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Ion channel (BASKET)
LE WE PMID CA
Ion channel (BASKET)1371Ionenkanal (allg)

4F2 LAT

Action potential

Aldolase A

ANK2

Ankyrin

AnkyrinG

Antibiotics (BASKET)

Arachidonic acid

ASCT2

ASIC1

beta Enolase

Biomembranes (BASKET)

Blood vessels (Permeability)

Cav1 1

Caveolin and caveoles

Cell volume

CFTR ABCC7

Cholesterol

Circadian clock

CLCN2 ClC2

Coccidiosis (Birds)

Connexin

Data base (Medicine Biology Pharmacology)

Data mining

Drug development

EAAT1

EAAT2

EAAT3

EAAT4

EAAT5

Enzyme structure and chemistry

Epoxyeicosatrienoic acid EET

Glucocorticoids

GluR6

GLUT1

Glycogenosis

GSK3

HCN1

HCN2

HCN3

HCN4

Heart (Arrhythmia)

Heart (Physiology)

Heart (Rhythmogenesis)

hERG

High throughput screening

Hypokaliemic periodic paralysis

Ion channel (BASKET)

Ion channel (Calcium T Type)

Ion channel (Calcium)

Ion channel (Potassium)

Ion channel (Sodium ENaC)

Ion channel (Sodium)

Ion channel (TRP Family)

KCNK0

KCNQ1

KCNQ2

KCNQ3

KCNQ4

KCNQ5

Kir1 1 ROMK

Kv1 1

Kv1 2

Kv1 3

Kv1 4

Kv1 5

Lactate dehydrogenase

Lipid rafts and membrane microdomains

Long QT syndrome

Mechanotransduction

Membrane potential

Mineralocorticoids

Monensin

mTORC2

NaDC

Nanomedicine

NaPiIIb

Natural products

Nav1 4

Nav1 5

Nav1 7

NCC

Nedd4 2

Neoplasia (Carcinogenesis)

Nervous system (Inherited diseases)

Neurotoxins

NHE3

NKCC2

omega Agatoxin

P2X7

Pain (Neurophysiology)

Patch clamp

PepT2

pH (Intracellular)

Phosphatidlyinositol 4 5 bisphosphate 5 phosphatase

Phosphoglycerate kinase

Phosphoglycerate mutase

Phosphomannomutase 2 PMM2

Photoactivated Prodrugs

Physiology (BASKET)

Poisonous organisms

Protein (Posttranslational modification)

Protein (ptm S palmitoylation)

Protein kinase C

Proteomics

RAB

Receptor (Acetylcholine nicotinic)

Receptor (P2X)

SCN5A

SGK1

SLC2A4 GLUT4

SLC5A1 SGLT1

SMIT

SN1

Structure det. tissue level to single molecule localization

Tarui s disease

TASK3

Transporter (BASKET)

TRPV1

TRPV4

TRPV5

TRPV6

Voltage sensing phosphatase VSP

VSOAC

1993  
1
Ion channels in vascular smooth muscle. Physiology and pharmacology.
[7505535] Anesthesiology 79(6): 1392-401 (1993)
1999  
2
Dynamic selectivity filters in ion channels.
[10482233] Neuron 23(4): 653-8 (1999)
1998  
3
An ingenious filter: the structural basis for ion channel selectivity.
[9620686] Neuron 20(5): 821-3 (1998)
1996  
4
Ion channels: too complex for rational drug design?
[8630249] Neuron 16(5): 913-9 (1996)
1996  
5
A structural vignette common to voltage sensors and conduction pores: canaliculi.
[8607990] Neuron 16(4): 717-22 (1996)
1995  
6
Pore loops: an emerging theme in ion channel structure.
[7538310] Neuron 14(5): 889-92 (1995)
2005  
7
Charge selectivity of the Cys-loop family of ligand-gated ion channels.
[15663470] J Neurochem 92(2): 217-25 (2005)
2004  
8
Potassium, sodium, calcium and glutamate-gated channels: pore architecture and ligand action.
[14756799] J Neurochem 88(4): 782-99 (2004)
2001  
9
Ion channel diseases of the central nervous system.
[11474425] CNS Drug Rev 7(2): 214-40 (2001)
2009  
10
2002  
11
Pharmacological rescue of mutant ion channels.
[12123759] Cardiovasc Res 55(2): 229-32 (2002)
1999  
12
From genes to channels: normal mechanisms.
[10533570] Cardiovasc Res 42(2): 318-26 (1999)
1996  
13
A list of vertebrate cardiac ionic currents nomenclature, properties, function and cloned equivalents.
[8881508] Cardiovasc Res 32(3): 455-81 (1996)
2008  
14
Arachidonic acid and ion channels: an update.
[18552881] Br J Pharmacol 155(1): 4-16 (2008)
2006  
15
2005  
16
International Union of Pharmacology. LI. Nomenclature and structure-function relationships of cyclic nucleotide-regulated channels.
[16382102] Pharmacol Rev 57(4): 455-62 (2005)
2005  
17
International Union of Pharmacology. L. Nomenclature and structure-function relationships of CatSper and two-pore channels.
[16382101] Pharmacol Rev 57(4): 451-4 (2005)
2005  
18
Overview of molecular relationships in the voltage-gated ion channel superfamily.
[16382097] Pharmacol Rev 57(4): 387-95 (2005)
2003  
19
International Union of Pharmacology. XLII. Compendium of voltage-gated ion channels: cyclic nucleotide-modulated channels.
[14657416] Pharmacol Rev 55(4): 587-9 (2003)
2000  
20
2006  
21
Understanding ion channel selectivity and gating and their role in cellular signalling.
[17216034] Mol Biosyst 2(11): 527-35 (2006)
2009  
22
Searching for interesting channels: pairing selection and molecular evolution methods to study ion channel structure and function.
[19603113] Mol Biosyst 5(8): 802-10 (2009)
2008  
23
Trafficking and cellular distribution of voltage-gated sodium channels.
[17988224] Traffic 9(1): 17-26 (2008)
2009  
24
Supramolecular assemblies and localized regulation of voltage-gated ion channels.
[19342611] Physiol Rev 89(2): 411-52 (2009)
2002  
25
Cyclic nucleotide-gated ion channels.
[12087135] Physiol Rev 82(3): 769-824 (2002)
2000  
26
The voltage sensor in voltage-dependent ion channels.
[10747201] Physiol Rev 80(2): 555-92 (2000)
1999  
27
Voltage-gated ion channels and hereditary disease.
[10508236] Physiol Rev 79(4): 1317-72 (1999)
2004  
28
Mechanosensitive ion channels: molecules of mechanotransduction.
[15159450] J Cell Sci 117(Pt 12): 2449-60 (2004)
2008  
29
Pore stability and gating in voltage-activated calcium channels.
[18849656] Channels (Austin) 2(2): 61-9 (2008)
2007  
30
Ion channel regulation by Ras, Rho, and Rab small GTPases.
[17959838] Exp Biol Med (Maywood) 232(10): 1258-65 (2007)
2001  
31
Ion pumps in polarized cells: sorting and regulation of the Na+, K+- and H+, K+-ATPases.
[11404365] J Biol Chem 276(32): 29617-20 (2001)
2000  
32
Crystallographic analyses of ion channels: lessons and challenges.
[10625597] J Biol Chem 275(2): 713-6 (2000)
1997  
33
Mechanism of ion transport across membranes. Bacteriorhodopsin as a prototype for proton pumps.
[9395442] J Biol Chem 272(50): 31209-12 (1997)
1999  
34
Ion channel genes and human neurological disease: recent progress, prospects, and challenges.
[10220366] Proc Natl Acad Sci U S A 96(9): 4759-66 (1999)
2005  
35
Voltage-gated ion channels.
[15668152] Curr Biol 15(2): R44-7 (2005)
2001  
36
Channel gating: twist to open.
[11369249] Curr Biol 11(9): R364-6 (2001)
1999  
37
Ion channels: structure of a molecular brake.
[10074448] Curr Biol 9(5): R173-5 (1999)
1995  
38
Ion-channel gating. Twist to open.
[7627551] Curr Biol 5(4): 373-5 (1995)
2004  
39
Structure of cation channels, revealed by single particle electron microscopy.
[15111105] FEBS Lett 564(3): 251-6 (2004)
2004  
40
L-type voltage-gated calcium channels: understanding function through structure.
[15111104] FEBS Lett 564(3): 245-50 (2004)
2004  
41
Structural basis for ion conduction and gating in ClC chloride channels.
[15111101] FEBS Lett 564(3): 229-33 (2004)
2003  
42
Ion channel gating: insights via molecular simulations.
[14630324] FEBS Lett 555(1): 85-90 (2003)
1998  
43
Voltage gating is a fundamental feature of porin and toxin beta-barrel membrane channels.
[9714531] FEBS Lett 431(3): 305-8 (1998)
1994  
44
Ion channel regulation by calmodulin binding.
[8070555] FEBS Lett 350(2-3): 155-8 (1994)
1994  
45
Structure, transmembrane topology and helix packing of P-type ion pumps.
[8206155] FEBS Lett 346(1): 32-8 (1994)
1993  
46
Ion channels: molecular basis of ion selectivity.
[7685711] FEBS Lett 325(1-2): 100-3 (1993)
2004  
47
Computational studies of membrane channels.
[15296727] Structure 12(8): 1343-51 (2004)
2002  
48
New structural perspectives on K(+) channel gating.
[12176380] Structure 10(8): 1027-9 (2002)
2001  
49
Noninvasive measurement of hydrogen and potassium ion flux from single cells and epithelial structures.
[11121371] Am J Physiol Cell Physiol 280(1): C1-11 (2001)
2000  
50
Properties of cytotoxic peptide-formed ion channels.
[10837335] Am J Physiol Cell Physiol 278(6): C1063-87 (2000)
2001  
51
Regulation of ion channels by protein tyrosine phosphorylation.
[11668044] Am J Physiol Heart Circ Physiol 281(5): H1835-62 (2001)
2003  
52
Regulation of ion channel structure and function by reactive oxygen-nitrogen species.
[14604848] Am J Physiol Lung Cell Mol Physiol 285(6): L1184-9 (2003)
2007  
53
Complex roles of PIP2 in the regulation of ion channels and transporters.
[17928411] Am J Physiol Renal Physiol 293(6): F1761-5 (2007)
2006  
54
Interaction of epithelial ion channels with the actin-based cytoskeleton.
[16926444] Am J Physiol Renal Physiol 291(6): F1113-22 (2006)
2002  
55
The neuronal channelopathies.
[12023309] Brain 125(Pt 6): 1177-95 (2002)
2006  
56
Transient receptor potential channels in cardiovascular function and disease.
[16857972] Circ Res 99(2): 119-31 (2006)
2004  
57
Regulation of ion channel expression.
[15087427] Circ Res 94(7): 874-83 (2004)
1996  
58
Inward rectification and implications for cardiac excitability.
[8603491] Circ Res 78(1): 1-7 (1996)
1993  
59
Molecular basis of permeation in voltage-gated ion channels.
[7679332] Circ Res 72(3): 491-6 (1993)
2002  
60
2002  
61
Ion channels: structural bioinformatics and modelling.
[12351578] Hum Mol Genet 11(20): 2425-33 (2002)
1997  
62
Phenotype variation and newcomers in ion channel disorders.
[9300659] Hum Mol Genet 6(10): 1679-85 (1997)
2007  
63
Molecular control of iron transport.
[17229910] J Am Soc Nephrol 18(2): 394-400 (2007)
2000  
64
Channelopathies: ion channel defects linked to heritable clinical disorders.
[11015449] J Med Genet 37(10): 729-40 (2000)
1998  
65
Ion channels and neurological disease: DNA based diagnosis is now possible, and ion channels may be important in common paroxysmal disorders.
[9771758] J Neurol Neurosurg Psychiatry 65(4): 427-31 (1998)
2008  
66
Inherited neuronal ion channelopathies: new windows on complex neurological diseases.
[19005038] J Neurosci 28(46): 11768-77 (2008)
2005  
67
1997  
68
Oxygen sensing by ion channels.
[9027721] Kidney Int 51(2): 454-61 (1997)
2008  
69
Diagnostics and therapy of muscle channelopathies--Guidelines of the Ulm Muscle Centre.
[19472919] Acta Myol 27(-): 98-113 (2008)
2007  
70
Tarui disease and distal glycogenoses: clinical and genetic update.
[18421897] Acta Myol 26(2): 105-7 (2007)
2002  
71
Counting channels: a tutorial guide on ion channel fluctuation analysis.
[12444005] Adv Physiol Educ 26(1-4): 327-41 (2002)
2004  
72
Ion homeostasis, channels, and transporters: an update on cellular mechanisms.
[15545343] Adv Physiol Educ 28(1-4): 143-54 (2004)
2004  
73
In the beginning, there was the cell: cellular homeostasis.
[15545341] Adv Physiol Educ 28(1-4): 135-8 (2004)
2008  
74
Channels active in the excitability of nerves and skeletal muscles across the neuromuscular junction: basic function and pathophysiology.
[18539851] Adv Physiol Educ 32(2): 127-35 (2008)
2002  
75
An ion channel 'addicted' to ether, alcohol and cocaine: the HERG potassium channel.
[11744008] Cardiovasc Res 53(1): 6-8 (2002)
2007  
76
Ion channels in death and differentiation of prostate cancer cells.
[17479110] Cell Death Differ 14(7): 1295-304 (2007)
2011  
77
Ion channel regulation by protein palmitoylation.
[21216969] J Biol Chem 286(11): 8709-16 (2011)
2010  
78
Use of venom peptides to probe ion channel structure and function.
[20189991] J Biol Chem 285(18): 13315-20 (2010)
2007  
79
A marriage of convenience: beta-subunits and voltage-dependent K+ channels.
[17606609] J Biol Chem 282(34): 24485-9 (2007)
2009  
80
Cyclic nucleotide-regulated cation channels.
[19054768] J Biol Chem 284(14): 9017-21 (2009)
2010  
81
Revealing the structural basis of action of hERG potassium channel activators and blockers.
[20643767] J Physiol 588(Pt 17): 3157-67 (2010)
2010  
82
Significance of SGK1 in the regulation of neuronal function.
[20530112] J Physiol 588(Pt 18): 3349-54 (2010)
2010  
83
Gating of two pore domain potassium channels.
[20566661] J Physiol 588(Pt 17): 3149-56 (2010)
2010  
84
Lipid microdomains and the regulation of ion channel function.
[20519314] J Physiol 588(Pt 17): 3169-78 (2010)
2010  
85
Neurological channelopathies: new insights into disease mechanisms and ion channel function.
[20375141] J Physiol 588(Pt 11): 1823-7 (2010)
2010  
86
Voltage-sensor mutations in channelopathies of skeletal muscle.
[20156847] J Physiol 588(Pt 11): 1887-95 (2010)
2010  
87
2010  
88
Muscle channelopathies: does the predicted channel gating pore offer new treatment insights for hypokalaemic periodic paralysis?
[20123788] J Physiol 588(Pt 11): 1879-86 (2010)
2008  
89
Store-operated channels: mechanisms and function.
[18593888] J Physiol 586(13): 3033 (2008)
2004  
90
Functional roles of cytoplasmic loops and pore lining transmembrane helices in the voltage-dependent inactivation of HVA calcium channels.
[12815185] J Physiol 554(Pt 2): 263-73 (2004)
2004  
91
Physiological modulation of inactivation in L-type Ca2+ channels: one switch.
[12824441] J Physiol 554(Pt 2): 275-83 (2004)
2010  
92
Atomic structure and dynamics of pentameric ligand-gated ion channels: new insight from bacterial homologues.
[19995852] J Physiol 588(Pt 4): 565-72 (2010)
2010  
93
The gating isomerization of neuromuscular acetylcholine receptors.
[19933754] J Physiol 588(Pt 4): 573-86 (2010)
2010  
94
Advances and hold-ups in the study of structure, function and regulation of Cys-loop ligand-gated ion channels and receptors.
[20173078] J Physiol 588(Pt 4): 555-6 (2010)
2009  
95
Voltage-sensing phosphatase: actions and potentials.
[19074969] J Physiol 587(Pt 3): 513-20 (2009)
2008  
96
Regulation of neural KCNQ channels: signalling pathways, structural motifs and functional implications.
[18238808] J Physiol 586(7): 1811-21 (2008)
2010  
97
Targeting ion channels for drug discovery.
[20350493] Discov Med 9(46): 253-60 (2010)
2009  
98
Hyperpolarization-activated cation channels: from genes to function.
[19584315] Physiol Rev 89(3): 847-85 (2009)
2008  
99
Integrating the discovery pipeline for novel compounds targeting ion channels.
[18678277] Curr Opin Chem Biol 12(4): 441-7 (2008)
2010  
100
Ion channelopathies in endocrinology: recent genetic findings and pathophysiological insights.
[21340151] Arq Bras Endocrinol Metabol 54(8): 673-81 (2010)
2009  
101
Ion channels versus ion pumps: the principal difference, in principle.
[19339978] Nat Rev Mol Cell Biol 10(5): 344-52 (2009)
2004  
102
Activation and modulation of ligand-gated ion channels.
[15119941] Physiol Res 53 Suppl 1(-): S103-13 (2004)
2010  
103
Mechanosensitivity of ion channels based on protein-lipid interactions.
[20356872] J R Soc Interface 7 Suppl 3(-): S307-20 (2010)
2011  
104
Peptide Neurotoxins that Affect Voltage-Gated Calcium Channels: A Close-Up on ω-Agatoxins.
[22069688] Toxins (Basel) 3(1): 17-42 (2011)
2010  
105
The gates of ion channels and enzymes.
[19926290] Trends Biochem Sci 35(3): 179-85 (2010)
2010  
106
Forward trafficking of ion channels: what the clinician needs to know.
[20621620] Heart Rhythm 7(8): 1135-40 (2010)
2008  
107
Visualizing ion channel dynamics at the plasma membrane.
[18456207] Heart Rhythm 5(6 Suppl): S7-11 (2008)
2010  
108
Emerging concepts in the pharmacogenomics of arrhythmias: ion channel trafficking.
[20670193] Expert Rev Cardiovasc Ther 8(8): 1161-73 (2010)
2009  
109
Cardiac ankyrins in health and disease.
[19394342] J Mol Cell Cardiol 47(2): 203-9 (2009)
2006  
110
Regulation of epithelial ion channels by Rab GTPases.
[17084813] Biochem Biophys Res Commun 351(3): 582-7 (2006)
2008  
111
Unraveling the mechanisms of rare diseases.
[18560623] Drug News Perspect 21(4): 233-40 (2008)
2009  
112
Transient receptor potential channels on sensory nerves.
[19655110] Handb Exp Pharmacol (194): 261-81 (2009)
2006  
113
Ca2+ channels and pulmonary endothelial permeability: insights from study of intact lung and chronic pulmonary hypertension.
[17085430] Microcirculation 13(8): 725-39 (2006)
2010  
114
Bringing ion channel crystal structures into sharper focus with computer modeling: examples from mechanosensitive channels.
[21426108] Future Med Chem 2(6): 909-13 (2010)
2010  
115
Renaissance of ion channel research and drug discovery by patch clamp automation.
[21426196] Future Med Chem 2(5): 691-5 (2010)
2010  
116
Understanding ion channels using computational approaches.
[21426197] Future Med Chem 2(5): 697-701 (2010)
2011  
117
From understanding cellular function to novel drug discovery: the role of planar patch-clamp array chip technology.
[22007170] Front Pharmacol 2(-): 51 (2011)
2011  
118
Ca permeable AMPA channels in diseases of the nervous system.
[22102834] Front Mol Neurosci 4(-): 42 (2011)
2011  
119
Calcium-permeable AMPA receptors in the retina.
[21991245] Front Mol Neurosci 4(-): 27 (2011)
2010  
120
Ion channel voltage sensors: structure, function, and pathophysiology.
[20869590] Neuron 67(6): 915-28 (2010)
2009  
121
A nomenclature for ligand-gated ion channels.
[18655795] Neuropharmacology 56(1): 2-5 (2009)
2009  
122
Circadian regulation of ion channels and their functions.
[19549279] J Neurochem 110(4): 1150-69 (2009)
2011  
123
Ca(2+)-regulated ion channels.
[22026996] BMB Rep 44(10): 635-46 (2011)
2011  
124
Direct effect of protein kinase C inhibitors on cardiovascular ion channels.
[21944247] BMB Rep 44(9): 559-65 (2011)
2002  
125
Sorting out MIC, TRP, and CRAC ion channels.
[12149282] J Gen Physiol 120(2): 217-20 (2002)
2002  
126
Coupled movements in voltage-gated ion channels.
[12356847] J Gen Physiol 120(4): 449-53 (2002)
2002  
127
Molecular models of voltage sensing.
[12356848] J Gen Physiol 120(4): 455-63 (2002)
2002  
128
2002  
129
The search is on for the voltage sensor-to-gate coupling.
[12356850] J Gen Physiol 120(4): 475-81 (2002)
2011  
130
Structural studies of ion selectivity in tetrameric cation channels.
[21518828] J Gen Physiol 137(5): 397-403 (2011)
2011  
131
Origins of ion selectivity in potassium channels from the perspective of channel block.
[21518829] J Gen Physiol 137(5): 405-13 (2011)
2011  
132
Ion selectivity in channels and transporters.
[21518830] J Gen Physiol 137(5): 415-26 (2011)
2011  
133
Thermodynamics of ion selectivity in the KcsA K+ channel.
[21518831] J Gen Physiol 137(5): 427-33 (2011)
2011  
134
Mining recent brain proteomic databases for ion channel phosphosite nuggets.
[21149544] J Gen Physiol 137(1): 3-16 (2011)
2003  
135
Gating mechanism of KATP channels: function fits form.
[14581579] J Gen Physiol 122(5): 471-80 (2003)
2008  
136
How highly charged anionic lipids bind and regulate ion channels.
[18411329] J Gen Physiol 131(5): 431-8 (2008)
2010  
137
2010  
138
Forty years of monensin for the control of coccidiosis in poultry.
[20709963] Poult Sci 89(9): 1788-801 (2010)
2008  
139
PIP2 is a necessary cofactor for ion channel function: how and why?
[18573078] Annu Rev Biophys 37(-): 175-95 (2008)
2011  
140
2007  
141
Ion channels and pores, made from scratch.
[17882329] Mol Biosyst 3(10): 658-66 (2007)
2007  
142
Optical switches and triggers for the manipulation of ion channels and pores.
[17882331] Mol Biosyst 3(10): 686-704 (2007)
2007  
143
Population patch clamp electrophysiology: a breakthrough technology for ion channel screening.
[17882333] Mol Biosyst 3(10): 714-22 (2007)
2007  
144
Understanding and manipulating channels and pores.
[17882326] Mol Biosyst 3(10): 645-7 (2007)
2007  
145
Interactions of connexins with other membrane channels and transporters.
[17475311] Prog Biophys Mol Biol 94(1-2): 233-44 (2007)
2008  
146
Caveolae, ion channels and cardiac arrhythmias.
[19351512] Prog Biophys Mol Biol 98(2-3): 149-60 (2008)
2011  
147
Ultra-rapid delayed rectifier channels: molecular basis and therapeutic implications.
[21159668] Cardiovasc Res 89(4): 776-85 (2011)

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