Kir6.1
388 literature references associated to Kir6.1
1
Ren Y
et al.
CD200 Inhibits Inflammatory Response by Promoting KATP Channel Opening in Microglia Cells in Parkinson's Disease.
Med. Sci. Monit.,
2016
, 22 (1733-41).
2
Wang W
et al.
Effect of electronic stimulation at Neiguan (PC 6) acupoint on gene expression of adenosine triphosphate-sensitive potassium channel and protein kinases in rats with myocardial ischemia.
J Tradit Chin Med,
2015
Oct
, 35 (577-82).
3
Shen S
et al.
Effect of adenosine triphosphate-sensitive potassium activation on peripheral and central pain sensitization.
J. Surg. Res.,
2015
May
15
, 195 (481-7).
4
Zhu X
et al.
ATP-sensitive potassium channels alleviate postoperative pain through JNK-dependent MCP-1 expression in spinal cord.
Int. J. Mol. Med.,
2015
May
, 35 (1257-65).
5
Zhang Q
et al.
Effects of sodium metabisulfite on the expression of BK(Ca), K(ATP), and L-Ca(2+) channels in rat aortas in vivo and in vitro.
J. Hazard. Mater.,
2015
Mar
2
, 284 (151-62).
6
Kang M
et al.
Interaction between hydrogen sulfide-induced sulfhydration and tyrosine nitration in the KATP channel complex.
Am. J. Physiol. Gastrointest. Liver Physiol.,
2015
Mar
15
, 308 (G532-9).
8
Zhang Q
et al.
The molecular mechanism of the effect of sulfur dioxide inhalation on the potassium and calcium ion channels in rat aortas.
Hum Exp Toxicol,
2015
Jun
24
, ().
9
Liu S
et al.
P2X₇ receptor of rat dorsal root ganglia is involved in the effect of moxibustion on visceral hyperalgesia.
Purinergic Signal.,
2015
Jun
, 11 (161-9).
10
Zhang W
et al.
Kcnh2 and Kcnj8 Interactively Regulate Skin Wound Healing and Regeneration.
Wound Repair Regen,
2015
Jul
28
, ().
11
Umaru B
et al.
ATP-sensitive potassium channel activation induces angiogenesis in vitro and in vivo.
J. Pharmacol. Exp. Ther.,
2015
Jul
, 354 (79-87).
12
Li SS
et al.
The SUR2B subunit of rat vascular KATP channel is targeted by miR-9a-3p induced by prolonged exposure to methylglyoxal.
Am. J. Physiol., Cell Physiol.,
2015
Jan
15
, 308 (C139-45).
13
Qu YY
et al.
The protective effect of epoxyeicosatrienoic acids on cerebral ischemia/reperfusion injury is associated with PI3K/Akt pathway and ATP-sensitive potassium channels.
Neurochem. Res.,
2015
Jan
, 40 (1-14).
14
Li SS
et al.
Impairment of the Vascular KATP Channel Imposes Fatal Susceptibility to Experimental Diabetes Due to Multi-Organ Injuries.
J. Cell. Physiol.,
2015
Dec
, 230 (2915-26).
15
Janković A
et al.
Two key temporally distinguishable molecular and cellular components of white adipose tissue browning during cold acclimation.
J. Physiol. (Lond.),
2015
Aug
1
, 593 (3267-80).
16
Henn MC
et al.
Diazoxide Cardioprotection Is Independent of Adenosine Triphosphate-Sensitive Potassium Channel Kir6.1 Subunit in Response to Stress.
J. Am. Coll. Surg.,
2015
Aug
, 221 (319-25).
17
Sun Y
et al.
Hydrogen sulfide upregulates KATP channel expression in vascular smooth muscle cells of spontaneously hypertensive rats.
J. Mol. Med.,
2015
Apr
, 93 (439-55).
18
Yaniv Y
et al.
From two competing oscillators to one coupled-clock pacemaker cell system.
Front Physiol,
2015
, 6 (28).
19
Aziz Q
et al.
The ATP-sensitive potassium channel subunit, Kir6.1, in vascular smooth muscle plays a major role in blood pressure control.
Hypertension,
2014
Sep
, 64 (523-9).
20
Waza AA
et al.
Protein kinase C (PKC) mediated interaction between conexin43 (Cx43) and K(+)(ATP) channel subunit (Kir6.1) in cardiomyocyte mitochondria: Implications in cytoprotection against hypoxia induced cell apoptosis.
Cell. Signal.,
2014
Sep
, 26 (1909-17).
21
Zhang Q
et al.
Effects of gaseous sulfur dioxide and its derivatives on the expression of KATP, BKCa and L-Ca(2+) channels in rat aortas in vitro.
Eur. J. Pharmacol.,
2014
Nov
5
, 742 (31-41).
22
de Araujo ED
et al.
Successful development and use of a thermodynamic stability screen for optimizing the yield of nucleotide binding domains.
Protein Expr. Purif.,
2014
Nov
, 103 (38-47).
23
Nakaya H
Role of ATP-sensitive K+ channels in cardiac arrhythmias.
J. Cardiovasc. Pharmacol. Ther.,
2014
May
, 19 (237-43).
24
Protic D
et al.
The Different Effects of Resveratrol and Naringenin on Isolated Human Umbilical Vein: The Role of ATP-Sensitive K(+) Channels.
Phytother Res,
2014
Mar
17
, ().
25
Ma YC
et al.
[Expression of KATP in pulmonary artery smooth muscle cells under hypoxia-hypercapnia condition and the relationship with p38 MAPK pathway].
Sheng Li Xue Bao,
2014
Jun
25
, 66 (283-8).
26
Xia L
et al.
Upregulation of Nav1.8 in Demyelinated Facial Nerves Might be Relevant to the Generation of Hemifacial Spasm.
J Craniofac Surg,
2014
Jun
2
, ().
27
Ma Y
et al.
Total flavonoids from Ganshanbian (Herba Hyperici Attenuati) effect the expression of CaL-alpha1C and K(ATP)-Kir6.1 mRNA of the myocardial cell membrane in myocardial ischemia-reperfusion arrhythmia rats.
J Tradit Chin Med,
2014
Jun
, 34 (357-61).
28
Raphemot R
et al.
Direct activation of β-cell KATP channels with a novel xanthine derivative.
Mol. Pharmacol.,
2014
Jun
, 85 (858-65).
29
Cooper PE
et al.
Cantú syndrome resulting from activating mutation in the KCNJ8 gene.
Hum. Mutat.,
2014
Jul
, 35 (809-13).
30
Yang Y
et al.
Acute exposure of methylglyoxal leads to activation of KATP channels expressed in HEK293 cells.
Acta Pharmacol. Sin.,
2014
Jan
, 35 (58-64).
31
Veeramah KR
et al.
The KCNJ8-S422L variant previously associated with J-wave syndromes is found at an increased frequency in Ashkenazi Jews.
Eur. J. Hum. Genet.,
2014
Jan
, 22 (94-8).
32
Hu D
et al.
ABCC9 is a novel Brugada and early repolarization syndrome susceptibility gene.
Int. J. Cardiol.,
2014
Feb
15
, 171 (431-42).
33
Budzik J
et al.
Vascular endothelial growth factor secretion from pituitary folliculostellate cells: role of KATP channels.
J. Neuroendocrinol.,
2014
Feb
, 26 (111-20).
34
Zhao AP
et al.
Nicorandil inhibits inflammasome activation and Toll-like receptor-4 signal transduction to protect against oxygen-glucose deprivation-induced inflammation in BV-2 cells.
CNS Neurosci Ther,
2014
Feb
, 20 (147-53).
35
Csonka C
et al.
Cholesterol-enriched diet inhibits cardioprotection by ATP-sensitive K+ channel activators cromakalim and diazoxide.
Am. J. Physiol. Heart Circ. Physiol.,
2014
Feb
, 306 (H405-13).
36
Lodwick D
et al.
Sulfonylurea receptors regulate the channel pore in ATP-sensitive potassium channels via an intersubunit salt bridge.
Biochem. J.,
2014
Dec
15
, 464 (343-54).
37
Perrin MJ
et al.
Evaluation of genes encoding for the transient outward current (Ito) identifies the KCND2 gene as a cause of J-wave syndrome associated with sudden cardiac death.
Circ Cardiovasc Genet,
2014
Dec
, 7 (782-9).
38
Marques-Neto SR
et al.
AT1 and aldosterone receptors blockade prevents the chronic effect of nandrolone on the exercise-induced cardioprotection in perfused rat heart subjected to ischemia and reperfusion.
Cardiovasc Drugs Ther,
2014
Apr
, 28 (125-35).
39
Kumar M
et al.
Focus on Kir7.1: physiology and channelopathy.
Channels (Austin),
2014
, 8 (488-95).
40
Li Y
et al.
Endurance exercise accelerates myocardial tissue oxygenation recovery and reduces ischemia reperfusion injury in mice.
PLoS ONE,
2014
, 9 (e114205).
41
Du RH
et al.
Kir6.2-containing ATP-sensitive K(+) channel is required for cardioprotection of resveratrol in mice.
Cardiovasc Diabetol,
2014
, 13 (35).
42
Aggarwal NT
et al.
ATP-sensitive potassium currents from channels formed by Kir6 and a modified cardiac mitochondrial SUR2 variant.
Channels (Austin),
2013 Nov-Dec
, 7 (493-502).
43
Bai XJ
et al.
Oleic acid inhibits the K(ATP) channel subunit Kir6.1 and the K(ATP) current in human umbilical artery smooth muscle cells.
Am. J. Med. Sci.,
2013
Sep
, 346 (204-10).
44
Ohba T
et al.
Enhancement of Ca(2+) influx and ciliary beating by membrane hyperpolarization due to ATP-sensitive K(+) channel opening in mouse airway epithelial cells.
J. Pharmacol. Exp. Ther.,
2013
Oct
, 347 (145-53).
45
Slocinska M
et al.
Evidences for an ATP-sensitive potassium channel (KATP) in muscle and fat body mitochondria of insect.
J. Insect Physiol.,
2013
Nov
, 59 (1125-32).
46
Fedele F
et al.
Role of genetic polymorphisms of ion channels in the pathophysiology of coronary microvascular dysfunction and ischemic heart disease.
Basic Res. Cardiol.,
2013
Nov
, 108 (387).
47
Ong T
et al.
Modifying disease in cystic fibrosis: current and future therapies on the horizon.
Curr Opin Pulm Med,
2013
Nov
, 19 (645-51).
48
Zhao K
et al.
EPAC inhibition of SUR1 receptor increases glutamate release and seizure vulnerability.
J. Neurosci.,
2013
May
15
, 33 (8861-5).
49
Khan F
et al.
Real-time RT-PCR threshold cycles value for Kir6.1 from the blood correlates with parameters of vascular function: a potential for the vascular function biomarker?
Biomarkers,
2013
May
, 18 (221-9).
50
Nichols CG
et al.
KATP channels and cardiovascular disease: suddenly a syndrome.
Circ. Res.,
2013
Mar
29
, 112 (1059-72).
51
Fancher IS
et al.
Diabetes mellitus reduces the function and expression of ATP-dependent K⁺ channels in cardiac mitochondria.
Life Sci.,
2013
Mar
28
, 92 (664-8).
52
Mathias R
et al.
Involvement of the NO-cGMP-K(ATP) channel pathway in the mesenteric lymphatic pump dysfunction observed in the guinea pig model of TNBS-induced ileitis.
Am. J. Physiol. Gastrointest. Liver Physiol.,
2013
Mar
15
, 304 (G623-34).
53
Du Q
et al.
KATP channels are up-regulated with increasing age in human myometrium.
Mech. Ageing Dev.,
2013
Mar
, 134 (98-102).
54
Smith KJ
et al.
Coronary spasm and acute myocardial infarction due to a mutation (V734I) in the nucleotide binding domain 1 of ABCC9.
Int. J. Cardiol.,
2013
Jun
3
, ().
55
Lybaert P
et al.
Detection of K(ATP) channels subunits in human term placental explants and evaluation of their implication in human placental lactogen (hPL) and human chorionic gonadotropin (hCG) release.
Placenta,
2013
Jun
, 34 (467-73).
56
Pouokam E
et al.
ATP-sensitive K(+) channels in rat colonic epithelium.
Pflugers Arch.,
2013
Jun
, 465 (865-77).
57
Gade AR
et al.
Hydrogen sulfide as an allosteric modulator of ATP-sensitive potassium channels in colonic inflammation.
Mol. Pharmacol.,
2013
Jan
, 83 (294-306).
58
Dolgin E
Rapid antidepressant effects of ketamine ignite drug discovery.
Nat. Med.,
2013
Jan
, 19 (8).
59
Kefaloyianni E
et al.
Comparative proteomic analysis of the ATP-sensitive K+ channel complex in different tissue types.
Proteomics,
2013
Jan
, 13 (368-78).
60
Stoilova-McPhie S
et al.
Protein-Protein Interactions as New Targets for Ion Channel Drug Discovery.
Austin J Pharmacol Ther,
2013
Dec
31
, 1 ().
61
Brownstein CA
et al.
Mutation of KCNJ8 in a patient with Cantú syndrome with unique vascular abnormalities - support for the role of K(ATP) channels in this condition.
Eur J Med Genet,
2013
Dec
, 56 (678-82).
62
Novaković R
et al.
The effect of resveratrol on contractility of non-pregnant rat uterus: the contribution of K(+) channels.
J. Physiol. Pharmacol.,
2013
Dec
, 64 (795-805).
63
Rufino AT
et al.
Expression and function of K(ATP) channels in normal and osteoarthritic human chondrocytes: possible role in glucose sensing.
J. Cell. Biochem.,
2013
Aug
, 114 (1879-89).
64
Li A
et al.
Hypotension due to Kir6.1 gain-of-function in vascular smooth muscle.
J Am Heart Assoc,
2013
Aug
, 2 (e000365).
65
Dong YF
et al.
Kir6.1 knockdown aggravates cerebral ischemia/reperfusion-induced neural injury in mice.
CNS Neurosci Ther,
2013
Aug
, 19 (617-24).
66
Cameron JS
et al.
Cardiac K(ATP) channel alterations associated with acclimation to hypoxia in goldfish (Carassius auratus L.).
Comp. Biochem. Physiol., Part A Mol. Integr. Physiol.,
2013
Apr
, 164 (554-64).
67
Yang H
et al.
The antiepileptic effect of the glycolytic inhibitor 2-deoxy-D-glucose is mediated by upregulation of K(ATP) channel subunits Kir6.1 and Kir6.2.
Neurochem. Res.,
2013
Apr
, 38 (677-85).
68
Molina-Navarro MM
et al.
Differential gene expression of cardiac ion channels in human dilated cardiomyopathy.
PLoS ONE,
2013
, 8 (e79792).
69
Liu Y
et al.
Actions of hydrogen sulfide and ATP-sensitive potassium channels on colonic hypermotility in a rat model of chronic stress.
PLoS ONE,
2013
, 8 (e55853).
70
Núñez M
et al.
Glibenclamide inhibits cell growth by inducing G0/G1 arrest in the human breast cancer cell line MDA-MB-231.
BMC Pharmacol Toxicol,
2013
, 14 (6).
71
Yang JZ
et al.
Iptakalim enhances adult mouse hippocampal neurogenesis via opening Kir6.1-composed K-ATP channels expressed in neural stem cells.
CNS Neurosci Ther,
2012
Sep
, 18 (737-44).
72
Delaney JT
et al.
A KCNJ8 mutation associated with early repolarization and atrial fibrillation.
Europace,
2012
Oct
, 14 (1428-32).
73
Yang Y
et al.
Prolonged exposure to methylglyoxal causes disruption of vascular KATP channel by mRNA instability.
Am. J. Physiol., Cell Physiol.,
2012
Nov
15
, 303 (C1045-54).
74
López-Alonso JP
et al.
NMR and fluorescence studies of drug binding to the first nucleotide binding domain of SUR2A.
Biochemistry,
2012
Nov
13
, 51 (9211-22).
75
Mele A
et al.
Opening/blocking actions of pyruvate kinase antibodies on neuronal and muscular KATP channels.
Pharmacol. Res.,
2012
Nov
, 66 (401-8).
76
Zhao Y
et al.
[Activation of SUR2B/Kir6.1-type K(ATP) channels protects glomerular endothelial, mesangial and tubular epithelial cells against oleic acid renal damage].
Zhongguo Ying Yong Sheng Li Xue Za Zhi,
2012
Nov
, 28 (572-6).
77
Ekman M
et al.
Association of muscarinic M₃ receptors and Kir6.1 with caveolae in human detrusor muscle.
Eur. J. Pharmacol.,
2012
May
15
, 683 (238-45).
78
Liu J
et al.
OccK channels from Pseudomonas aeruginosa exhibit diverse single-channel electrical signatures but conserved anion selectivity.
Biochemistry,
2012
Mar
20
, 51 (2319-30).
79
Sala-Rabanal M
et al.
On potential interactions between non-selective cation channel TRPM4 and sulfonylurea receptor SUR1.
J. Biol. Chem.,
2012
Mar
16
, 287 (8746-56).
80
Troncoso Brindeiro CM
et al.
Tempol prevents altered K(+) channel regulation of afferent arteriolar tone in diabetic rat kidney.
Hypertension,
2012
Mar
, 59 (657-64).
81
Ben-Ari S
et al.
Similar cation channels mediate protection from cerebellar exitotoxicity by exercise and inheritance.
J. Cell. Mol. Med.,
2012
Mar
, 16 (555-68).
82
Nakagawa Y
et al.
Enhancement of liver regeneration by adenosine triphosphate-sensitive K⁺ channel opener (diazoxide) after partial hepatectomy.
Transplantation,
2012
Jun
15
, 93 (1094-100).
83
Park WS
et al.
Alteration of ATP-sensitive K+ channels in rabbit aortic smooth muscle during left ventricular hypertrophy.
Am. J. Physiol., Cell Physiol.,
2012
Jul
15
, 303 (C170-8).
84
Raeis-Dauvé V
et al.
Increased expression of adenosine triphosphate-sensitive K+ channels in mitral dysfunction: mechanically stimulated transcription and hypoxia-induced protein stability?
J. Am. Coll. Cardiol.,
2012
Jan
24
, 59 (390-6).
85
Ploug KB
et al.
K(ATP) channel openers in the trigeminovascular system.
Cephalalgia,
2012
Jan
, 32 (55-65).
86
Nie L
et al.
Properties and functions of KATP during mouse perinatal development.
Biochem. Biophys. Res. Commun.,
2012
Feb
3
, 418 (74-80).
87
Shi WW
et al.
K(ATP) channel action in vascular tone regulation: from genetics to diseases.
Sheng Li Xue Bao,
2012
Feb
25
, 64 (1-13).
88
Aziz Q
et al.
Regulation of the ATP-sensitive potassium channel subunit, Kir6.2, by a Ca2+-dependent protein kinase C.
J. Biol. Chem.,
2012
Feb
24
, 287 (6196-207).
89
Kawano T
et al.
Dexmedetomidine directly inhibits vascular ATP-sensitive potassium channels.
Life Sci.,
2012
Feb
13
, 90 (272-7).
90
Liu Y
et al.
A soluble epoxide hydrolase inhibitor--8-HUDE increases pulmonary vasoconstriction through inhibition of K(ATP) channels.
Pulm Pharmacol Ther,
2012
Feb
, 25 (69-76).
91
Ahmad Waza A
et al.
Adenosine-triphosphate-sensitive K+ channel (Kir6.1): a novel phosphospecific interaction partner of connexin 43 (Cx43).
Exp. Cell Res.,
2012
Dec
10
, 318 (2559-66).
92
De Bock M
et al.
Connexin 43 hemichannels contribute to cytoplasmic Ca2+ oscillations by providing a bimodal Ca2+-dependent Ca2+ entry pathway.
J. Biol. Chem.,
2012
Apr
6
, 287 (12250-66).
93
Barajas-Martinez H
et al.
Molecular genetic and functional association of Brugada and early repolarization syndromes with S422L missense mutation in KCNJ8.
Heart Rhythm,
2012
Apr
, 9 (548-55).
94
Leung J
et al.
[The ABC of abscisic acid action in plant drought stress responses].
Biol Aujourdhui,
2012
, 206 (301-12).
95
Bao L
et al.
Unique Properties of the ATP-Sensitive K+ Channel in the Mouse Ventricular Cardiac Conduction System.
,
2011
Oct
9
, ().
96
Wu XF
et al.
Reopening of ATP-sensitive potassium channels reduces neuropathic pain and regulates astroglial gap junctions in the rat spinal cord.
Pain,
2011
Nov
, 152 (2605-15).
97
Pandit SV
et al.
Left-to-right ventricular differences in I(KATP) underlie epicardial repolarization gradient during global ischemia.
Heart Rhythm,
2011
Nov
, 8 (1732-9).
99
Yang Y
et al.
Molecular basis and structural insight of vascular K(ATP) channel gating by S-glutathionylation.
J. Biol. Chem.,
2011
Mar
18
, 286 (9298-307).
100
Gojkovic-Bukarica L
et al.
Effect of potassium channel opener pinacidil on the contractions elicited electrically or by noradrenaline in the human radial artery.
Eur. J. Pharmacol.,
2011
Mar
11
, 654 (266-73).
101
Wang L
et al.
The protective roles of mitochondrial ATP-sensitive potassium channels during hypoxia-ischemia-reperfusion in brain.
Neurosci. Lett.,
2011
Mar
10
, 491 (63-7).
102
Gojkovic-Bukarica LC
et al.
The effects of potassium channel opener P1075 on the human saphenous vein and human internal mammary artery.
J. Cardiovasc. Pharmacol.,
2011
Jun
, 57 (648-55).
104
Eleftherianos I
et al.
ATP-sensitive potassium channel (K(ATP))-dependent regulation of cardiotropic viral infections.
Proc. Natl. Acad. Sci. U.S.A.,
2011
Jul
19
, 108 (12024-9).
105
Menozzi A
et al.
Diazoxide attenuates indomethacin-induced small intestinal damage in the rat.
Eur. J. Pharmacol.,
2011
Jan
10
, 650 (378-83).
106
Yang ZW
et al.
Role of vascular K(ATP) channels in blood pressure variability after sinoaortic denervation in rats.
Acta Pharmacol. Sin.,
2011
Feb
, 32 (194-200).
107
Lang V
et al.
The molecular genetics of sulfonylurea receptors in the pathogenesis and treatment of insulin secretory disorders and type 2 diabetes.
Curr. Diab. Rep.,
2011
Dec
, 11 (543-51).
108
Han XH
et al.
Astragaloside IV regulates expression of ATP-sensitive potassium channel subunits after ischemia-reperfusion in rat ventricular cardiomyocytes.
J Tradit Chin Med,
2011
Dec
, 31 (321-6).
109
Zhang X
et al.
[The short duration functional electrical stimuli do not cause mRNA expression change of K(ATP) channel and acute inflammation cytokine in recurrent laryngeal nerve].
Lin Chung Er Bi Yan Hou Tou Jing Wai Ke Za Zhi,
2011
Dec
, 25 (1131-4).
110
Kawahito S
et al.
Molecular mechanisms of the inhibitory effects of clonidine on vascular adenosine triphosphate-sensitive potassium channels.
Anesth. Analg.,
2011
Dec
, 113 (1374-80).
111
Kim D
et al.
Characterization of an ATP-sensitive K(+) channel in rat carotid body glomus cells.
Respir Physiol Neurobiol,
2011
Aug
15
, 177 (247-55).
112
Kajioka S
et al.
Diphosphate regulation of adenosine triphosphate sensitive potassium channel in human bladder smooth muscle cells.
J. Urol.,
2011
Aug
, 186 (736-44).
113
Benamer N
et al.
Electrophysiological and functional effects of sphingosine-1-phosphate in mouse ventricular fibroblasts.
Biochem. Biophys. Res. Commun.,
2011
Apr
29
, 408 (6-11).
114
Prüss H
et al.
Potassium channel expression in adult murine neural progenitor cells.
Neuroscience,
2011
Apr
28
, 180 (19-29).
115
Niu K
et al.
Sex differences in the contribution of ATP-sensitive K+ channels in trigeminal ganglia under an acute muscle pain condition.
Neuroscience,
2011
Apr
28
, 180 (344-52).
116
Zhou M
et al.
Different localization of ATP sensitive K+ channel subunits in rat testis.
Anat Rec (Hoboken),
2011
Apr
, 294 (729-37).
117
Sudhir R
et al.
Ageing-induced decline in physical endurance in mice is associated with decrease in cardiac SUR2A and increase in cardiac susceptibility to metabolic stress: therapeutic prospects for up-regulation of SUR2A.
Biogerontology,
2011
Apr
, 12 (147-55).
118
Risher WC
et al.
Dibucaine mitigates spreading depolarization in human neocortical slices and prevents acute dendritic injury in the ischemic rodent neocortex.
PLoS ONE,
2011
, 6 (e22351).
119
Xu C
et al.
Expression of ATP-sensitive potassium channels in human pregnant myometrium.
Reprod. Biol. Endocrinol.,
2011
, 9 (35).
120
Arredouani A
et al.
An emerging role for NAADP-mediated Ca2+ signaling in the pancreatic β-cell.
Islets,
2010 Sep-Oct
, 2 (323-30).
121
Davies LM
et al.
Interaction with caveolin-1 modulates vascular ATP-sensitive potassium (KATP) channel activity.
J. Physiol. (Lond.),
2010
Sep
1
, 588 (3255-66).
122
Pan Z
et al.
Targeting hypertension with a new adenosine triphosphate-sensitive potassium channel opener iptakalim.
J. Cardiovasc. Pharmacol.,
2010
Sep
, 56 (215-28).
123
Fischer A
et al.
Synthesis of benzofuran, benzothiophene, and benzothiazole-based thioamides and their evaluation as K(ATP) channel openers.
ChemMedChem,
2010
Oct
4
, 5 (1749-59).
124
Tang Y
et al.
Activation of SUR2B/Kir6.1 subtype of adenosine triphosphate-sensitive potassium channel improves pressure overload-induced cardiac remodeling via protecting endothelial function.
J. Cardiovasc. Pharmacol.,
2010
Oct
, 56 (345-53).
125
Du Q
et al.
Human oocytes express ATP-sensitive K(+) channels.
Hum. Reprod.,
2010
Nov
, 25 (2774-82).
126
Aziz Q
et al.
Phenformin has a direct inhibitory effect on the ATP-sensitive potassium channel.
Eur. J. Pharmacol.,
2010
May
25
, 634 (26-32).
127
Jiang B
et al.
Molecular mechanism for H(2)S-induced activation of K(ATP) channels.
Antioxid. Redox Signal.,
2010
May
15
, 12 (1167-78).
128
Raeis V
et al.
Central venous hypoxemia is a determinant of human atrial ATP-sensitive potassium channel expression: evidence for a novel hypoxia-inducible factor 1alpha-Forkhead box class O signaling pathway.
Hypertension,
2010
May
, 55 (1186-92).
129
Parsons MP
et al.
ATP-sensitive potassium channel-mediated lactate effect on orexin neurons: implications for brain energetics during arousal.
J. Neurosci.,
2010
Jun
16
, 30 (8061-70).
130
Medeiros-Domingo A
et al.
Gain-of-Function Mutation, S422L, in the KCNJ8-Encoded Cardiac K ATP Channel Kir6.1 as a Pathogenic Substrate for J Wave Syndromes.
,
2010
Jun
14
, ().
131
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