Kv1.2

1

Jorgensen C et al. Lateral Fenestrations in K(+)-Channels Explored Using Molecular Dynamics Simulations.
Mol. Pharm., 2016 May 26 , ().

2

Olamendi-Portugal T et al. Isolation, chemical and functional characterization of several new K(+)-channel blocking peptides from the venom of the scorpion Centruroides tecomanus.
Toxicon, 2016 Jun 1 , 115 (1-12).

3

Rash JE et al. KV1 channels identified in rodent myelinated axons, linked to Cx29 in innermost myelin: Support for electrically-active myelin in mammalian saltatory conduction.
J. Neurophysiol., 2016 Jan 13 , (jn.01077.2015).

4

Hivert B et al. Assembly of juxtaparanodes in myelinating DRG culture: Differential clustering of the Kv1/Caspr2 complex and scaffolding protein 4.1B.
Glia, 2016 Feb 3 , ().

5

Doczi MA et al. Developmental expression of Kv1 voltage-gated potassium channels in the avian hypothalamus.
Neurosci. Lett., 2016 Feb 1 , 616 (182-188).

6

Moldenhauer H et al. Effective pore size and radius of capture for K(+) ions in K-channels.
Sci Rep, 2016 , 6 (19893).

7

Kasahara K et al. Ion Concentration- and Voltage-Dependent Push and Pull Mechanisms of Potassium Channel Ion Conduction.
PLoS ONE, 2016 , 11 (e0150716).

8

Ye F et al. The Scorpion Toxin Analogue BmKTX-D33H as a Potential Kv1.3 Channel-Selective Immunomodulator for Autoimmune Diseases.
Toxins (Basel), 2016 , 8 ().

9

Wang X et al. A single-point mutation enhances dual functionality of a scorpion toxin.
Comp. Biochem. Physiol. C Toxicol. Pharmacol., 2015 Sep 7 , 179 (72-78).

10

Jorgensen C et al. In Silico Identification of PAP-1 Binding Sites in the Kv1.2 Potassium Channel.
Mol. Pharm., 2015 Mar 16 , ().

11

Ishida IG et al. Voltage-dependent gating and gating charge measurements in the Kv1.2 potassium channel.
J. Gen. Physiol., 2015 Mar 16 , ().

12

Tsantoulas C Emerging potassium channel targets for the treatment of pain.
Curr Opin Support Palliat Care, 2015 Jun , 9 (147-54).

13

Chang SC et al. N-Terminally extended analogues of the K⁺ channel toxin from Stichodactyla helianthus as potent and selective blockers of the voltage-gated potassium channel Kv1.3.
FEBS J., 2015 Jun , 282 (2247-59).

14

Wu KW et al. VEGF attenuated increase of outward delayed-rectifier potassium currents in hippocampal neurons induced by focal ischemia via PI3-K pathway.
Neuroscience, 2015 Jul 9 , 298 (94-101).

15

Daly D et al. Porphyrin derivatives as potent and selective blockers of neuronal Kv1 channels.
Chem. Commun. (Camb.), 2015 Jan 21 , 51 (1066-9).

16

Wang X et al. Mesomartoxin, a new K(v)1.2-selective scorpion toxin interacting with the channel selectivity filter.
Biochem. Pharmacol., 2015 Jan 15 , 93 (232-9).

17

Xiang F et al. Plectasin, first animal toxin-like fungal defensin blocking potassium channels through recognizing channel pore region.
Toxins (Basel), 2015 Jan , 7 (34-42).

18

Baronas VA et al. Use-dependent activation of neuronal kv1.2 channel complexes.
J. Neurosci., 2015 Feb 25 , 35 (3515-24).

19

Konoki K et al. Evaluation of gambierol and its analogs for their inhibition of human Kv1.2 and cytotoxicity.
Bioorg. Med. Chem. Lett., 2015 Feb 1 , 25 (514-8).

20

Wang YW et al. Inhibitory effects of imperatorin on voltage-gated K(+) channels and ATP-sensitive K(+) channels.
Pharmacol Rep, 2015 Feb , 67 (134-9).

21

Pena SD et al. Ataxia and myoclonic epilepsy due to a heterozygous new mutation in KCNA2: proposal for a new channelopathy.
Clin. Genet., 2015 Feb , 87 (e1-3).

22

Oliván-Viguera A et al. A novel pan-negative-gating modulator of KCa2/3 channels, fluoro-di-benzoate, RA-2, inhibits endothelium-derived hyperpolarization-type relaxation in coronary artery and produces bradycardia in vivo.
Mol. Pharmacol., 2015 Feb , 87 (338-48).

23

Zhao R et al. Designer and natural peptide toxin blockers of the KcsA potassium channel identified by phage display.
Proc. Natl. Acad. Sci. U.S.A., 2015 Dec 15 , 112 (E7013-21).

24

Kole MJ et al. Selective Loss of Presynaptic Potassium Channel Clusters at the Cerebellar Basket Cell Terminal Pinceau in Adam11 Mutants Reveals Their Role in Ephaptic Control of Purkinje Cell Firing.
J. Neurosci., 2015 Aug 12 , 35 (11433-44).

25

Smith KE et al. Phosphoinositide Modulation of Heteromeric Kv1 Channels Adjusts Output of Spiral Ganglion Neurons from Hearing Mice.
J. Neurosci., 2015 Aug 12 , 35 (11221-32).

26

Chen J et al. SjAPI-2 is the first member of a new neurotoxin family with Ascaris-type fold and KCNQ1 inhibitory activity.
Int. J. Biol. Macromol., 2015 Aug , 79 (504-10).

27

Du Y et al. Rotational Symmetry of Two Pyrethroid Receptor Sites in the Mosquito Sodium Channel.
Mol. Pharmacol., 2015 Aug , 88 (273-80).

28

Díaz-Franulic I et al. Pore dimensions and the role of occupancy in unitary conductance of Shaker K channels.
J. Gen. Physiol., 2015 Aug , 146 (133-46).

29

Drögemöller BI Maintaining the balance: both gain- and loss-of-function KCNA2 mutants cause epileptic encephalopathy.
Clin. Genet., 2015 Aug , 88 (137-9).

30

Steinmann ME et al. A heteromeric potassium channel involved in the modulation of the plasma membrane potential is essential for the survival of African trypanosomes.
FASEB J., 2015 Apr 13 , ().

31

Lee JY et al. The role of K⁺ conductances in regulating membrane excitability in human gastric corpus smooth muscle.
Am. J. Physiol. Gastrointest. Liver Physiol., 2015 Apr 1 , 308 (G625-33).

32

Syrbe S et al. De novo loss- or gain-of-function mutations in KCNA2 cause epileptic encephalopathy.
Nat. Genet., 2015 Apr , 47 (393-9).

33

Guedon JM et al. Current gene therapy using viral vectors for chronic pain.
Mol Pain, 2015 , 11 (27).

34

ElFessi-Magouri R et al. Characterization of Kbot21 Reveals Novel Side Chain Interactions of Scorpion Toxins Inhibiting Voltage-Gated Potassium Channels.
PLoS ONE, 2015 , 10 (e0137611).

35

Bartok A et al. An engineered scorpion toxin analogue with improved Kv1.3 selectivity displays reduced conformational flexibility.
Sci Rep, 2015 , 5 (18397).

36

Kesters D et al. Structure of the SthK carboxy-terminal region reveals a gating mechanism for cyclic nucleotide-modulated ion channels.
PLoS ONE, 2015 , 10 (e0116369).

37

Bartok A et al. Margatoxin is a non-selective inhibitor of human Kv1.3 K(+) channels.
Toxicon, 2014 Sep , 87 (6-16).

38

Carrisoza-Gaytán R et al. Differential expression of the Kv1 voltage-gated potassium channel family in the rat nephron.
J. Mol. Histol., 2014 Oct , 45 (583-97).

39

Chen R et al. Mechanisms and energetics of potassium channel block by local anesthetics and antifungal agents.
Biochemistry, 2014 Nov 4 , 53 (6786-92).

40

Chater TE Exciting endocytosis of Kv1.2--intrinsic plasticity in CA3.
J. Physiol. (Lond.), 2014 May 15 , 592 (2039-40).

41

Kasimova MA et al. Voltage-gated ion channel modulation by lipids: insights from molecular dynamics simulations.
Biochim. Biophys. Acta, 2014 May , 1838 (1322-31).

42

Proepper C et al. The Kvβ2 subunit of voltage-gated potassium channels is interacting with ProSAP2/Shank3 in the PSD.
Neuroscience, 2014 Mar 7 , 261 (133-43).

43

Cerni FA et al. Electrophysiological characterization of Ts6 and Ts7, K⁺ channel toxins isolated through an improved Tityus serrulatus venom purification procedure.
Toxins (Basel), 2014 Mar , 6 (892-913).

44

Li HX et al. GATA-4 induces changes in electrophysiological properties of rat mesenchymal stem cells.
Biochim. Biophys. Acta, 2014 Jun , 1840 (2060-9).

45

Luna-Ramírez K et al. Structure, molecular modeling, and function of the novel potassium channel blocker urotoxin isolated from the venom of the Australian scorpion Urodacus yaschenkoi.
Mol. Pharmacol., 2014 Jul , 86 (28-41).

46

Sapay N et al. Rebuilding a macromolecular membrane complex at the atomic scale: Case of the Kir6.2 potassium channel coupled to the muscarinic acetylcholine receptor m2.
Proteins, 2014 Jan 27 , ().

47

Barry J et al. Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
Dev. Cell, 2014 Jan 27 , 28 (117-31).

48

Kim I et al. Coarse-grained simulations of the gating current in the voltage-activated Kv1.2 channel.
Proc. Natl. Acad. Sci. U.S.A., 2014 Jan 24 , ().

49

Çolakoğlu G et al. Contactin-1 regulates myelination and nodal/paranodal domain organization in the central nervous system.
Proc. Natl. Acad. Sci. U.S.A., 2014 Jan 21 , 111 (E394-403).

50

Kariev AM et al. The open gate of the K(V)1.2 channel: quantum calculations show the key role of hydration.
Biophys. J., 2014 Feb 4 , 106 (548-55).

51

Fuchs JR et al. Cerebellar secretin modulates eyeblink classical conditioning.
Learn. Mem., 2014 Dec , 21 (668-75).

52

Lutz BM et al. Noncoding RNAs: new players in chronic pain.
Anesthesiology, 2014 Aug , 121 (409-17).

53

Moore CL et al. Protein kinase A-phosphorylated KV1 channels in PSD95 signaling complex contribute to the resting membrane potential and diameter of cerebral arteries.
Circ. Res., 2014 Apr 11 , 114 (1258-67).

54

Galea CA et al. Domain structure and function of matrix metalloprotease 23 (MMP23): role in potassium channel trafficking.
Cell. Mol. Life Sci., 2014 Apr , 71 (1191-210).

55

Li Z et al. Exercise training reverses alterations in Kv and BKCa channel molecular expression in thoracic aorta smooth muscle cells from spontaneously hypertensive rats.
J. Vasc. Res., 2014 , 51 (447-57).

56

Heler R et al. Homology model and targeted mutagenesis identify critical residues for arachidonic acid inhibition of Kv4 channels.
Channels (Austin), 2013 Mar-Apr , 7 (74-84).

57

Fowler PW et al. Detailed Examination of a Single Conduction Event in a Potassium Channel.
J Phys Chem Lett, 2013 Sep 19 , 4 (3104-3109).

58

Li P et al. The gating charge pathway of an epilepsy-associated potassium channel accommodates chemical ligands.
Cell Res., 2013 Sep , 23 (1106-18).

59

Khalili-Araghi F et al. Molecular dynamics simulations of membrane proteins under asymmetric ionic concentrations.
J. Gen. Physiol., 2013 Oct , 142 (465-75).

60

Orts DJ et al. BcsTx3 is a founder of a novel sea anemone toxin family of potassium channel blocker.
FEBS J., 2013 Oct , 280 (4839-52).

61

D'Adamo MC et al. 5-HT2 receptors-mediated modulation of voltage-gated K+ channels and neurophysiopathological correlates.
Exp Brain Res, 2013 Oct , 230 (453-62).

62

Hyun JH et al. Activity-dependent downregulation of D-type K+ channel subunit Kv1.2 in rat hippocampal CA3 pyramidal neurons.
J. Physiol. (Lond.), 2013 Nov 15 , 591 (5525-40).

63

Tarek M et al. Omega Currents in Voltage-Gated Ion Channels: What Can We Learn from Uncovering the Voltage-Sensing Mechanism Using MD Simulations?
Acc. Chem. Res., 2013 May 22 , ().

64

Jensen MØ et al. Atomic-level simulation of current-voltage relationships in single-file ion channels.
J. Gen. Physiol., 2013 May , 141 (619-32).

65

Kendel Y et al. Venomous secretions from marine snails of the Terebridae family target acetylcholine receptors.
Toxins (Basel), 2013 May , 5 (1043-50).

66

Hao J et al. Kv1.1 channels act as mechanical brake in the senses of touch and pain.
Neuron, 2013 Mar 6 , 77 (899-914).

67

Chen YH et al. Coumarsabin hastens C-type inactivation gating of voltage-gated K⁺ channels.
Eur. J. Pharmacol., 2013 Mar 15 , 704 (41-8).

68

Nguyen HM et al. Intracellular trafficking of the KV1.3 potassium channel is regulated by the prodomain of a matrix metalloprotease.
J. Biol. Chem., 2013 Mar 1 , 288 (6451-64).

69

Feng J et al. Expression and characterization of a novel scorpine-like peptide Ev37, from the scorpion Euscorpiops validus.
Protein Expr. Purif., 2013 Mar , 88 (127-33).

70

Orts DJ et al. Biochemical and electrophysiological characterization of two sea anemone type 1 potassium toxins from a geographically distant population of Bunodosoma caissarum.
Mar Drugs, 2013 Mar , 11 (655-79).

71

Kourrich S et al. Dynamic interaction between sigma-1 receptor and Kv1.2 shapes neuronal and behavioral responses to cocaine.
Cell, 2013 Jan 17 , 152 (236-47).

72

You MH et al. Voltage-gated K+ channels in adipogenic differentiation of bone marrow-derived human mesenchymal stem cells.
Acta Pharmacol. Sin., 2013 Jan , 34 (129-36).

73

Klement G et al. Characterization of a ligand binding site in the human transient receptor potential ankyrin 1 pore.
Biophys. J., 2013 Feb 19 , 104 (798-806).

74

Hilder TA et al. Conductance properties of the inwardly rectifying channel, Kir3.2: molecular and Brownian dynamics study.
Biochim. Biophys. Acta, 2013 Feb , 1828 (471-8).

75

Yang T et al. An Allosteric Mechanism for Drug Block of the Human Cardiac Potassium Channel KCNQ1.
Mol. Pharmacol., 2013 Feb , 83 (481-9).

76

Zhang Q et al. Dynamic PIP2 interactions with voltage sensor elements contribute to KCNQ2 channel gating.
Proc. Natl. Acad. Sci. U.S.A., 2013 Dec 10 , 110 (20093-8).

77

Takahashi R et al. Hyperexcitability of bladder afferent neurons associated with reduction of Kv1.4 α-subunit in rats with spinal cord injury.
J. Urol., 2013 Dec , 190 (2296-304).

78

Kyle BD et al. The Large Conductance, Calcium-activated K(+) (BK) Channel is regulated by Cysteine String Protein.
Sci Rep, 2013 Aug 15 , 3 (2447).

79

Al-Sabi A et al. Pharmacological characteristics of Kv1.1- and Kv1.2-containing channels are influenced by the stoichiometry and positioning of their α subunits.
Biochem. J., 2013 Aug 15 , 454 (101-8).

80

Zhao X et al. A long noncoding RNA contributes to neuropathic pain by silencing Kcna2 in primary afferent neurons.
Nat. Neurosci., 2013 Aug , 16 (1024-31).

81

Sand R et al. Fine-tuning of voltage sensitivity of the Kv1.2 potassium channel by interhelix loop dynamics.
J. Biol. Chem., 2013 Apr 5 , 288 (9686-95).

82

Kasahara K et al. Ion concentration-dependent ion conduction mechanism of a voltage-sensitive potassium channel.
PLoS ONE, 2013 , 8 (e56342).

83

Liu HB et al. Chukrasones A and B: potential Kv1.2 potassium channel blockers with new skeletons from Chukrasia tabularis.
Org. Lett., 2012 Sep 7 , 14 (4438-41).

84

Monticelli L et al. Interaction of C70 fullerene with the Kv1.2 potassium channel.
Phys Chem Chem Phys, 2012 Sep 28 , 14 (12526-33).

85

Ge L et al. Glioma big potassium channel expression in human cancers and possible T cell epitopes for their immunotherapy.
J. Immunol., 2012 Sep 1 , 189 (2625-34).

86

Durdagi S et al. Modeling of open, closed, and open-inactivated states of the hERG1 channel: structural mechanisms of the state-dependent drug binding.
J Chem Inf Model, 2012 Oct 22 , 52 (2760-74).

87

Gardner A et al. Myelination of rodent hippocampal neurons in culture.
Nat Protoc, 2012 Oct , 7 (1774-82).

88

Barber AF et al. Novel activation of voltage-gated K(+) channels by sevoflurane.
J. Biol. Chem., 2012 Nov 23 , 287 (40425-32).

89

Goodchild SJ et al. Basis for allosteric open-state stabilization of voltage-gated potassium channels by intracellular cations.
J. Gen. Physiol., 2012 Nov , 140 (495-511).

90

Labro AJ et al. Molecular mechanism for depolarization-induced modulation of Kv channel closure.
J. Gen. Physiol., 2012 Nov , 140 (481-93).

91

Xie S et al. Identification of a new specific Kv1.3 channel blocker, Ctri9577, from the scorpion Chaerilus tricostatus.
, 2012 May 8 , ().

92

Zenker J et al. Altered distribution of juxtaparanodal kv1.2 subunits mediates peripheral nerve hyperexcitability in type 2 diabetes mellitus.
J. Neurosci., 2012 May 30 , 32 (7493-8).

93

He S et al. Increased Kv1 channel expression may contribute to decreased sIPSC frequency following chronic inhibition of NR2B-containing NMDAR.
Neuropsychopharmacology, 2012 May , 37 (1338-56).

94

Chen R et al. Engineering a potent and specific blocker of voltage-gated potassium channel Kv1.3, a target for autoimmune diseases.
Biochemistry, 2012 Mar 6 , 51 (1976-82).

95

Wacker SJ et al. Identification of Selective Inhibitors of the Potassium Channel Kv1.1-1.2((3)) by High-Throughput Virtual Screening and Automated Patch Clamp.
, 2012 Mar 30 , ().

96

Lee SK et al. Single cell analysis of voltage-gated potassium channels that determines neuronal types of rat hypothalamic paraventricular nucleus neurons.
Neuroscience, 2012 Mar 15 , 205 (49-62).

97

Ebner-Bennatan S et al. Multi-faceted modulation of K+ channels by protein tyrosine phosphatase epsilon tunes neuronal excitability.
, 2012 Jun 21 , ().

98

Van Poucke M et al. Experimental validation of in silico predicted KCNA1, KCNA2, KCNA6 and KCNQ2 genes for association studies of peripheral nerve hyperexcitability syndrome in Jack Russell Terriers.
Neuromuscul. Disord., 2012 Jun , 22 (558-65).

99

Robbins CA et al. Kv1.1 and Kv1.2: Similar channels, different seizure models.
Epilepsia, 2012 Jun , 53 Suppl 1 (134-41).

100

Li P et al. Comparison of the effects of DC031050, a class III antiarrhythmic agent, on hERG channel and three neuronal potassium channels.
Acta Pharmacol. Sin., 2012 Jun , 33 (728-36).

101

Williams MR et al. Cellular mechanisms and behavioral consequences of Kv1.2 regulation in the rat cerebellum.
J. Neurosci., 2012 Jul 4 , 32 (9228-37).

102

Iwasaki S et al. Developmental changes in the expression of Κv1 potassium channels in rat vestibular ganglion cells.
Brain Res., 2012 Jan 6 , 1429 (29-35).

103

Gordon D et al. Rigid Body Brownian Dynamics as a Tool for Studying Ion Channel Blockers.
, 2012 Jan 18 , ().

104

Khalili-Araghi F et al. Molecular Dynamics Investigation of the ω-Current in the Kv1.2 Voltage Sensor Domains.
Biophys. J., 2012 Jan 18 , 102 (258-67).

105

Gu Y et al. Alternative splicing regulates kv3.1 polarized targeting to adjust maximal spiking frequency.
J. Biol. Chem., 2012 Jan 13 , 287 (1755-69).

106

Fan Z et al. Electrostatic interaction between inactivation ball and T1-S1 linker region of Kv1.4 channel.
Biochim. Biophys. Acta, 2012 Jan , 1818 (55-63).

107

Liu HB et al. Kv1.2 potassium channel inhibitors from Chukrasia tabularis.
Org. Biomol. Chem., 2012 Feb 21 , 10 (1448-58).

108

Dryga A et al. Realistic simulation of the activation of voltage-gated ion channels.
, 2012 Feb 13 , ().

109

Wood ML et al. Water wires in atomistic models of the Hv1 proton channel.
Biochim. Biophys. Acta, 2012 Feb , 1818 (286-93).

110

Hald BO et al. BKCa and KV channels limit conducted vasomotor responses in rat mesenteric terminal arterioles.
Pflugers Arch., 2012 Feb , 463 (279-95).

111

Amaral C et al. Exploring conformational states of the bacterial voltage-gated sodium channel NavAb via molecular dynamics simulations.
Proc. Natl. Acad. Sci. U.S.A., 2012 Dec 26 , 109 (21336-41).

112

Ishii K et al. Endocytic regulation of voltage-dependent potassium channels in the heart.
J. Pharmacol. Sci., 2012 Dec 18 , 120 (264-9).

113

Dong Q et al. Hypoxia induces voltage-gated K+ (Kv) channel expression in pulmonary arterial smooth muscle cells through hypoxia-inducible factor-1 (HIF-1).
Bosn J Basic Med Sci, 2012 Aug , 12 (158-63).

114

Jukkola PI et al. K+ channel alterations in the progression of experimental autoimmune encephalomyelitis.
Neurobiol. Dis., 2012 Aug , 47 (280-93).

115

Rashid MH et al. Affinity and selectivity of ShK toxin for the Kv1 potassium channels from free energy simulations.
J Phys Chem B, 2012 Apr 26 , 116 (4812-22).

116

Henrion U et al. Tracking a complete voltage-sensor cycle with metal-ion bridges.
, 2012 Apr 25 , ().

117

Yang H et al. A Theoretical Model for Calculating Voltage Sensitivity of Ion Channels and the Application on Kv1.2 Potassium Channel.
Biophys. J., 2012 Apr 18 , 102 (1815-25).

118

Moreno C et al. Polyunsaturated Fatty acids modify the gating of kv channels.
Front Pharmacol, 2012 , 3 (163).

119

Yang XF et al. The antibody targeting the e314 Peptide of human kv1.3 pore region serves as a novel, potent and specific channel blocker.
PLoS ONE, 2012 , 7 (e36379).

120

Rodríguez-Menchaca AA et al. Dual Regulation of Voltage-Sensitive Ion Channels by PIP(2).
Front Pharmacol, 2012 , 3 (170).

121

Chen R et al. Structural basis of the selective block of Kv1.2 by maurotoxin from computer simulations.
PLoS ONE, 2012 , 7 (e47253).

122

Sánchez-Ponce D et al. Developmental expression of Kv potassium channels at the axon initial segment of cultured hippocampal neurons.
PLoS ONE, 2012 , 7 (e48557).

123

Shakkottai VG et al. Early changes in cerebellar physiology accompany motor dysfunction in the polyglutamine disease spinocerebellar ataxia type 3.
J. Neurosci., 2011 Sep 7 , 31 (13002-14).

124

Jenkins PM et al. Subunit-dependent axonal trafficking of distinct alpha heteromeric potassium channel complexes.
J. Neurosci., 2011 Sep 14 , 31 (13224-35).

125

Khabiri M et al. Charybdotoxin unbinding from the mKv1.3 potassium channel: a combined computational and experimental study.
J Phys Chem B, 2011 Oct 6 , 115 (11490-500).

126

Fu Y et al. Paranodal myelin retraction in relapsing experimental autoimmune encephalomyelitis visualized by coherent anti-Stokes Raman scattering microscopy.
J Biomed Opt, 2011 Oct , 16 (106006).

127

Ferrer T et al. Molecular Coupling in the Human ether-a-go-go-related gene-1 (hERG1) K+ Channel Inactivation Pathway.
J. Biol. Chem., 2011 Nov 11 , 286 (39091-9).

128

Cazzin C et al. rKv1.2 overexpression in the central medial thalamic area decreases caffeine-induced arousal.
Genes Brain Behav., 2011 Nov , 10 (817-27).

129

Gu C et al. Clustering and activity tuning of Kv1 channels in myelinated Hippocampal axons.
, 2011 May 20 , ().

130

Cordero-Morales JF et al. A multipoint hydrogen-bond network underlying KcsA C-type inactivation.
Biophys. J., 2011 May 18 , 100 (2387-93).

131

Luo JL et al. Enhanced excitability and down-regulated voltage-gated potassium channels in colonic drg neurons from neonatal maternal separation rats.
J Pain, 2011 May , 12 (600-9).

132

Delemotte L et al. Intermediate states of the Kv1.2 voltage sensor from atomistic molecular dynamics simulations.
, 2011 Mar 28 , ().

133

Fulton S et al. Contribution of Kv1.2 voltage-gated potassium channel to D2 autoreceptor regulation of axonal dopamine overflow.
J. Biol. Chem., 2011 Mar 18 , 286 (9360-72).

134

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).

135

Camargos TS et al. The new kappa-KTx 2.5 from the scorpion Opisthacanthus cayaporum.
Peptides, 2011 Jul , 32 (1509-17).

136

Zeng R et al. Differentiation of Human Bone Marrow Mesenchymal Stem Cells into Neuron-like Cells in Vitro.
, 2011 Jan 25 , ().

137

Yi H et al. Differential molecular information of maurotoxin peptide recognizing IKCa and Kv1.2 channels explored by computational simulation.
, 2011 Jan 25 , 11 (3).

138

Popratiloff A et al. Expression of glutamate receptors and potassium channels in vestibular nuclei neurons during development of signal processing.
J Vestib Res, 2011 Jan 1 , 21 (21-31).

139

Chen Z et al. ImKTx1, a new Kv1.3 channel blocker with a unique primary structure.
, 2011 Feb 9 , ().

140

Du Y et al. Identification of new batrachotoxin-sensing residues in segment IIIS6 of sodium channel.
, 2011 Feb 8 , ().

141

Baştuğ T et al. Comparative Study of the Energetics of Ion Permeation in Kv1.2 and KcsA Potassium Channels.
Biophys. J., 2011 Feb 2 , 100 (629-36).

142

Zhu S et al. Molecular diversity and functional evolution of scorpion potassium channel toxins.
Mol. Cell Proteomics, 2011 Feb , 10 (M110.002832).

143

Han S et al. ImKTx88, a novel selective Kv1.3 channel blocker derived from the scorpion Isometrus maculates.
Toxicon, 2011 Feb , 57 (348-55).

144

Gordon D et al. Permeation and block of the Kv1.2 channel examined using brownian and molecular dynamics.
Biophys. J., 2011 Dec 7 , 101 (2671-8).

145

Shibuya K et al. Markedly reduced axonal potassium channel expression in human sporadic amyotrophic lateral sclerosis: An immunohistochemical study.
Exp. Neurol., 2011 Dec , 232 (149-53).

146

Dryga A et al. Coarse grained model for exploring voltage dependent ion channels.
, 2011 Aug 5 , ().

147

Rossokhin A et al. Why does the inner-helix mutation A413C double the stoichiometry of Kv1.3 channel block by emopamil but not by verapamil?
Mol. Pharmacol., 2011 Apr , 79 (681-91).

148

Deng YY et al. Role of microglia in the process of inflammation in the hypoxic developing brain.
Front Biosci (Schol Ed), 2011 , 3 (884-900).

149

Martel P et al. Role of Kv1 potassium channels in regulating dopamine release and presynaptic D2 receptor function.
PLoS ONE, 2011 , 6 (e20402).

150

Natarajan S et al. Evolutionary coupling in the K(V)1.2-beta(2) complex.
, 2010 Sep 29 , 4 ().

151

Chao CC et al. Control of ionic selectivity by a pore helix residue in the Kv1.2 channel.
, 2010 Sep 15 , ().

152

Cao XH et al. Reduction in voltage-gated K+ channel activity in primary sensory neurons in painful diabetic neuropathy: role of brain-derived neurotrophic factor.
J. Neurochem., 2010 Sep 1 , 114 (1460-75).

153

Zhong XZ et al. Participation of KCNQ (Kv7) potassium channels in myogenic control of cerebral arterial diameter.
J. Physiol. (Lond.), 2010 Sep 1 , 588 (3277-93).

154

Al-Sabi A et al. Arrangement of Kv1 alpha subunits dictates sensitivity to tetraethylammonium.
J. Gen. Physiol., 2010 Sep , 136 (273-82).

155

Madeja M et al. Overlapping binding sites of structurally different antiarrhythmics flecainide and propafenone in the subunit interface of potassium channel Kv2.1.
J. Biol. Chem., 2010 Oct 29 , 285 (33898-905).

156

Devaux J The C-terminal domain of aIV-spectrin is crucial for KCNQ2 aggregation and excitability at nodes of Ranvier.
, 2010 Oct 20 , ().

157

Xie G et al. A new Kv1.2 channelopathy underlying cerebellar ataxia.
J. Biol. Chem., 2010 Oct 15 , 285 (32160-73).

158

Waleh N et al. Patterns of gene expression in the ductus arteriosus are related to environmental and genetic risk factors for persistent ductus patency.
Pediatr. Res., 2010 Oct , 68 (292-7).

159

Delemotte L et al. Effect of sensor domain mutations on the properties of voltage-gated ion channels: molecular dynamics studies of the potassium channel kv1.2.
Biophys. J., 2010 Nov 3 , 99 (L72-4).

160

Chen R et al. Electrical injury alters ion channel expression levels and electrophysiological properties in rabbit dorsal root ganglia neurons.
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