
50
Scheruebel S
et al.
I(f) blocking potency of ivabradine is preserved under elevated endotoxin levels in human atrial myocytes.
J. Mol. Cell. Cardiol.,
2014
Jul
, 72 (64-73).
51
Calejo AI
et al.
Differences in the expression pattern of HCN isoforms among mammalian tissues: sources and implications.
Mol. Biol. Rep.,
2014
Jan
, 41 (297-307).
52
Wu M
et al.
Inducible gene deletion in the entire cardiac conduction system using Hcn4-CreERT2 BAC transgenic mice.
Genesis,
2014
Feb
, 52 (134-40).
53
Schweizer PA
et al.
The symptom complex of familial sinus node dysfunction and myocardial noncompaction is associated with mutations in the HCN4 channel.
J. Am. Coll. Cardiol.,
2014
Aug
26
, 64 (757-67).
54
Milano A
et al.
HCN4 mutations in multiple families with bradycardia and left ventricular noncompaction cardiomyopathy.
J. Am. Coll. Cardiol.,
2014
Aug
26
, 64 (745-56).
55
Kentish SJ
et al.
Diet-dependent modulation of gastro-oesphageal vagal afferent mechanosensitivity by endogenous nitric oxide.
J. Physiol. (Lond.),
2014
Aug
1
, 592 (3287-301).
56
Liu Q
et al.
I h and HCN channels in murine spiral ganglion neurons: tonotopic variation, local heterogeneity, and kinetic model.
J. Assoc. Res. Otolaryngol.,
2014
Aug
, 15 (585-99).
57
Dufour MA
et al.
Somatodendritic ion channel expression in substantia nigra pars compacta dopaminergic neurons across postnatal development.
J. Neurosci. Res.,
2014
Aug
, 92 (981-99).
58
Mesirca P
et al.
T-type channels in the sino-atrial and atrioventricular pacemaker mechanism.
Pflugers Arch.,
2014
Apr
, 466 (791-9).
59
Feeney MM
et al.
Urinary tract pacemaker cells: current knowledge and insights from nonrenal pacemaker cells provide a basis for future discovery.
Pediatr. Nephrol.,
2014
Apr
, 29 (629-35).
60
Horwitz GC
et al.
Mechanotransduction and hyperpolarization-activated currents contribute to spontaneous activity in mouse vestibular ganglion neurons.
J. Gen. Physiol.,
2014
Apr
, 143 (481-97).
61
Zhang C
et al.
Triptolide improves early survival of mesenchymal stem cells transplanted into rat myocardium.
Cardiology,
2014
, 128 (73-85).
62
D'Souza A
et al.
Exercise training reduces resting heart rate via downregulation of the funny channel HCN4.
Nat Commun,
2014
, 5 (3775).
63
Zhou J
et al.
A novel HCN4 mutation, G1097W, is associated with atrioventricular block.
Circ. J.,
2014
, 78 (938-42).
64
Mitrofanova LB
et al.
Evidence of specialized tissue in human interatrial septum: histological, immunohistochemical and ultrastructural findings.
PLoS ONE,
2014
, 9 (e113343).
65
Li YD
et al.
Association between reversal in the expression of hyperpolarization-activated cyclic nucleotide-gated (HCN) channel and age-related atrial fibrillation.
Med. Sci. Monit.,
2014
, 20 (2292-7).
66
Mesirca P
et al.
Cardiac arrhythmia induced by genetic silencing of 'funny' (f) channels is rescued by GIRK4 inactivation.
Nat Commun,
2014
, 5 (4664).
67
St Clair JR
et al.
PKA-independent activation of I(f) by cAMP in mouse sinoatrial myocytes.
Channels (Austin),
2013 Jul-Aug
, 7 (318-21).
68
DiFrancesco D
Funny channel gene mutations associated with arrhythmias.
J. Physiol. (Lond.),
2013
Sep
1
, 591 (4117-24).
69
Später D
et al.
A HCN4+ cardiomyogenic progenitor derived from the first heart field and human pluripotent stem cells.
Nat. Cell Biol.,
2013
Sep
, 15 (1098-106).
70
Chiu SN
et al.
Long-term outcomes of pediatric sinus bradycardia.
J. Pediatr.,
2013
Sep
, 163 (885-9.e1).
71
Zuo GF
et al.
Capsazepine concentration dependently inhibits currents in HEK 293 cells mediated by human hyperpolarization-activated cyclic nucleotide-gated 2 and 4 channels.
Exp. Biol. Med. (Maywood),
2013
Sep
, 238 (1055-61).
72
Nawathe PA
et al.
An LQTS6 MiRP1 mutation suppresses pacemaker current and is associated with sinus bradycardia.
J. Cardiovasc. Electrophysiol.,
2013
Sep
, 24 (1021-7).
73
Duhme N
et al.
Altered HCN4 channel C-linker interaction is associated with familial tachycardia-bradycardia syndrome and atrial fibrillation.
Eur. Heart J.,
2013
Sep
, 34 (2768-75).
74
Kim YH
et al.
Functional contributions of HCN channels in the primary auditory neurons of the mouse inner ear.
J. Gen. Physiol.,
2013
Sep
, 142 (207-23).
75
Lu W
et al.
mHCN4 genetically modified canine mesenchymal stem cells provide biological pacemaking function in complete dogs with atrioventricular block.
Pacing Clin Electrophysiol,
2013
Sep
, 36 (1138-49).
76
Hurtado R
et al.
A molecular signature of tissues with pacemaker activity in the heart and upper urinary tract involves coexpressed hyperpolarization-activated cation and T-type Ca2+ channels.
FASEB J.,
2013
Nov
4
, ().
77
Hashem SI
et al.
Shox2 regulates the pacemaker gene program in embryoid bodies.
Stem Cells Dev.,
2013
Nov
1
, 22 (2915-26).
78
El Khoury N
et al.
Upregulation of the hyperpolarization-activated current increases pacemaker activity of the sinoatrial node and heart rate during pregnancy in mice.
Circulation,
2013
May
21
, 127 (2009-20).
79
Hughes DI
et al.
HCN4 subunit expression in fast-spiking interneurons of the rat spinal cord and hippocampus.
Neuroscience,
2013
May
1
, 237 (7-18).
80
Rusznák Z
et al.
The hyperpolarization-activated non-specific cation current (In ) adjusts the membrane properties, excitability, and activity pattern of the giant cells in the rat dorsal cochlear nucleus.
Eur. J. Neurosci.,
2013
Mar
, 37 (876-90).
81
Morris GM
et al.
Characterisation of a Right Atrial Subsidiary Pacemaker and acceleration of the pacing rate by HCN over-expression.
Cardiovasc. Res.,
2013
Jun
19
, ().
82
Cai Y
et al.
[Study on the effect of Klotho gene interferred by plasmid-mediated short hairpin RNA (shRNA) on sinoatrial node pacing channel gene].
Sheng Wu Yi Xue Gong Cheng Xue Za Zhi,
2013
Jun
, 30 (588-91).
83
Tibbs GR
et al.
HCN1 channels as targets for anesthetic and nonanesthetic propofol analogs in the amelioration of mechanical and thermal hyperalgesia in a mouse model of neuropathic pain.
J. Pharmacol. Exp. Ther.,
2013
Jun
, 345 (363-73).
84
Sah R
et al.
Timing of myocardial trpm7 deletion during cardiogenesis variably disrupts adult ventricular function, conduction, and repolarization.
Circulation,
2013
Jul
9
, 128 (101-14).
85
Hashem SI
et al.
Genetic isolation of stem cell-derived pacemaker-nodal cardiac myocytes.
Mol. Cell. Biochem.,
2013
Jul
23
, ().
86
Sah R
et al.
Ion channel-kinase TRPM7 is required for maintaining cardiac automaticity.
Proc. Natl. Acad. Sci. U.S.A.,
2013
Jul
22
, ().
87
Stoenica L
et al.
HCN1 subunits contribute to the kinetics of Ih in neonatal cortical plate neurons.
Dev Neurobiol,
2013
Jul
2
, ().
88
Al Madhoun AS
et al.
Testosterone enhances cardiomyogenesis in stem cells and recruits the androgen receptor to the MEF2C and HCN4 genes.
J. Mol. Cell. Cardiol.,
2013
Jul
, 60 (164-71).
89
Bosman A
et al.
Molecular and functional evidence of HCN4 and caveolin-3 interaction during cardiomyocyte differentiation from human embryonic stem cells.
Stem Cells Dev.,
2013
Jan
11
, ().
90
Vedantham V
et al.
Spatiotemporal regulation of an Hcn4 enhancer defines a role for Mef2c and HDACs in cardiac electrical patterning.
Dev. Biol.,
2013
Jan
1
, 373 (149-62).
91
Cao-Ehlker X
et al.
Upregulation of hyperpolarization-activated cyclic nucleotide-gated channel 3 (HCN3) by specific interaction with K+ channel tetramerization-domain containing protein 3 (KCTD3).
J. Biol. Chem.,
2013
Feb
4
, ().
92
Riesen SC
et al.
Myocardial expression of hyperpolarization-activated, cyclic nucleotide-gated proteins in healthy cats and cats with hypertrophic cardiomyopathy.
Schweiz. Arch. Tierheilkd.,
2013
Feb
, 155 (143-7).
93
Fenske S
et al.
Sick Sinus Syndrome in HCN1-Deficient Mice.
Circulation,
2013
Dec
17
, 128 (2585-94).
94
Wilson CM
et al.
Phylogeny and effects of anoxia on hyperpolarization-activated cyclic nucleotide-gated channel gene expression in the heart of a primitive chordate, the Pacific hagfish (Eptatretus stoutii).
J. Exp. Biol.,
2013
Dec
1
, 216 (4462-72).
95
Stillitano F
et al.
Chronic atrial fibrillation alters the functional properties of If in the human atrium.
J. Cardiovasc. Electrophysiol.,
2013
Dec
, 24 (1391-400).
96
Yu F
et al.
[Experimental research of recombinant lentivirus mediated hyperpolarization-activated cyclic nucleotide-gated cation channel 4 gene transfecting bone mesenchymal stem cells].
Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi,
2013
Dec
, 27 (1512-6).
97
Stevens SM
et al.
HCN4 charges up the first heart field.
Circ. Res.,
2013
Aug
2
, 113 (350-1).
98
Liang X
et al.
HCN4 dynamically marks the first heart field and conduction system precursors.
Circ. Res.,
2013
Aug
2
, 113 (399-407).
99
Scavone A
et al.
Embryonic stem cell-derived CD166+ precursors develop into fully functional sinoatrial-like cells.
Circ. Res.,
2013
Aug
2
, 113 (389-98).
100
Nong Y
et al.
In situ investigation of allografted mouse HCN4 gene-transfected rat bone marrow mesenchymal stromal cells with the use of patch-clamp recording of ventricular slices.
Cytotherapy,
2013
Aug
, 15 (905-19).
101
Chen M
et al.
Time-dependent regulation of neuregulin-1β/ErbB/ERK pathways in cardiac differentiation of mouse embryonic stem cells.
Mol. Cell. Biochem.,
2013
Aug
, 380 (67-72).
102
Evans A
et al.
Postmortem review and genetic analysis in sudden infant death syndrome: an 11-year review.
Hum. Pathol.,
2013
Apr
25
, ().
103
Nakashima N
et al.
Hyperpolarisation-activated cyclic nucleotide-gated channels regulate the spontaneous firing rate of olfactory receptor neurons and affect glomerular formation in mice.
J. Physiol. (Lond.),
2013
Apr
1
, 591 (1749-69).
104
Reetz O
et al.
Protein kinase C activation inhibits rat and human hyperpolarization activated cyclic nucleotide gated channel (HCN)1--mediated current in mammalian cells.
Cell. Physiol. Biochem.,
2013
, 31 (532-41).
105
Atkinson AJ
et al.
Functional, anatomical, and molecular investigation of the cardiac conduction system and arrhythmogenic atrioventricular ring tissue in the rat heart.
J Am Heart Assoc,
2013
, 2 (e000246).
106
Groenke S
et al.
Complete atrial-specific knockout of sodium-calcium exchange eliminates sinoatrial node pacemaker activity.
PLoS ONE,
2013
, 8 (e81633).
107
Bucchi A
et al.
Identification of the molecular site of ivabradine binding to HCN4 channels.
PLoS ONE,
2013
, 8 (e53132).
108
Yeh CB
et al.
Hyperpolarisation-activated cyclic nucleotide channel 4 (HCN4) involvement in Tourette's syndrome autoimmunity.
J. Neuroimmunol.,
2012
Sep
15
, 250 (18-26).
109
Yu L
et al.
[Endothelin-1 stimulates the expression of pacemaker channel I(f) in cardiomyocytes through a p38 MAPK-independent signaling pathway].
Nan Fang Yi Ke Da Xue Xue Bao,
2012
Sep
, 32 (1274-9).
110
Almanza A
et al.
Molecular identity, ontogeny, and cAMP modulation of the hyperpolarization-activated current in vestibular ganglion neurons.
J. Neurophysiol.,
2012
Oct
, 108 (2264-75).
111
Ramakrishnan NA
et al.
HCN1 and HCN2 proteins are expressed in cochlear hair cells: HCN1 can form a ternary complex with protocadherin 15 CD3 and F-actin-binding filamin A or can interact with HCN2.
J. Biol. Chem.,
2012
Nov
2
, 287 (37628-46).
112
Liao Z
et al.
Cellular context and multiple channel domains determine cAMP sensitivity of HCN4 channels: ligand-independent relief of autoinhibition in HCN4.
J. Gen. Physiol.,
2012
Nov
, 140 (557-66).
113
Greene D
et al.
Adrenergic regulation of HCN4 channel requires protein association with beta 2 adrenergic receptor.
,
2012
May
21
, ().
114
Herrmann S
et al.
HCN channels in the heart: lessons from mouse mutants.
Br. J. Pharmacol.,
2012
May
, 166 (501-9).
115
Del Lungo M
et al.
Novel blockers of hyperpolarization-activated current with isoform selectivity in recombinant cells and native tissue.
Br. J. Pharmacol.,
2012
May
, 166 (602-16).
116
Jun C
et al.
Canine bone marrow mesenchymal stromal cells with lentiviral mHCN4 gene transfer create cardiac pacemakers.
Cytotherapy,
2012
May
, 14 (529-39).
117
Surges R
et al.
Hyperpolarization-activated cation current Ih of dentate gyrus granule cells is upregulated in human and rat temporal lobe epilepsy.
Biochem. Biophys. Res. Commun.,
2012
Mar
30
, 420 (156-60).
118
Suffredini S
et al.
Long-term treatment with ivabradine in post-myocardial infarcted rats counteracts f-channel overexpression.
Br. J. Pharmacol.,
2012
Mar
, 165 (1457-66).
119
Battefeld A
et al.
Distinct perinatal features of the hyperpolarization-activated non-selective cation current Ih in the rat cortical plate.
,
2012
Jun
13
, 7 (21).
120
Xue L
et al.
Investigation of hyperpolarization-activated cyclic nucleotide-gated channels in interstitial cells of Cajal of human bladder.
Urology,
2012
Jul
, 80 (224.e13-8).
121
Zhang X
et al.
Endothelin-induced differentiation of Nkx2.5⁺ cardiac progenitor cells into pacemaking cells.
Mol. Cell. Biochem.,
2012
Jul
, 366 (309-18).
122
Fan X
et al.
Blocking effects of acehytisine on pacemaker currents (I(f)) in sinoatrial node cells and human HCN4 channels expressed in Xenopus laevis oocytes.
J Ethnopharmacol,
2012
Jan
6
, 139 (42-51).
123
Partida GJ
et al.
Thy1 Associates with the Cation Channel Subunit HCN4 in Adult Rat Retina.
,
2012
Jan
26
, ().
124
Chow SS
et al.
Energetics of cyclic AMP binding to HCN channel C terminus reveal negative cooperativity.
J. Biol. Chem.,
2012
Jan
2
, 287 (600-6).
125
Shi Z
et al.
Requirement for the paired-like homeodomain transcription factor VSX1 in type 3a mouse retinal bipolar cell terminal differentiation.
J. Comp. Neurol.,
2012
Jan
1
, 520 (117-29).
126
Kanyshkova T
et al.
Differential regulation of HCN channel isoform expression in thalamic neurons of epileptic and non-epileptic rat strains.
Neurobiol. Dis.,
2012
Jan
, 45 (450-61).
127
Kretschmannova K
et al.
The expression and role of hyperpolarization-activated and cyclic nucleotide-gated channels in endocrine anterior pituitary cells.
Mol. Endocrinol.,
2012
Jan
, 26 (153-64).
128
Yang J
et al.
Differentiation potential of human mesenchymal stem cells derived from adipose tissue and bone marrow to sinus node-like cells.
Mol Med Report,
2012
Jan
, 5 (108-13).
129
Harris BS
et al.
Remodeling of the Peripheral Cardiac Conduction System in Response to Pressure-Overload.
,
2012
Feb
3
, ().
130
Khurana S
et al.
An essential role for modulation of hyperpolarization-activated current in the development of binaural temporal precision.
J. Neurosci.,
2012
Feb
22
, 32 (2814-23).
131
Song B
et al.
[Expression of connexin 40 and hyperpolarization-activated cyclic nucleotide-gated cation channel 4 in rat bone marrow mesenchymal stem cells cocultured with sinoatrial node tissues in vitro].
Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi,
2012
Feb
, 26 (146-51).
132
Xu X
et al.
Local and global interpretations of a disease-causing mutation near the ligand entry path in hyperpolarization-activated cAMP-gated channel.
Structure,
2012
Dec
5
, 20 (2116-23).
133
Schild JH
et al.
Differential distribution of voltage-gated channels in myelinated and unmyelinated baroreceptor afferents.
Auton Neurosci,
2012
Dec
24
, 172 (4-12).
134
Chen Y
et al.
Ethanol enhances human hyperpolarization-activated cyclic nucleotide-gated currents.
Alcohol. Clin. Exp. Res.,
2012
Dec
, 36 (2036-46).
135
Zong X
et al.
Regulation of hyperpolarization-activated cyclic nucleotide-gated (HCN) channel activity by cCMP.
J. Biol. Chem.,
2012
Aug
3
, 287 (26506-12).
136
Hofmann F
et al.
Ventricular HCN channels decrease the repolarization reserve in the hypertrophic heart.
Cardiovasc. Res.,
2012
Aug
1
, 95 (317-26).
137
Barbuti A
et al.
A caveolin-binding domain in the HCN4 channels mediates functional interaction with caveolin proteins.
J. Mol. Cell. Cardiol.,
2012
Aug
, 53 (187-95).
138
Abd Allah ES
et al.
Postnatal development of transmural gradients in expression of ion channels and Ca(2+)-handling proteins in the ventricle.
,
2012
Apr
17
, ().
139
Weng X
et al.
Chronic inflammatory pain is associated with increased excitability and hyperpolarization-activated current (Ih) in C- but not Aδ-nociceptors.
Pain,
2012
Apr
, 153 (900-14).
140
Netter MF
et al.
The HCN4 channel mutation D553N associated with bradycardia has a C-linker mediated gating defect.
Cell. Physiol. Biochem.,
2012
, 30 (1227-40).
141
Speranza L
et al.
The biological effects of ivabradine in cardiovascular disease.
Molecules,
2012
, 17 (4924-35).
143
Lippi G
et al.
Genetic and clinical aspects of Brugada syndrome: an update.
Adv Clin Chem,
2012
, 56 (197-208).
144
Ying SW
et al.
Targeted deletion of Kcne2 impairs HCN channel function in mouse thalamocortical circuits.
PLoS ONE,
2012
, 7 (e42756).
145
Fujii H
et al.
Electrophysiological properties of prion-positive cardiac progenitors derived from murine embryonic stem cells.
Circ. J.,
2012
, 76 (2875-83).
146
Khazen G
et al.
Combinatorial Expression Rules of Ion Channel Genes in Juvenile Rat (Rattus norvegicus) Neocortical Neurons.
PLoS ONE,
2012
, 7 (e34786).
147
Song T
et al.
Spironolactone diminishes spontaneous ventricular premature beats by reducing HCN4 protein expression in rats with myocardial infarction.
Mol Med Report,
2011 May-Jun
, 4 (569-73).
148
Liao Z
et al.
Myristoylated peptides potentiate the funny current (I(f)) in sinoatrial myocytes.
Channels (Austin),
2011 Mar-Apr
, 5 (115-9).
149
Wei-qing H
et al.
Expression of hyperpolarization-activated cyclic nucleotide-gated cation channel (HCN4) is increased in hypertrophic cardiomyopathy.
Cardiovasc. Pathol.,
2011 Mar-Apr
, 20 (110-3).
150
Fenske S
et al.
HCN3 contributes to the ventricular action potential waveform in the murine heart.
Circ. Res.,
2011
Oct
14
, 109 (1015-23).
151
Poller WC
et al.
Lateral habenular neurons projecting to reward-processing monoaminergic nuclei express hyperpolarization-activated cyclic nucleotid-gated cation channels.
Neuroscience,
2011
Oct
13
, 193 (205-16).
152
Sklar P
et al.
Large-scale genome-wide association analysis of bipolar disorder identifies a new susceptibility locus near ODZ4.
Nat. Genet.,
2011
Oct
, 43 (977-83).
153
Cho HJ
et al.
Postnatal maturation of the hyperpolarization-activated cation current, I(h), in trigeminal sensory neurons.
J. Neurophysiol.,
2011
Oct
, 106 (2045-56).
154
Bahrudin U
et al.
Impairment of ubiquitin-proteasome system by E334K cMyBPC modifies channel proteins, leading to electrophysiological dysfunction.
J. Mol. Biol.,
2011
Nov
4
, 413 (857-78).
155
Fenske S
et al.
The role of HCN channels in ventricular repolarization.
Trends Cardiovasc. Med.,
2011
Nov
, 21 (216-20).
156
Nistri S
et al.
Relaxin promotes growth and maturation of mouse neonatal cardiomyocytes in vitro: clues for cardiac regeneration.
,
2011
May
6
, ().
157
158
Sizarov A
et al.
Molecular Analysis of the Patterning of the Conduction Tissues in the Developing Human Heart.
,
2011
May
16
, ().
159
Cain JE
et al.
GLI3 repressor controls functional development of the mouse ureter.
J. Clin. Invest.,
2011
Mar
1
, 121 (1199-206).
160
Puller C
et al.
Bipolar cells of the ground squirrel retina.
J. Comp. Neurol.,
2011
Mar
1
, 519 (759-74).
161
Yu FX
et al.
Protective effects of adenosine in rabbit sinoatrial node ischemia-reperfusion model in vivo: control of arrhythmia by hyperpolarization-activated cyclic nucleotide-gated (HCN)4 channels.
Mol. Biol. Rep.,
2011
Mar
, 38 (1723-31).
162
Kelmendi B
et al.
Association of polymorphisms in HCN4 with mood disorders and obsessive compulsive disorder.
Neurosci. Lett.,
2011
Jun
8
, 496 (195-9).
163
Goegelein H
et al.
Effects of the novel amiodarone-like compound SAR114646A on cardiac ion channels and ventricular arrhythmias in rats.
,
2011
Jul
16
, ().
164
Ying SW
et al.
PIP2-mediated HCN3 channel gating is crucial for rhythmic burst firing in thalamic intergeniculate leaflet neurons.
J. Neurosci.,
2011
Jul
13
, 31 (10412-23).
165
166
Bogdan R
et al.
Effect of dronedarone on Na(+), Ca (2+) and HCN channels.
,
2011
Jan
29
, ().
167
Abd Allah E
et al.
Changes in the expression of ion channels, connexins and Ca2+ handling proteins in the sinoatrial node during postnatal development.
,
2011
Jan
28
, ().
168
Baruscotti M
et al.
Deep bradycardia and heart block caused by inducible cardiac-specific knockout of the pacemaker channel gene Hcn4.
Proc. Natl. Acad. Sci. U.S.A.,
2011
Jan
25
, 108 (1705-10).
169
Greener ID
et al.
Molecular architecture of the human specialised atrioventricular conduction axis.
,
2011
Jan
21
, ().
170
Hazra R
et al.
A transcriptomic analysis of type I-III neurons in the bed nucleus of the stria terminalis.
,
2011
Feb
7
, ().
171
Lolicato M
et al.
Tetramerization dynamics of C-terminal domain underlies isoform-specific cAMP gating in hyperpolarization-activated cyclic nucleotide-gated channels.
J. Biol. Chem.,
2011
Dec
30
, 286 (44811-20).
172
Ye Sheng X
et al.
Isolation and characterization of atrioventricular nodal cells from neonate rabbit heart.
Circ Arrhythm Electrophysiol,
2011
Dec
, 4 (936-46).
173
Herrmann S
et al.
Novel insights into the distribution of cardiac HCN channels: an expression study in the mouse heart.
J. Mol. Cell. Cardiol.,
2011
Dec
, 51 (997-1006).
174
Kudo Y
et al.
A case of cor triatriatum with an abnormal P wave: the pacemaker action from the specialized tissue in the abnormal septum.
Pediatr Cardiol,
2011
Dec
, 32 (1244-8).
175
Klöckner U
et al.
Differential reduction of HCN channel activity by various types of lipopolysaccharide.
J. Mol. Cell. Cardiol.,
2011
Aug
, 51 (226-35).
176
Li D
et al.
Deciphering the pecking order of HCN4 expression in the developing heart: lessons from chicken.
Heart Rhythm,
2011
Aug
, 8 (1264-5).
177
Vicente-Steijn R
et al.
Funny current channel HCN4 delineates the developing cardiac conduction system in chicken heart.
Heart Rhythm,
2011
Aug
, 8 (1254-63).
178
Liu H
et al.
Tissue-specific N terminus of the HCN4 channel affects channel activation.
J. Biol. Chem.,
2011
Apr
22
, 286 (14209-14).
179
Herrmann S
et al.
Insights into sick sinus syndrome from an inducible mouse model.
Cardiovasc. Res.,
2011
Apr
1
, 90 (38-48).
180
Sako H
et al.
Establishment of clonal cell lines of taste buds from a p53(-/-) mouse tongue.
In Vitro Cell. Dev. Biol. Anim.,
2011
Apr
, 47 (333-40).
181
Zhang J
et al.
Differentiation induction of cardiac c-kit positive cells from rat heart into sinus node-like cells by 5-azacytidine.
Tissue Cell,
2011
Apr
, 43 (67-74).
182
Koncz I
et al.
Selective pharmacological inhibition of the pacemaker channel isoforms (HCN1-4) as new possible therapeutical targets.
Curr. Med. Chem.,
2011
, 18 (3662-74).
183
Melchiorre M
et al.
Design, synthesis, and preliminary biological evaluation of new isoform-selective f-current blockers.
J. Med. Chem.,
2010
Sep
23
, 53 (6773-7).
184
Liao Z
et al.
Phosphorylation and modulation of hyperpolarization-activated HCN4 channels by protein kinase A in the mouse sinoatrial node.
J. Gen. Physiol.,
2010
Sep
, 136 (247-58).
185
Schweizer PA
et al.
cAMP sensitivity of HCN pacemaker channels determines basal heart rate but is not critical for autonomic rate control.
Circ Arrhythm Electrophysiol,
2010
Oct
1
, 3 (542-52).
186
Xu X
et al.
Structural basis for the cAMP-dependent gating in the human HCN4 channel.
J. Biol. Chem.,
2010
Nov
19
, 285 (37082-91).
187
Sun LP
et al.
Effects of Shensong Yangxin capsule on pacemaker channels encoded by human HCN4 gene.
Chin. Med. J.,
2010
Nov
, 123 (3148-50).
188
Xia S
et al.
Dynamic changes in HCN2, HCN4, KCNE1, and KCNE2 expression in ventricular cells from acute myocardial infarction rat hearts.
Biochem. Biophys. Res. Commun.,
2010
May
7
, 395 (330-5).
189
Ou Y
et al.
Expression of key ion channels in the rat cardiac conduction system by laser capture microdissection and qPCR.
,
2010
May
28
, ().
190
Yi E
et al.
Dendritic HCN channels shape excitatory postsynaptic potentials at the inner hair cell afferent synapse in the mammalian cochlea.
J. Neurophysiol.,
2010
May
, 103 (2532-43).
191
Le Menuet D
et al.
Mineralocorticoid Receptor Overexpression in Embryonic Stem Cell Derived Cardiomyocytes Increases Their Beating Frequency.
,
2010
Mar
17
, ().
192
Fried HU
et al.
Hyperpolarization-activated and cyclic nucleotide-gated channels are differentially expressed in juxtaglomerular cells in the olfactory bulb of mice.
Cell Tissue Res.,
2010
Mar
, 339 (463-79).
193
Morikawa K
et al.
Identification, isolation and characterization of HCN4-positive pacemaking cells derived from murine embryonic stem cells during cardiac differentiation.
Pacing Clin Electrophysiol,
2010
Mar
, 33 (290-303).
194
Hurtado R
et al.
The pelvis-kidney junction contains HCN3, a hyperpolarization-activated cation channel that triggers ureter peristalsis.
Kidney Int.,
2010
Mar
, 77 (500-8).
195
Tong M
et al.
Overexpression of connexin 45 in rat mesenchymal stem cells improves the function as cardiac biological pacemakers.
Chin. Med. J.,
2010
Jun
, 123 (1571-6).
196
Laish-Farkash A
et al.
A Novel Mutation in the HCN4 Gene Causes Symptomatic Sinus Bradycardia in Moroccan Jews.
,
2010
Jul
19
, ().
197
Baruscotti M
et al.
HCN-related channelopathies.
Pflugers Arch.,
2010
Jul
, 460 (405-15).
198
Tu H
et al.
Diabetes alters protein expression of hyperpolarization-activated cyclic nucleotide-gated channel subunits in rat nodose ganglion cells.
Neuroscience,
2010
Jan
13
, 165 (39-52).
199
Sarre A
et al.
Specific inhibition of HCN channels slows rhythm differently in atria, ventricle and outflow tract and stabilizes conduction in the anoxic-reoxygenated embryonic heart model.
Pharmacol. Res.,
2010
Jan
, 61 (85-91).
200
Baruscotti M
et al.
The cardiac pacemaker current.
J. Mol. Cell. Cardiol.,
2010
Jan
, 48 (55-64).
201
Xiao YF
et al.
Hysteresis in human HCN4 channels: a crucial feature potentially affecting sinoatrial node pacemaking.
Sheng Li Xue Bao,
2010
Feb
25
, 62 (1-13).
202
DiFrancesco D
The role of the funny current in pacemaker activity.
Circ. Res.,
2010
Feb
19
, 106 (434-46).
203
Barbuti A
et al.
Mesoangioblasts from ventricular vessels can differentiate in vitro into cardiac myocytes with sinoatrial-like properties.
J. Mol. Cell. Cardiol.,
2010
Feb
, 48 (415-23).
204
Yanni J
et al.
Structural remodelling of the sinoatrial node in obese old rats.
J. Mol. Cell. Cardiol.,
2010
Apr
, 48 (653-62).
205
Zhang J
et al.
Cardiac stem cells differentiate into sinus node-like cells.
Tohoku J. Exp. Med.,
2010
, 222 (113-20).
206
Liang H
et al.
Electrophysiological basis of the first heart beats.
Cell. Physiol. Biochem.,
2010
, 25 (561-70).
207
Thollon C
et al.
I(f) inhibition in cardiovascular diseases.
Adv. Pharmacol.,
2010
, 59 (53-92).
208
Ye B
et al.
Proteolytic processing of HCN2 and co-assembly with HCN4 in the generation of cardiac pacemaker channels.
J. Biol. Chem.,
2009
Sep
18
, 284 (25553-9).
209
Kuratomi S
et al.
The cardiac pacemaker-specific channel Hcn4 is a direct transcriptional target of MEF2.
Cardiovasc. Res.,
2009
Sep
1
, 83 (682-7).
210
Remme CA
et al.
The cardiac sodium channel displays differential distribution in the conduction system and transmural heterogeneity in the murine ventricular myocardium.
Basic Res. Cardiol.,
2009
Sep
, 104 (511-22).
211
Lin YC
et al.
Rescue of a trafficking defective human pacemaker channel via a novel mechanism: roles of Src, Fyn, and Yes tyrosine kinases.
J. Biol. Chem.,
2009
Oct
30
, 284 (30433-40).
212
Nof E
et al.
The Contribution of HCN4 to Normal Sinus Node Function in Humans and Animal Models.
Pacing Clin Electrophysiol,
2009
Oct
1
, ().
213
Gassanov N
et al.
Distinct regulation of cardiac I(f) current via thyroid receptors alpha1 and beta1.
Pflugers Arch.,
2009
Oct
, 458 (1061-8).
214
Bizzozero OA
et al.
Identification of major S-nitrosylated proteins in murine experimental autoimmune encephalomyelitis.
J. Neurosci. Res.,
2009
Oct
, 87 (2881-9).
215
Yeh J
et al.
Declines in levels of hyperpolarization-activated cation (HCN) channels in the rat ovary after cisplatin exposure.
Reprod Sci,
2009
Oct
, 16 (986-94).
216
Cho HJ
et al.
Hyperpolarization-activated cyclic-nucleotide gated 4 (HCN4) protein is expressed in a subset of rat dorsal root and trigeminal ganglion neurons.
Cell Tissue Res.,
2009
Nov
, 338 (171-7).
217
Schweizer PA
et al.
Transcription profiling of HCN-channel isotypes throughout mouse cardiac development.
Basic Res. Cardiol.,
2009
May
7
, ().
218
Yanni J
et al.
The extent of the specialized atrioventricular ring tissues.
Heart Rhythm,
2009
May
, 6 (672-80).
219
Zhang Q
et al.
Associated changes in HCN2 and HCN4 transcripts and I(f) pacemaker current in myocytes.
Biochim. Biophys. Acta,
2009
May
, 1788 (1138-47).
220
Peters CJ
et al.
In situ co-distribution and functional interactions of SAP97 with sinoatrial isoforms of HCN channels.
J. Mol. Cell. Cardiol.,
2009
May
, 46 (636-43).
221
Verkerk AO
et al.
Pacemaker activity of the human sinoatrial node: role of the hyperpolarization-activated current, I(f).
Int. J. Cardiol.,
2009
Mar
6
, 132 (318-36).
222
Chandler NJ
et al.
Molecular architecture of the human sinus node: insights into the function of the cardiac pacemaker.
Circulation,
2009
Mar
31
, 119 (1562-75).
223
Yeh YH
et al.
Funny current downregulation and sinus node dysfunction associated with atrial tachyarrhythmia: a molecular basis for tachycardia-bradycardia syndrome.
Circulation,
2009
Mar
31
, 119 (1576-85).
224
Barbuti A
et al.
Molecular composition and functional properties of f-channels in murine embryonic stem cell-derived pacemaker cells.
J. Mol. Cell. Cardiol.,
2009
Mar
, 46 (343-51).
225
Zolles G
et al.
Association with the auxiliary subunit PEX5R/Trip8b controls responsiveness of HCN channels to cAMP and adrenergic stimulation.
Neuron,
2009
Jun
25
, 62 (814-25).
226
Wicks NL
et al.
Sensitivity of HCN channel deactivation to cAMP is amplified by an S4 mutation combined with activation mode shift.
Pflugers Arch.,
2009
Jun
21
, ().
227
Tamura A
et al.
Effects of antiarrhythmic drugs on the hyperpolarization-activated cyclic nucleotide-gated channel current.
J. Pharmacol. Sci.,
2009
Jun
, 110 (150-9).
228
Greener ID
et al.
Ion channel transcript expression at the rabbit atrioventricular conduction axis.
Circ Arrhythm Electrophysiol,
2009
Jun
, 2 (305-15).
229
Kanyshkova T
et al.
Postnatal expression pattern of HCN channel isoforms in thalamic neurons: relationship to maturation of thalamocortical oscillations.
J. Neurosci.,
2009
Jul
8
, 29 (8847-57).
230
Alig J
et al.
Control of heart rate by cAMP sensitivity of HCN channels.
Proc. Natl. Acad. Sci. U.S.A.,
2009
Jul
21
, 106 (12189-94).
231
Brandt MC
et al.
Effects of KCNE2 on HCN isoforms: distinct modulation of membrane expression and single channel properties.
Am. J. Physiol. Heart Circ. Physiol.,
2009
Jul
, 297 (H355-63).
232
Fu Y
et al.
[Experimental study on influence of ischemia-reperfusion on expression of hyperpolarization activated cyclic nucleotide gated cation channel 4 of sinoatrial node cells in rabbits in vivo]
Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi,
2009
Jul
, 23 (856-60).
233
Saito M
et al.
Vitamin B(12) promotes Cx40 and HCN4 gene expression at an early stage of cardiomyocyte differentiation.
Exp. Anim.,
2009
Jan
, 58 (57-60).
234
Bakondi G
et al.
Hyperpolarization-activated, cyclic nucleotide-gated, cation non-selective channel subunit expression pattern of guinea-pig spiral ganglion cells.
Neuroscience,
2009
Feb
18
, 158 (1469-77).
235
Ueda K
et al.
Role of HCN4 channel in preventing ventricular arrhythmia.
J. Hum. Genet.,
2009
Feb
, 54 (115-21).
236
Formigli L
et al.
Skeletal myoblasts overexpressing relaxin improve differentiation and communication of primary murine cardiomyocyte cell cultures.
J. Mol. Cell. Cardiol.,
2009
Aug
, 47 (335-45).
237
Brioschi C
et al.
Distribution of the pacemaker HCN4 channel mRNA and protein in the rabbit sinoatrial node.
J. Mol. Cell. Cardiol.,
2009
Aug
, 47 (221-7).
238
Wu Y
et al.
Calmodulin kinase II is required for fight or flight sinoatrial node physiology.
Proc. Natl. Acad. Sci. U.S.A.,
2009
Apr
7
, 106 (5972-7).
239
Meurers BH
et al.
Dopamine depletion induced up-regulation of HCN3 enhances rebound excitability of basal ganglia output neurons.
Neurobiol. Dis.,
2009
Apr
, 34 (178-88).
240
Wickenden AD
et al.
HCN pacemaker channels and pain: a drug discovery perspective.
Curr. Pharm. Des.,
2009
, 15 (2149-68).
241
Tong S
et al.
Development of functional I f channels in mMSCs after transfection with mHCN4: effects on cell morphology and mechanical activity in vitro.
Cardiology,
2009
, 112 (114-21).
243
Lin H
et al.
Transcriptional control of pacemaker channel genes HCN2 and HCN4 by Sp1 and implications in re-expression of these genes in hypertrophied myocytes.
Cell. Physiol. Biochem.,
2009
, 23 (317-26).
244
D'Avanzo N
et al.
P-loop residues critical for selectivity in K channels fail to confer selectivity to rabbit HCN4 channels.
PLoS ONE,
2009
, 4 (e7712).
245
Yang XJ
et al.
Mesenchymal stem cells as a gene delivery system to create biological pacemaker cells in vitro.
J. Int. Med. Res.,
2008 Sep-Oct
, 36 (1049-55).
246
Balijepalli RC
et al.
Caveolae, ion channels and cardiac arrhythmias.
Prog. Biophys. Mol. Biol.,
2008 Oct-Nov
, 98 (149-60).
247
Oi H
et al.
HCN4-like immunoreactivity in rat retinal ganglion cells.
Vis. Neurosci.,
2008 Jan-Feb
, 25 (95-102).
248
Budde T
et al.
Reciprocal modulation of I (h) and I (TASK) in thalamocortical relay neurons by halothane.
Pflugers Arch.,
2008
Sep
, 456 (1061-73).
249
Ye B
et al.
Caveolin-3 associates with and affects the function of hyperpolarization-activated cyclic nucleotide-gated channel 4.
Biochemistry,
2008
Nov
25
, 47 (12312-8).
250
Gassanov N
et al.
Retinoid acid-induced effects on atrial and pacemaker cell differentiation and expression of cardiac ion channels.
Differentiation,
2008
Nov
, 76 (971-80).
251
Li HX
et al.
[The changes of funny currents in the ventricular myocytes of neonatal rats and adult rats].
Zhongguo Ying Yong Sheng Li Xue Za Zhi,
2008
Nov
, 24 (411-5).
252
Boink GJ
et al.
Engineering physiologically controlled pacemaker cells with lentiviral HCN4 gene transfer.
,
2008
May
, 10 (487-97).
253
Vitved T
et al.
[Mutations in the heart's pacemaker channels--a new cause of sick sinus node syndrome and long-QT syndrome]
Ugeskr. Laeg.,
2008
Mar
10
, 170 (929-33).
254
Barbuti A
et al.
Control of cardiac rate by "funny" channels in health and disease.
Ann. N. Y. Acad. Sci.,
2008
Mar
, 1123 (213-23).
255
Kouranova EV
et al.
Hyperpolarization-activated cyclic nucleotide-gated channel mRNA and protein expression in large versus small diameter dorsal root ganglion neurons: correlation with hyperpolarization-activated current gating.
Neuroscience,
2008
Jun
2
, 153 (1008-19).
256
Luo X
et al.
Down-regulation of miR-1/miR-133 contributes to re-expression of pacemaker channel genes HCN2 and HCN4 in hypertrophic heart.
J. Biol. Chem.,
2008
Jul
18
, 283 (20045-52).
257
Hardel N
et al.
Recycling endosomes supply cardiac pacemaker channels for regulated surface expression.
Cardiovasc. Res.,
2008
Jul
1
, 79 (52-60).
258
Constantin S
et al.
Gonadotropin-releasing hormone-1 neuronal activity is independent of hyperpolarization-activated cyclic nucleotide-modulated channels but is sensitive to protein kinase a-dependent phosphorylation.
Endocrinology,
2008
Jul
, 149 (3500-11).
259
Hoesl E
et al.
Tamoxifen-inducible gene deletion in the cardiac conduction system.
J. Mol. Cell. Cardiol.,
2008
Jul
, 45 (62-9).
260
Li CH
et al.
Src tyrosine kinase alters gating of hyperpolarization-activated HCN4 pacemaker channel through Tyr531.
Am. J. Physiol., Cell Physiol.,
2008
Jan
, 294 (C355-62).
261
Lee YT
et al.
Novel pharmacological activity of loperamide and CP-339,818 on human HCN channels characterized with an automated electrophysiology assay.
Eur. J. Pharmacol.,
2008
Feb
26
, 581 (97-104).
262
Harzheim D
et al.
Cardiac pacemaker function of HCN4 channels in mice is confined to embryonic development and requires cyclic AMP.
EMBO J.,
2008
Feb
20
, 27 (692-703).
263
Qu Y
et al.
Hyperpolarization-activated cyclic nucleotide-modulated 'HCN' channels confer regular and faster rhythmicity to beating mouse embryonic stem cells.
J. Physiol. (Lond.),
2008
Feb
1
, 586 (701-16).
264
Stillitano F
et al.
Expression of the hyperpolarization-activated current, I(f), in cultured adult rat ventricular cardiomyocytes and its modulation by hypertrophic factors.
Pharmacol. Res.,
2008
Feb
, 57 (100-9).
265
Plotnikov AN
et al.
HCN212-channel biological pacemakers manifesting ventricular tachyarrhythmias are responsive to treatment with I(f) blockade.
,
2008
Feb
, 5 (282-8).
266
Momin A
et al.
Role of the hyperpolarization-activated current Ih in somatosensory neurons.
J. Physiol. (Lond.),
2008
Dec
15
, 586 (5911-29).
267
Vemana S
et al.
Intracellular Mg2+ is a voltage-dependent pore blocker of HCN channels.
Am. J. Physiol., Cell Physiol.,
2008
Aug
, 295 (C557-65).
268
Stillitano F
et al.
Molecular basis of funny current (If) in normal and failing human heart.
J. Mol. Cell. Cardiol.,
2008
Aug
, 45 (289-99).
269
Dibattista M
et al.
Hyperpolarization-activated cyclic nucleotide-gated channels in mouse vomeronasal sensory neurons.
J. Neurophysiol.,
2008
Aug
, 100 (576-86).
270
Verkerk AO
et al.
Dynamic action potential clamp as a powerful tool in the development of a gene-based bio-pacemaker.
,
2008
, 2008 (133-6).
271
Yeh J
et al.
The expression of hyperpolarization activated cyclic nucleotide gated (HCN) channels in the rat ovary are dependent on the type of cell and the reproductive age of the animal: a laboratory investigation.
Reprod. Biol. Endocrinol.,
2008
, 6 (35).
272
Kondrats'kyĭ AP
et al.
[A hyperpolarization-activated current in rat menthol-sensitive sensory neurons]
,
2008
, 54 (16-22).
273
Wells JE
et al.
Hyperpolarization-activated channels in trigeminal ganglia innervating healthy and pulp-exposed teeth.
Int Endod J,
2007
Sep
, 40 (715-21).
274
Huang X
et al.
Age-related down-regulation of HCN channels in rat sinoatrial node.
Basic Res. Cardiol.,
2007
Sep
, 102 (429-35).
275
Herrmann S
et al.
HCN4 provides a 'depolarization reserve' and is not required for heart rate acceleration in mice.
EMBO J.,
2007
Oct
31
, 26 (4423-32).
276
Muto T
et al.
Aldosterone modulates I(f) current through gene expression in cultured neonatal rat ventricular myocytes.
Am. J. Physiol. Heart Circ. Physiol.,
2007
Nov
, 293 (H2710-8).
277
Li HX
et al.
[Effects of amiodarone on funny current I(f) channel gene expression in neonatal rat ventricular myocytes]
,
2007
May
, 35 (466-70).
278
Viswanathan S
et al.
Characterization of sinoatrial node in four conduction system marker mice.
J. Mol. Cell. Cardiol.,
2007
May
, 42 (946-53).
279
Li C
et al.
[Electrophysiology of two human hyperpolarization activated cyclic nucleotide-gated potassium channels expressed in HEK293 cells]
Zhonghua Yi Xue Za Zhi,
2007
Mar
13
, 87 (706-9).
280
Liu J
et al.
Organisation of the mouse sinoatrial node: structure and expression of HCN channels.
Cardiovasc. Res.,
2007
Mar
1
, 73 (729-38).
281
Ishii TM
et al.
Tryptophan-scanning mutagenesis in the S1 domain of mammalian HCN channel reveals residues critical for voltage-gated activation.
J. Physiol. (Lond.),
2007
Mar
1
, 579 (291-301).
282
Brewster AL
et al.
Quantitative analysis and subcellular distribution of mRNA and protein expression of the hyperpolarization-activated cyclic nucleotide-gated channels throughout development in rat hippocampus.
Cereb. Cortex,
2007
Mar
, 17 (702-12).
283
Yu X
et al.
Calcium influx through If channels in rat ventricular myocytes.
Am. J. Physiol., Cell Physiol.,
2007
Mar
, 292 (C1147-55).
284
Mataruga A
et al.
Type 3a and type 3b OFF cone bipolar cells provide for the alternative rod pathway in the mouse retina.
J. Comp. Neurol.,
2007
Jun
20
, 502 (1123-37).
285
Nof E
et al.
Point mutation in the HCN4 cardiac ion channel pore affecting synthesis, trafficking, and functional expression is associated with familial asymptomatic sinus bradycardia.
Circulation,
2007
Jul
31
, 116 (463-70).
286
Gaborit N
et al.
Regional and tissue specific transcript signatures of ion channel genes in the non-diseased human heart.
J. Physiol. (Lond.),
2007
Jul
15
, 582 (675-93).
287
Herrmann S
et al.
Pathophysiology of HCN channels.
Pflugers Arch.,
2007
Jul
, 454 (517-22).
288
Thollon C
et al.
Use-dependent inhibition of hHCN4 by ivabradine and relationship with reduction in pacemaker activity.
Br. J. Pharmacol.,
2007
Jan
, 150 (37-46).
289
Luo L
et al.
Role of peripheral hyperpolarization-activated cyclic nucleotide-modulated channel pacemaker channels in acute and chronic pain models in the rat.
Neuroscience,
2007
Feb
23
, 144 (1477-85).
290
Knaus A
et al.
Direct inhibition of cardiac hyperpolarization-activated cyclic nucleotide-gated pacemaker channels by clonidine.
Circulation,
2007
Feb
20
, 115 (872-80).
291
Kuratomi S
et al.
NRSF regulates the developmental and hypertrophic changes of HCN4 transcription in rat cardiac myocytes.
Biochem. Biophys. Res. Commun.,
2007
Feb
2
, 353 (67-73).
292
Mommersteeg MT
et al.
Molecular pathway for the localized formation of the sinoatrial node.
Circ. Res.,
2007
Feb
16
, 100 (354-62).
293
Whitaker GM
et al.
HCN2 and HCN4 isoforms self-assemble and co-assemble with equal preference to form functional pacemaker channels.
J. Biol. Chem.,
2007
Aug
3
, 282 (22900-9).
294
Ishii TM
et al.
Peripheral N- and C-terminal domains determine deactivation kinetics of HCN channels.
Biochem. Biophys. Res. Commun.,
2007
Aug
3
, 359 (592-8).
295
Xiao J
et al.
Novel approaches for gene-specific interference via manipulating actions of microRNAs: examination on the pacemaker channel genes HCN2 and HCN4.
J. Cell. Physiol.,
2007
Aug
, 212 (285-92).
296
Fyk-Kolodziej B
et al.
Differential distribution of hyperpolarization-activated and cyclic nucleotide-gated channels in cone bipolar cells of the rat retina.
J. Comp. Neurol.,
2007
Apr
20
, 501 (891-903).
297
Cai J
et al.
Adenoviral gene transfer of HCN4 creates a genetic pacemaker in pigs with complete atrioventricular block.
Life Sci.,
2007
Apr
17
, 80 (1746-53).
298
DiFrancesco D
et al.
The funny current: cellular basis for the control of heart rate.
Drugs,
2007
, 67 Suppl 2 (15-24).
299
Varghese A
et al.
Endogenous channels in HEK cells and potential roles in HCN ionic current measurements.
Prog. Biophys. Mol. Biol.,
2006 Jan-Apr
, 90 (26-37).
300
Abbas SY
et al.
Compartmental distribution of hyperpolarization-activated cyclic-nucleotide-gated channel 2 and hyperpolarization-activated cyclic-nucleotide-gated channel 4 in thalamic reticular and thalamocortical relay neurons.
Neuroscience,
2006
Sep
15
, 141 (1811-25).
301
Elinder F
et al.
Mode shifts in the voltage gating of the mouse and human HCN2 and HCN4 channels.
J. Physiol. (Lond.),
2006
Sep
1
, 575 (417-31).
302
Mistrik P
et al.
The enhancement of HCN channel instantaneous current facilitated by slow deactivation is regulated by intracellular chloride concentration.
Pflugers Arch.,
2006
Sep
, 452 (718-27).
303
Arroyo A
et al.
Hyperpolarization-activated cation channels are expressed in rat hypothalamic gonadotropin-releasing hormone (GnRH) neurons and immortalized GnRH neurons.
J. Soc. Gynecol. Investig.,
2006
Sep
, 13 (442-50).
304
Zhong YM
et al.
[Transfecting rat heart with human pacemaker gene in vivo to create a biological pacemaker]
Zhonghua Yi Xue Za Zhi,
2006
Oct
31
, 86 (2831-5).
305
306
Leão KE
et al.
Hyperpolarization-activated currents are differentially expressed in mice brainstem auditory nuclei.
J. Physiol. (Lond.),
2006
Nov
1
, 576 (849-64).
307
Yamamoto M
et al.
Extended atrial conduction system characterised by the expression of the HCN4 channel and connexin45.
Cardiovasc. Res.,
2006
Nov
1
, 72 (271-81).
308
Li JW
et al.
[Electrophysiological effects of hyperpolarization activated cyclic nucleotide gated channel 4 overexpression in neonatal cardiomyocytes mediated by recombinant adenovirus]
Zhonghua Yi Xue Za Zhi,
2006
May
23
, 86 (1332-6).
309
Fernández-Velasco M
et al.
I K1 and I f in ventricular myocytes isolated from control and hypertrophied rat hearts.
Pflugers Arch.,
2006
May
, 452 (146-54).
310
Surges R
et al.
Regulated expression of HCN channels and cAMP levels shape the properties of the h current in developing rat hippocampus.
Eur. J. Neurosci.,
2006
Jul
, 24 (94-104).
311
Kretschmannova K
et al.
Dependence of hyperpolarisation-activated cyclic nucleotide-gated channel activity on basal cyclic adenosine monophosphate production in spontaneously firing GH3 cells.
J. Neuroendocrinol.,
2006
Jul
, 18 (484-93).
312
Milanesi R
et al.
Familial sinus bradycardia associated with a mutation in the cardiac pacemaker channel.
N. Engl. J. Med.,
2006
Jan
12
, 354 (151-7).
313
Ying SW
et al.
Propofol block of I(h) contributes to the suppression of neuronal excitability and rhythmic burst firing in thalamocortical neurons.
Eur. J. Neurosci.,
2006
Jan
, 23 (465-80).
314
Woollhead AM
et al.
Forskolin-induced cell shrinkage and apical translocation of functional enhanced green fluorescent protein-human alphaENaC in H441 lung epithelial cell monolayers.
J. Biol. Chem.,
2006
Feb
24
, 281 (5158-68).
315
Kuisle M
et al.
Functional stabilization of weakened thalamic pacemaker channel regulation in rat absence epilepsy.
J. Physiol. (Lond.),
2006
Aug
15
, 575 (83-100).
316
Bucchi A
et al.
Properties of ivabradine-induced block of HCN1 and HCN4 pacemaker channels.
J. Physiol. (Lond.),
2006
Apr
15
, 572 (335-46).
317
Arinsburg SS
et al.
Constitutively active Src tyrosine kinase changes gating of HCN4 channels through direct binding to the channel proteins.
J. Cardiovasc. Pharmacol.,
2006
Apr
, 47 (578-86).
318
Yamada R
et al.
Hyperpolarization-activated cyclic nucleotide-gated cation channels regulate auditory coincidence detection in nucleus laminaris of the chick.
J. Neurosci.,
2005
Sep
28
, 25 (8867-77).
319
Zong X
et al.
A novel mechanism of modulation of hyperpolarization-activated cyclic nucleotide-gated channels by Src kinase.
J. Biol. Chem.,
2005
Oct
7
, 280 (34224-32).
320
Bajorat R
et al.
Functional significance of HCN2/3-mediated I(h) in striatal cells at early developmental stages.
J. Neurosci. Res.,
2005
Oct
15
, 82 (206-13).
321
Stieber J
et al.
Functional expression of the human HCN3 channel.
J. Biol. Chem.,
2005
Oct
14
, 280 (34635-43).
322
Hucker WJ
et al.
Optical mapping of the atrioventricular junction.
,
2005
Oct
, 38 (121-5).
323
Cacheaux LP
et al.
Impairment of hyperpolarization-activated, cyclic nucleotide-gated channel function by the intravenous general anesthetic propofol.
J. Pharmacol. Exp. Ther.,
2005
Nov
, 315 (517-25).
324
Zicha S
et al.
Sinus node dysfunction and hyperpolarization-activated (HCN) channel subunit remodeling in a canine heart failure model.
Cardiovasc. Res.,
2005
Jun
1
, 66 (472-81).
325
Mistrik P
et al.
The murine HCN3 gene encodes a hyperpolarization-activated cation channel with slow kinetics and unique response to cyclic nucleotides.
J. Biol. Chem.,
2005
Jul
22
, 280 (27056-61).
326
Qiu DL
et al.
Corticotrophin-releasing factor augments the I(H) in rat hypothalamic paraventricular nucleus parvocellular neurons in vitro.
J. Neurophysiol.,
2005
Jul
, 94 (226-34).
327
Marionneau C
et al.
Specific pattern of ionic channel gene expression associated with pacemaker activity in the mouse heart.
J. Physiol. (Lond.),
2005
Jan
1
, 562 (223-34).
328
Qiu DL
et al.
Neuromedin U receptor-2 mRNA and HCN channels mRNA expression in NMU-sensitive neurons in rat hypothalamic paraventricular nucleus.
Neurosci. Lett.,
2005
Feb
1
, 374 (69-72).
329
Michels G
et al.
Single-channel properties support a potential contribution of hyperpolarization-activated cyclic nucleotide-gated channels and If to cardiac arrhythmias.
Circulation,
2005
Feb
1
, 111 (399-404).
330
Léoni AL
et al.
Chronic heart rate reduction remodels ion channel transcripts in the mouse sinoatrial node but not in the ventricle.
Physiol. Genomics,
2005
Dec
14
, 24 (4-12).
331
Azene EM
et al.
Non-equilibrium behavior of HCN channels: insights into the role of HCN channels in native and engineered pacemakers.
Cardiovasc. Res.,
2005
Aug
1
, 67 (263-73).
332
Wahl-Schott C
et al.
An arginine residue in the pore region is a key determinant of chloride dependence in cardiac pacemaker channels.
J. Biol. Chem.,
2005
Apr
8
, 280 (13694-700).
333
Gravante B
et al.
Interaction of the pacemaker channel HCN1 with filamin A.
J. Biol. Chem.,
2004
Oct
15
, 279 (43847-53).
334
Efimov IR
et al.
Structure-function relationship in the AV junction.
,
2004
Oct
, 280 (952-65).
335
Wang Y
et al.
Anatomical, physiological and molecular properties of Martinotti cells in the somatosensory cortex of the juvenile rat.
J. Physiol. (Lond.),
2004
Nov
15
, 561 (65-90).
336
Barbuti A
et al.
Localization of pacemaker channels in lipid rafts regulates channel kinetics.
Circ. Res.,
2004
May
28
, 94 (1325-31).
337
Feigenspan A
et al.
Expression of connexin36 in cone pedicles and OFF-cone bipolar cells of the mouse retina.
J. Neurosci.,
2004
Mar
31
, 24 (3325-34).
338
Doan TN
et al.
Differential distribution and function of hyperpolarization-activated channels in sensory neurons and mechanosensitive fibers.
J. Neurosci.,
2004
Mar
31
, 24 (3335-43).
339
Ueda K
et al.
Functional characterization of a trafficking-defective HCN4 mutation, D553N, associated with cardiac arrhythmia.
J. Biol. Chem.,
2004
Jun
25
, 279 (27194-8).
340
Kimura K
et al.
Hyperpolarization-activated, cyclic nucleotide-gated HCN2 cation channel forms a protein assembly with multiple neuronal scaffold proteins in distinct modes of protein-protein interaction.
Genes Cells,
2004
Jul
, 9 (631-40).
341
Yu X
et al.
Calcium influx through hyperpolarization-activated cation channels (I(h) channels) contributes to activity-evoked neuronal secretion.
Proc. Natl. Acad. Sci. U.S.A.,
2004
Jan
27
, 101 (1051-6).
342
Stieber J
et al.
Pacemaker channels and sinus node arrhythmia.
Trends Cardiovasc. Med.,
2004
Jan
, 14 (23-8).
343
Yu HG
et al.
Tyrosine kinase inhibition differentially regulates heterologously expressed HCN channels.
Pflugers Arch.,
2004
Jan
, 447 (392-400).
344
Notomi T
et al.
Immunohistochemical localization of Ih channel subunits, HCN1-4, in the rat brain.
J. Comp. Neurol.,
2004
Apr
5
, 471 (241-76).
345
Xiao J
et al.
Molecular and functional analysis of hyperpolarisation-activated nucleotide-gated (HCN) channels in the enteric nervous system.
Neuroscience,
2004
, 129 (603-14).
346
Stieber J
et al.
Molecular basis for the different activation kinetics of the pacemaker channels HCN2 and HCN4.
J. Biol. Chem.,
2003
Sep
5
, 278 (33672-80).
347
Decher N
et al.
KCNE2 modulates current amplitudes and activation kinetics of HCN4: influence of KCNE family members on HCN4 currents.
Pflugers Arch.,
2003
Sep
, 446 (633-40).
348
Borlak J
et al.
Hallmarks of ion channel gene expression in end-stage heart failure.
FASEB J.,
2003
Sep
, 17 (1592-608).
349
Much B
et al.
Role of subunit heteromerization and N-linked glycosylation in the formation of functional hyperpolarization-activated cyclic nucleotide-gated channels.
J. Biol. Chem.,
2003
Oct
31
, 278 (43781-6).
350
Pál B
et al.
HCN channels contribute to the intrinsic activity of cochlear pyramidal cells.
Cell. Mol. Life Sci.,
2003
Oct
, 60 (2189-99).
351
Liu Y
et al.
An interactive tool for extracting exons and SNP from genomic sequence: isolation of HCN1 and HCN3 ion channel genes.
,
2003
Oct
, 1 (433-46).
352
Dobrzynski H
et al.
Site of origin and molecular substrate of atrioventricular junctional rhythm in the rabbit heart.
Circ. Res.,
2003
Nov
28
, 93 (1102-10).
353
Swanson EA
et al.
Cardiac expression and function of thyroid hormone receptor beta and its PV mutant.
Endocrinology,
2003
Nov
, 144 (4820-5).
354
Schulze-Bahr E
et al.
Pacemaker channel dysfunction in a patient with sinus node disease.
J. Clin. Invest.,
2003
May
, 111 (1537-45).
355
Altomare C
et al.
Heteromeric HCN1-HCN4 channels: a comparison with native pacemaker channels from the rabbit sinoatrial node.
J. Physiol. (Lond.),
2003
Jun
1
, 549 (347-59).
356
Er F
et al.
Dominant-negative suppression of HCN channels markedly reduces the native pacemaker current I(f) and undermines spontaneous beating of neonatal cardiomyocytes.
Circulation,
2003
Jan
28
, 107 (485-9).
357
Stieber J
et al.
The hyperpolarization-activated channel HCN4 is required for the generation of pacemaker action potentials in the embryonic heart.
Proc. Natl. Acad. Sci. U.S.A.,
2003
Dec
9
, 100 (15235-40).
358
Fernández-Velasco M
et al.
Regional distribution of hyperpolarization-activated current (If) and hyperpolarization-activated cyclic nucleotide-gated channel mRNA expression in ventricular cells from control and hypertrophied rat hearts.
J. Physiol. (Lond.),
2003
Dec
1
, 553 (395-405).
359
Garcia-Frigola C
et al.
Expression of the hyperpolarization-activated cyclic nucleotide-gated cation channel HCN4 during mouse heart development.
Gene Expr. Patterns,
2003
Dec
, 3 (777-83).
360
Cho WJ
et al.
Hyperpolarization-activated, cyclic AMP-gated, HCN1-like cation channel: the primary, full-length HCN isoform expressed in a saccular hair-cell layer.
Neuroscience,
2003
, 118 (525-34).
361
Vasilyev DV
et al.
Postnatal development of the hyperpolarization-activated excitatory current Ih in mouse hippocampal pyramidal neurons.
J. Neurosci.,
2002
Oct
15
, 22 (8992-9004).
362
Han W
et al.
Comparison of ion-channel subunit expression in canine cardiac Purkinje fibers and ventricular muscle.
Circ. Res.,
2002
Nov
1
, 91 (790-7).
363
Brewster A
et al.
Developmental febrile seizures modulate hippocampal gene expression of hyperpolarization-activated channels in an isoform- and cell-specific manner.
J. Neurosci.,
2002
Jun
1
, 22 (4591-9).
364
Hiramatsu M
et al.
Ion channel remodeling in cardiac hypertrophy is prevented by blood pressure reduction without affecting heart weight increase in rats with abdominal aortic banding.
J. Cardiovasc. Pharmacol.,
2002
Jun
, 39 (866-74).
365
Qu J
et al.
Functional comparison of HCN isoforms expressed in ventricular and HEK 293 cells.
Pflugers Arch.,
2002
Aug
, 444 (597-601).
366
Stevens DR
et al.
Hyperpolarization-activated channels HCN1 and HCN4 mediate responses to sour stimuli.
Nature,
2001
Oct
11
, 413 (631-5).
367
Ishii TM
et al.
Determinants of activation kinetics in mammalian hyperpolarization-activated cation channels.
J. Physiol. (Lond.),
2001
Nov
15
, 537 (93-100).
368
Yasui K
et al.
I(f) current and spontaneous activity in mouse embryonic ventricular myocytes.
Circ. Res.,
2001
Mar
16
, 88 (536-42).
369
Moosmang S
et al.
Cellular expression and functional characterization of four hyperpolarization-activated pacemaker channels in cardiac and neuronal tissues.
Eur. J. Biochem.,
2001
Mar
, 268 (1646-52).
370
Altomare C
et al.
Integrated allosteric model of voltage gating of HCN channels.
J. Gen. Physiol.,
2001
Jun
, 117 (519-32).
371
Qu J
et al.
HCN2 overexpression in newborn and adult ventricular myocytes: distinct effects on gating and excitability.
Circ. Res.,
2001
Jul
6
, 89 (E8-14).
372
Gloss B
et al.
Cardiac ion channel expression and contractile function in mice with deletion of thyroid hormone receptor alpha or beta.
Endocrinology,
2001
Feb
, 142 (544-50).
373
Moroni A
et al.
Hyperpolarization-activated cyclic nucleotide-gated channel 1 is a molecular determinant of the cardiac pacemaker current I(f).
J. Biol. Chem.,
2001
Aug
3
, 276 (29233-41).
374
Viscomi C
et al.
C terminus-mediated control of voltage and cAMP gating of hyperpolarization-activated cyclic nucleotide-gated channels.
J. Biol. Chem.,
2001
Aug
10
, 276 (29930-4).
375
Graf EM
et al.
The hyperpolarization-activated current If in ventricular myocytes of non-transgenic and beta2-adrenoceptor overexpressing mice.
Naunyn Schmiedebergs Arch. Pharmacol.,
2001
Aug
, 364 (131-9).
376
Monteggia LM
et al.
Cloning and localization of the hyperpolarization-activated cyclic nucleotide-gated channel family in rat brain.
Brain Res. Mol. Brain Res.,
2000
Sep
30
, 81 (129-39).
377
Santoro B
et al.
Molecular and functional heterogeneity of hyperpolarization-activated pacemaker channels in the mouse CNS.
J. Neurosci.,
2000
Jul
15
, 20 (5264-75).
378
Franz O
et al.
Single-cell mRNA expression of HCN1 correlates with a fast gating phenotype of hyperpolarization-activated cyclic nucleotide-gated ion channels (Ih) in central neurons.
Eur. J. Neurosci.,
2000
Aug
, 12 (2685-93).
379
Tian L
et al.
Characterization of hyperpolarization-activated cation currents in mouse anterior pituitary, AtT20 D16:16 corticotropes.
Endocrinology,
2000
Aug
, 141 (2930-7).
380
Moosmang S
et al.
Differential distribution of four hyperpolarization-activated cation channels in mouse brain.
Biol. Chem.,
1999 Jul-Aug
, 380 (975-80).
381
Ludwig A
et al.
Two pacemaker channels from human heart with profoundly different activation kinetics.
EMBO J.,
1999
May
4
, 18 (2323-9).
382
Shi W
et al.
Distribution and prevalence of hyperpolarization-activated cation channel (HCN) mRNA expression in cardiac tissues.
Circ. Res.,
1999
Jul
9
, 85 (e1-6).
383
Seifert R
et al.
Molecular characterization of a slowly gating human hyperpolarization-activated channel predominantly expressed in thalamus, heart, and testis.
Proc. Natl. Acad. Sci. U.S.A.,
1999
Aug
3
, 96 (9391-6).
384
Ludwig A
et al.
A family of hyperpolarization-activated mammalian cation channels.
Nature,
1998
Jun
11
, 393 (587-91).