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Publication DateHeart Rhythm, ISSN 1547-5271, 2011, Volume 8, Issue 7, pp. 1024 - 1032
Background Brugada syndrome (BrS) is a sudden death–predisposing genetic condition characterized electrocardiographically by ST segment elevation in the leads...
Cardiovascular | Kv4.3 channels | J-wave syndromes | Brugada syndrome | I to current | Ion channels | Genetic diseases | Sudden cardiac death | Ito current | CARDIAC & CARDIOVASCULAR SYSTEMS | PHENOTYPE | CHILDREN | CELLULAR BASIS | YOUNG | I-to current | LONG QT SYNDROME | IONIC MECHANISMS | ST-SEGMENT ELEVATION | Brugada Syndrome - genetics | Action Potentials - genetics | Brugada Syndrome - physiopathology | Gene Frequency | Humans | Middle Aged | Cells, Cultured | Genotype | Male | Myocardium - pathology | Mutation, Missense | DNA - genetics | Young Adult | Patch-Clamp Techniques | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Brugada Syndrome - metabolism | Myocardium - metabolism | Alleles | Polymerase Chain Reaction | Electrocardiography | Adult | Female | Genetic disorders | Electrocardiogram | Genetic aspects | Liquid chromatography | Potassium channels | Cardiology | Index Medicus | genetic diseases | ion channels, Ito current | J wave syndromes | sudden cardiac death
Cardiovascular | Kv4.3 channels | J-wave syndromes | Brugada syndrome | I to current | Ion channels | Genetic diseases | Sudden cardiac death | Ito current | CARDIAC & CARDIOVASCULAR SYSTEMS | PHENOTYPE | CHILDREN | CELLULAR BASIS | YOUNG | I-to current | LONG QT SYNDROME | IONIC MECHANISMS | ST-SEGMENT ELEVATION | Brugada Syndrome - genetics | Action Potentials - genetics | Brugada Syndrome - physiopathology | Gene Frequency | Humans | Middle Aged | Cells, Cultured | Genotype | Male | Myocardium - pathology | Mutation, Missense | DNA - genetics | Young Adult | Patch-Clamp Techniques | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Brugada Syndrome - metabolism | Myocardium - metabolism | Alleles | Polymerase Chain Reaction | Electrocardiography | Adult | Female | Genetic disorders | Electrocardiogram | Genetic aspects | Liquid chromatography | Potassium channels | Cardiology | Index Medicus | genetic diseases | ion channels, Ito current | J wave syndromes | sudden cardiac death
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Loading RightsAnnals of Neurology, ISSN 0364-5134, 01/2013, Volume 73, Issue 1, pp. 120 - 128
Objective: To report a novel cell surface autoantigen of encephalitis that is a critical regulatory subunit of the Kv4.2 potassium channels. Methods: Four...
LIMBIC ENCEPHALITIS | NMDA-RECEPTOR ENCEPHALITIS | DPPX | NEURONS | PATIENT | NEUROSCIENCES | CLINICAL NEUROLOGY | Encephalitis - enzymology | Nerve Tissue Proteins - immunology | Dipeptidyl-Peptidases and Tripeptidyl-Peptidases - immunology | Shal Potassium Channels - immunology | Autoantibodies - chemistry | Humans | Middle Aged | Potassium Channels - immunology | Encephalitis - pathology | Encephalitis - immunology | Male | Autoantibodies - biosynthesis | Mice, Knockout | Shal Potassium Channels - metabolism | Animals | HEK293 Cells | Female | Shal Potassium Channels - chemistry | Aged | Mice | Antigen-Antibody Reactions - immunology | Proteins | Diarrhea | Encephalitis | Potassium | Index Medicus
LIMBIC ENCEPHALITIS | NMDA-RECEPTOR ENCEPHALITIS | DPPX | NEURONS | PATIENT | NEUROSCIENCES | CLINICAL NEUROLOGY | Encephalitis - enzymology | Nerve Tissue Proteins - immunology | Dipeptidyl-Peptidases and Tripeptidyl-Peptidases - immunology | Shal Potassium Channels - immunology | Autoantibodies - chemistry | Humans | Middle Aged | Potassium Channels - immunology | Encephalitis - pathology | Encephalitis - immunology | Male | Autoantibodies - biosynthesis | Mice, Knockout | Shal Potassium Channels - metabolism | Animals | HEK293 Cells | Female | Shal Potassium Channels - chemistry | Aged | Mice | Antigen-Antibody Reactions - immunology | Proteins | Diarrhea | Encephalitis | Potassium | Index Medicus
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Loading RightsMolecular Cell, ISSN 1097-2765, 01/2017, Volume 65, Issue 1, pp. 52 - 65
Tetrameric assembly of channel subunits in the endoplasmic reticulum (ER) is essential for surface expression and function of K channels, but the molecular...
J-protein | hERG | protein trafficking | long QT syndrome | chaperone protein | C. elegans | protein oligomerization | potassium channel | protein biogenesis | subunit assembly | PAS DOMAIN | CAENORHABDITIS-ELEGANS | HERG | BIOCHEMISTRY & MOLECULAR BIOLOGY | CARDIAC-ARRHYTHMIA | LONG QT SYNDROME | SHAKER POTASSIUM CHANNEL | I-KR | CONFORMATIONAL DEFECT | MEMBRANE-PROTEINS | MOLECULAR-BASIS | CELL BIOLOGY | HSP47 Heat-Shock Proteins - chemistry | Caenorhabditis elegans Proteins - chemistry | Humans | Protein Multimerization | Caenorhabditis elegans Proteins - metabolism | Endoplasmic Reticulum - metabolism | Potassium Channels - metabolism | Shal Potassium Channels - genetics | Transfection | RNA Interference | Time Factors | HEK293 Cells | Protein Structure, Quaternary | ERG1 Potassium Channel - genetics | Protein Stability | HSP40 Heat-Shock Proteins - chemistry | Induced Pluripotent Stem Cells - metabolism | HSP40 Heat-Shock Proteins - metabolism | Caenorhabditis elegans - metabolism | ERG1 Potassium Channel - chemistry | HSP40 Heat-Shock Proteins - genetics | Animals, Genetically Modified | Caenorhabditis elegans - genetics | ERG1 Potassium Channel - metabolism | HSP47 Heat-Shock Proteins - genetics | HSP70 Heat-Shock Proteins - metabolism | Potassium Channels - genetics | Long QT Syndrome - metabolism | Shal Potassium Channels - metabolism | Animals | Membrane Potentials | Cell Line, Tumor | Long QT Syndrome - genetics | Myocytes, Cardiac - metabolism | HSP47 Heat-Shock Proteins - metabolism | Potassium Channels - chemistry | Mutation | Caenorhabditis elegans Proteins - genetics | Index Medicus
J-protein | hERG | protein trafficking | long QT syndrome | chaperone protein | C. elegans | protein oligomerization | potassium channel | protein biogenesis | subunit assembly | PAS DOMAIN | CAENORHABDITIS-ELEGANS | HERG | BIOCHEMISTRY & MOLECULAR BIOLOGY | CARDIAC-ARRHYTHMIA | LONG QT SYNDROME | SHAKER POTASSIUM CHANNEL | I-KR | CONFORMATIONAL DEFECT | MEMBRANE-PROTEINS | MOLECULAR-BASIS | CELL BIOLOGY | HSP47 Heat-Shock Proteins - chemistry | Caenorhabditis elegans Proteins - chemistry | Humans | Protein Multimerization | Caenorhabditis elegans Proteins - metabolism | Endoplasmic Reticulum - metabolism | Potassium Channels - metabolism | Shal Potassium Channels - genetics | Transfection | RNA Interference | Time Factors | HEK293 Cells | Protein Structure, Quaternary | ERG1 Potassium Channel - genetics | Protein Stability | HSP40 Heat-Shock Proteins - chemistry | Induced Pluripotent Stem Cells - metabolism | HSP40 Heat-Shock Proteins - metabolism | Caenorhabditis elegans - metabolism | ERG1 Potassium Channel - chemistry | HSP40 Heat-Shock Proteins - genetics | Animals, Genetically Modified | Caenorhabditis elegans - genetics | ERG1 Potassium Channel - metabolism | HSP47 Heat-Shock Proteins - genetics | HSP70 Heat-Shock Proteins - metabolism | Potassium Channels - genetics | Long QT Syndrome - metabolism | Shal Potassium Channels - metabolism | Animals | Membrane Potentials | Cell Line, Tumor | Long QT Syndrome - genetics | Myocytes, Cardiac - metabolism | HSP47 Heat-Shock Proteins - metabolism | Potassium Channels - chemistry | Mutation | Caenorhabditis elegans Proteins - genetics | Index Medicus
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Loading RightsNature Neuroscience, ISSN 1097-6256, 11/2012, Volume 15, Issue 11, pp. 1488 - 1497
FUS/TLS (fused in sarcoma/translocated in liposarcoma) and TDP-43 are integrally involved in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia....
NEURODEGENERATIVE DISEASE | GENE | AMYOTROPHIC-LATERAL-SCLEROSIS | FAMILY PROTEINS | FUS PATHOLOGY | MUTATIONS | FRONTOTEMPORAL LOBAR DEGENERATION | BINDING | NEUROSCIENCES | BRAIN | NASCENT TRANSCRIPTION | RNA, Small Interfering - genetics | Protein Binding - genetics | Oligonucleotide Array Sequence Analysis | Humans | tau Proteins - metabolism | Gene Expression Profiling | RNA, Messenger - metabolism | Kv Channel-Interacting Proteins - metabolism | Brain - metabolism | Frontotemporal Dementia - metabolism | RNA Splicing - genetics | Frontotemporal Dementia - genetics | RNA-Binding Protein FUS - deficiency | Amyotrophic Lateral Sclerosis - genetics | Cell Cycle Proteins - metabolism | Ubiquitin-Protein Ligases - metabolism | RNA-Binding Protein FUS - genetics | Mice, Knockout | Motor Neurons - metabolism | Amyotrophic Lateral Sclerosis - pathology | Shal Potassium Channels - metabolism | Brain - pathology | Mice | Neurofilament Proteins - metabolism | RNA, Small Interfering - metabolism | Immunoprecipitation | Spinal Cord - metabolism | DNA-Binding Proteins - deficiency | DNA-Binding Proteins - metabolism | tau Proteins - genetics | Cell Cycle Proteins - genetics | Female | RNA Precursors - metabolism | Excitatory Amino Acid Transporter 2 - genetics | Membrane Proteins - metabolism | Frontotemporal Dementia - pathology | Gene Expression Regulation - genetics | Mice, Inbred C57BL | RNA, Messenger - genetics | RNA Precursors - genetics | Protein Structure, Tertiary - genetics | RNA-Binding Protein FUS - metabolism | DNA-Binding Proteins - genetics | Excitatory Amino Acid Transporter 2 - metabolism | Nerve Tissue Proteins - genetics | Nerve Tissue Proteins - metabolism | Carrier Proteins - genetics | Animals | Carrier Proteins - metabolism | Histone-Lysine N-Methyltransferase - metabolism | Amyotrophic Lateral Sclerosis - metabolism | Neural Cell Adhesion Molecules - metabolism | Neural Stem Cells - metabolism | Cell Line, Transformed | Amyotrophic lateral sclerosis | Development and progression | Genetic aspects | Messenger RNA | Health aspects | Index Medicus
NEURODEGENERATIVE DISEASE | GENE | AMYOTROPHIC-LATERAL-SCLEROSIS | FAMILY PROTEINS | FUS PATHOLOGY | MUTATIONS | FRONTOTEMPORAL LOBAR DEGENERATION | BINDING | NEUROSCIENCES | BRAIN | NASCENT TRANSCRIPTION | RNA, Small Interfering - genetics | Protein Binding - genetics | Oligonucleotide Array Sequence Analysis | Humans | tau Proteins - metabolism | Gene Expression Profiling | RNA, Messenger - metabolism | Kv Channel-Interacting Proteins - metabolism | Brain - metabolism | Frontotemporal Dementia - metabolism | RNA Splicing - genetics | Frontotemporal Dementia - genetics | RNA-Binding Protein FUS - deficiency | Amyotrophic Lateral Sclerosis - genetics | Cell Cycle Proteins - metabolism | Ubiquitin-Protein Ligases - metabolism | RNA-Binding Protein FUS - genetics | Mice, Knockout | Motor Neurons - metabolism | Amyotrophic Lateral Sclerosis - pathology | Shal Potassium Channels - metabolism | Brain - pathology | Mice | Neurofilament Proteins - metabolism | RNA, Small Interfering - metabolism | Immunoprecipitation | Spinal Cord - metabolism | DNA-Binding Proteins - deficiency | DNA-Binding Proteins - metabolism | tau Proteins - genetics | Cell Cycle Proteins - genetics | Female | RNA Precursors - metabolism | Excitatory Amino Acid Transporter 2 - genetics | Membrane Proteins - metabolism | Frontotemporal Dementia - pathology | Gene Expression Regulation - genetics | Mice, Inbred C57BL | RNA, Messenger - genetics | RNA Precursors - genetics | Protein Structure, Tertiary - genetics | RNA-Binding Protein FUS - metabolism | DNA-Binding Proteins - genetics | Excitatory Amino Acid Transporter 2 - metabolism | Nerve Tissue Proteins - genetics | Nerve Tissue Proteins - metabolism | Carrier Proteins - genetics | Animals | Carrier Proteins - metabolism | Histone-Lysine N-Methyltransferase - metabolism | Amyotrophic Lateral Sclerosis - metabolism | Neural Cell Adhesion Molecules - metabolism | Neural Stem Cells - metabolism | Cell Line, Transformed | Amyotrophic lateral sclerosis | Development and progression | Genetic aspects | Messenger RNA | Health aspects | Index Medicus
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Loading RightsCirculation, ISSN 0009-7322, 03/2009, Volume 119, Issue 9, pp. 1220 - 1230
Background-Cardiac resynchronization therapy (CRT) is widely applied in patients with heart failure and dyssynchronous contraction (DHF), but the...
Heart failure | Ion channels | Resynchronization, electrophysiology | Remodeling | heart failure | remodeling | CARDIAC & CARDIOVASCULAR SYSTEMS | SUDDEN-DEATH | resynchronization | IONIC MECHANISM | VENTRICULAR MYOCYTES | QT INTERVAL | ion channels | OUTWARD POTASSIUM CURRENT | BUNDLE-BRANCH-BLOCK | electrophysiology | CARDIAC-RESYNCHRONIZATION | CALCIUM-CHANNELS | FAILING HEART | TRANSMURAL DISPERSION | PERIPHERAL VASCULAR DISEASE | Calcium Channels - metabolism | Calcium - metabolism | Heart Failure - physiopathology | Bundle-Branch Block - physiopathology | Male | Bundle-Branch Block - diagnosis | RNA, Messenger - metabolism | Kv Channel-Interacting Proteins - genetics | Kv Channel-Interacting Proteins - metabolism | Pacemaker, Artificial | Bundle-Branch Block - therapy | Heart Failure - therapy | Shal Potassium Channels - genetics | Electrocardiography | Heart Failure - diagnostic imaging | Calcium Channels - genetics | Coronary Circulation | Sarcoplasmic Reticulum Calcium-Transporting ATPases - metabolism | Echocardiography | Potassium Channels, Inwardly Rectifying - genetics | Action Potentials - physiology | Patch-Clamp Techniques | Shal Potassium Channels - metabolism | Animals | Myocytes, Cardiac - physiology | Homeostasis - physiology | Dogs | Sarcoplasmic Reticulum Calcium-Transporting ATPases - genetics | Potassium Channels, Inwardly Rectifying - metabolism | Care and treatment | Usage | Animal models in research | Cardiac pacing | Electrophysiology | Physiological aspects | Research | Index Medicus | Abridged Index Medicus
Heart failure | Ion channels | Resynchronization, electrophysiology | Remodeling | heart failure | remodeling | CARDIAC & CARDIOVASCULAR SYSTEMS | SUDDEN-DEATH | resynchronization | IONIC MECHANISM | VENTRICULAR MYOCYTES | QT INTERVAL | ion channels | OUTWARD POTASSIUM CURRENT | BUNDLE-BRANCH-BLOCK | electrophysiology | CARDIAC-RESYNCHRONIZATION | CALCIUM-CHANNELS | FAILING HEART | TRANSMURAL DISPERSION | PERIPHERAL VASCULAR DISEASE | Calcium Channels - metabolism | Calcium - metabolism | Heart Failure - physiopathology | Bundle-Branch Block - physiopathology | Male | Bundle-Branch Block - diagnosis | RNA, Messenger - metabolism | Kv Channel-Interacting Proteins - genetics | Kv Channel-Interacting Proteins - metabolism | Pacemaker, Artificial | Bundle-Branch Block - therapy | Heart Failure - therapy | Shal Potassium Channels - genetics | Electrocardiography | Heart Failure - diagnostic imaging | Calcium Channels - genetics | Coronary Circulation | Sarcoplasmic Reticulum Calcium-Transporting ATPases - metabolism | Echocardiography | Potassium Channels, Inwardly Rectifying - genetics | Action Potentials - physiology | Patch-Clamp Techniques | Shal Potassium Channels - metabolism | Animals | Myocytes, Cardiac - physiology | Homeostasis - physiology | Dogs | Sarcoplasmic Reticulum Calcium-Transporting ATPases - genetics | Potassium Channels, Inwardly Rectifying - metabolism | Care and treatment | Usage | Animal models in research | Cardiac pacing | Electrophysiology | Physiological aspects | Research | Index Medicus | Abridged Index Medicus
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Loading RightseLife, ISSN 2050-084X, 2014, Volume 3, pp. e03255 - e03255
Temperature-sensitive transient receptor potential (TRP) ion channels are members of the large tetrameric cation channels superfamily but are considered to be...
gating | TRP channel | allosteric coupling | potassium channel | conformational changes | temperature sensing | Potassium - metabolism | Large-Conductance Calcium-Activated Potassium Channels - metabolism | Allosteric Regulation | Humans | Shaker Superfamily of Potassium Channels - metabolism | Large-Conductance Calcium-Activated Potassium Channels - chemistry | TRPV Cation Channels - metabolism | Shal Potassium Channels - genetics | Shaker Superfamily of Potassium Channels - chemistry | HEK293 Cells | Large-Conductance Calcium-Activated Potassium Channels - genetics | Shal Potassium Channels - chemistry | Ion Transport | Transgenes | Protein Structure, Tertiary | Shab Potassium Channels - genetics | Gene Expression | Shaker Superfamily of Potassium Channels - genetics | Shab Potassium Channels - chemistry | TRPV Cation Channels - chemistry | Hot Temperature | Membrane Potentials - physiology | TRPV Cation Channels - genetics | Patch-Clamp Techniques | Shab Potassium Channels - metabolism | Shal Potassium Channels - metabolism | Animals | Mice | Ion Channel Gating | GATING CHARGE | DEPENDENT POTASSIUM | ACTIVATION | TRP channels | CAPSAICIN RECEPTOR | TRPV1 ION-CHANNEL | potassium channels | BIOLOGY | CLOSED-STATE INACTIVATION | SHAKER | K+ CHANNEL | PORE DOMAIN | KV4.2 CHANNELS | Data analysis | Pain perception | Channel gating | Capsaicin receptors | Equilibrium | Thermal energy | Transient receptor potential proteins | Heat | Allosteric properties | Temperature effects | Nociceptors | Physiology | Potassium channels (voltage-gated) | Ion channels | Sensors | Potassium | Index Medicus
gating | TRP channel | allosteric coupling | potassium channel | conformational changes | temperature sensing | Potassium - metabolism | Large-Conductance Calcium-Activated Potassium Channels - metabolism | Allosteric Regulation | Humans | Shaker Superfamily of Potassium Channels - metabolism | Large-Conductance Calcium-Activated Potassium Channels - chemistry | TRPV Cation Channels - metabolism | Shal Potassium Channels - genetics | Shaker Superfamily of Potassium Channels - chemistry | HEK293 Cells | Large-Conductance Calcium-Activated Potassium Channels - genetics | Shal Potassium Channels - chemistry | Ion Transport | Transgenes | Protein Structure, Tertiary | Shab Potassium Channels - genetics | Gene Expression | Shaker Superfamily of Potassium Channels - genetics | Shab Potassium Channels - chemistry | TRPV Cation Channels - chemistry | Hot Temperature | Membrane Potentials - physiology | TRPV Cation Channels - genetics | Patch-Clamp Techniques | Shab Potassium Channels - metabolism | Shal Potassium Channels - metabolism | Animals | Mice | Ion Channel Gating | GATING CHARGE | DEPENDENT POTASSIUM | ACTIVATION | TRP channels | CAPSAICIN RECEPTOR | TRPV1 ION-CHANNEL | potassium channels | BIOLOGY | CLOSED-STATE INACTIVATION | SHAKER | K+ CHANNEL | PORE DOMAIN | KV4.2 CHANNELS | Data analysis | Pain perception | Channel gating | Capsaicin receptors | Equilibrium | Thermal energy | Transient receptor potential proteins | Heat | Allosteric properties | Temperature effects | Nociceptors | Physiology | Potassium channels (voltage-gated) | Ion channels | Sensors | Potassium | Index Medicus
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Loading RightsJournal of Biological Chemistry, ISSN 0021-9258, 04/2014, Volume 289, Issue 15, pp. 10566 - 10581
Background: Voltage-gated K+ (Kv) channels are localized in specific dendritic subcompartments of neurons to regulate dendritic excitability. Results:...
LOCALIZATION | Ion Channels | MICROTUBULES | BIOCHEMISTRY & MOLECULAR BIOLOGY | Intracellular Trafficking | IDENTIFICATION | Protein Sorting | TRANSPORT | Actin | Myosin | Golgi | PROTEINS | RECEPTORS | KV2.1 K+ CHANNEL | EXPRESSION | MODULATION | Dendrites - metabolism | Green Fluorescent Proteins - metabolism | Temperature | Rats, Wistar | Signal Transduction | Humans | Rats | Amino Acid Motifs | Protein Transport | Hippocampus - metabolism | Shab Potassium Channels - metabolism | Shal Potassium Channels - metabolism | Animals | HEK293 Cells | Cytoskeleton - metabolism | Golgi Apparatus - metabolism | Myosins - metabolism | Neurons - metabolism | Index Medicus | Neurobiology
LOCALIZATION | Ion Channels | MICROTUBULES | BIOCHEMISTRY & MOLECULAR BIOLOGY | Intracellular Trafficking | IDENTIFICATION | Protein Sorting | TRANSPORT | Actin | Myosin | Golgi | PROTEINS | RECEPTORS | KV2.1 K+ CHANNEL | EXPRESSION | MODULATION | Dendrites - metabolism | Green Fluorescent Proteins - metabolism | Temperature | Rats, Wistar | Signal Transduction | Humans | Rats | Amino Acid Motifs | Protein Transport | Hippocampus - metabolism | Shab Potassium Channels - metabolism | Shal Potassium Channels - metabolism | Animals | HEK293 Cells | Cytoskeleton - metabolism | Golgi Apparatus - metabolism | Myosins - metabolism | Neurons - metabolism | Index Medicus | Neurobiology
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Loading RightsNature, ISSN 0028-0836, 03/2008, Volume 452, Issue 7186, pp. 436 - 441
Although information storage in the central nervous system is thought to be primarily mediated by various forms of synaptic plasticity, other mechanisms, such...
ACTION-POTENTIALS | HIPPOCAMPUS | CELLS | EXCITABILITY | MEMORY | RAT | KV4.2 | SPIKES | MULTIDISCIPLINARY SCIENCES | PATTERNS | CA1 PYRAMIDAL NEURONS | Pyramidal Cells - cytology | Pyramidal Cells - metabolism | Receptors, N-Methyl-D-Aspartate - metabolism | Rats | Male | Rats, Sprague-Dawley | Action Potentials - physiology | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Animals | Neuronal Plasticity - physiology | Cell Shape | Dendrites - physiology | Mice | Models, Neurological | Ion Channel Gating | Shal Potassium Channels - deficiency | Brain | Neurosciences | Membranes | Cellular biology | Electricity | Rodents | Index Medicus
ACTION-POTENTIALS | HIPPOCAMPUS | CELLS | EXCITABILITY | MEMORY | RAT | KV4.2 | SPIKES | MULTIDISCIPLINARY SCIENCES | PATTERNS | CA1 PYRAMIDAL NEURONS | Pyramidal Cells - cytology | Pyramidal Cells - metabolism | Receptors, N-Methyl-D-Aspartate - metabolism | Rats | Male | Rats, Sprague-Dawley | Action Potentials - physiology | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Animals | Neuronal Plasticity - physiology | Cell Shape | Dendrites - physiology | Mice | Models, Neurological | Ion Channel Gating | Shal Potassium Channels - deficiency | Brain | Neurosciences | Membranes | Cellular biology | Electricity | Rodents | Index Medicus
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Loading RightsHuman Molecular Genetics, ISSN 0964-6906, 2014, Volume 23, Issue 13, pp. 3481 - 3489
Numerous studies and case reports show comorbidity of autism and epilepsy, suggesting some common molecular underpinnings of the two phenotypes. However, the...
YOUNG-ADULTS | INDIVIDUALS | KV4.2 | BIOCHEMISTRY & MOLECULAR BIOLOGY | GENETICS & HEREDITY | CLOSED-STATE INACTIVATION | SPECTRUM DISORDERS | EPILEPSY | ASSOCIATION | K+ CHANNELS | MODULATION | CHILDREN | Autistic Disorder - genetics | Seizures - genetics | Humans | Electrophysiology | Male | Mutation, Missense - genetics | Potassium Channels - genetics | Potassium Channels - metabolism | Exome - genetics | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Pedigree | Female | Mutation | Index Medicus
YOUNG-ADULTS | INDIVIDUALS | KV4.2 | BIOCHEMISTRY & MOLECULAR BIOLOGY | GENETICS & HEREDITY | CLOSED-STATE INACTIVATION | SPECTRUM DISORDERS | EPILEPSY | ASSOCIATION | K+ CHANNELS | MODULATION | CHILDREN | Autistic Disorder - genetics | Seizures - genetics | Humans | Electrophysiology | Male | Mutation, Missense - genetics | Potassium Channels - genetics | Potassium Channels - metabolism | Exome - genetics | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Pedigree | Female | Mutation | Index Medicus
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Loading RightsBiochemical Pharmacology, ISSN 0006-2952, 04/2018, Volume 150, pp. 120 - 130
Transient outward potassium current (I ) contributes to early repolarization of many mammalian cardiac action potentials, including human, whilst the rapid...
Heart | KChIP2 | hERG | DPP6 | Transient outward current | Action potential | Potassium ion channels | NS3623 | PIG VENTRICULAR MYOCYTES | CARDIAC-ARRHYTHMIA | BETA-SUBUNITS | GUINEA-PIG | SPLICE VARIANTS | INTERACTING PROTEIN-2 | REPOLARIZATION | PHARMACOLOGY & PHARMACY | ACTION-POTENTIAL CLAMP | EXPRESSION | I-TO | Kv Channel-Interacting Proteins - agonists | Tetrazoles - pharmacology | Humans | Nerve Tissue Proteins - agonists | ERG1 Potassium Channel - agonists | ERG1 Potassium Channel - metabolism | Kv Channel-Interacting Proteins - metabolism | Nerve Tissue Proteins - metabolism | Potassium Channels - metabolism | Dipeptidyl-Peptidases and Tripeptidyl-Peptidases - metabolism | Shal Potassium Channels - agonists | Shal Potassium Channels - metabolism | Protein Isoforms - metabolism | Protein Isoforms - agonists | HEK293 Cells | Potassium Channels - agonists | Phenylurea Compounds - pharmacology | Index Medicus
Heart | KChIP2 | hERG | DPP6 | Transient outward current | Action potential | Potassium ion channels | NS3623 | PIG VENTRICULAR MYOCYTES | CARDIAC-ARRHYTHMIA | BETA-SUBUNITS | GUINEA-PIG | SPLICE VARIANTS | INTERACTING PROTEIN-2 | REPOLARIZATION | PHARMACOLOGY & PHARMACY | ACTION-POTENTIAL CLAMP | EXPRESSION | I-TO | Kv Channel-Interacting Proteins - agonists | Tetrazoles - pharmacology | Humans | Nerve Tissue Proteins - agonists | ERG1 Potassium Channel - agonists | ERG1 Potassium Channel - metabolism | Kv Channel-Interacting Proteins - metabolism | Nerve Tissue Proteins - metabolism | Potassium Channels - metabolism | Dipeptidyl-Peptidases and Tripeptidyl-Peptidases - metabolism | Shal Potassium Channels - agonists | Shal Potassium Channels - metabolism | Protein Isoforms - metabolism | Protein Isoforms - agonists | HEK293 Cells | Potassium Channels - agonists | Phenylurea Compounds - pharmacology | Index Medicus
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Loading RightsToxicological Sciences, ISSN 1096-6080, 03/2017, Volume 156, Issue 1, pp. 25 - 38
Drug-induced proarrhythmia is a major safety issue in drug development. Developing sensitive in vitro assays that can predict drug-induced cardiotoxicity in...
Drug-induced proarrhythmia | iPSC-CMs | Batch variations | ACTION-POTENTIALS | TORSADES-DE-POINTES | DOFETILIDE | CONTRACTILITY | drug-induced proarrhythmia | PROLONGATION | LONG-QT SYNDROME | VENTRICULAR MYOCYTES | MATURATION | IMPEDANCE | TOXICOLOGY | batch variations | RISK-ASSESSMENT | Arrhythmias, Cardiac - chemically induced | Drug Evaluation, Preclinical - economics | Calcium Channel Blockers - adverse effects | Anti-Arrhythmia Agents - pharmacology | Humans | Potassium Channel Blockers - antagonists & inhibitors | Toxicity Tests, Acute - methods | Potassium Channel Blockers - adverse effects | Arrhythmias, Cardiac - pathology | Shal Potassium Channels - genetics | Kv1.5 Potassium Channel - genetics | Toxicity Tests, Acute - economics | Induced Pluripotent Stem Cells - cytology | Voltage-Gated Sodium Channel Blockers - adverse effects | Potassium Channel Blockers - pharmacology | Induced Pluripotent Stem Cells - metabolism | Arrhythmias, Cardiac - metabolism | Induced Pluripotent Stem Cells - pathology | Cell Line | Drug Evaluation, Preclinical - methods | Reproducibility of Results | Induced Pluripotent Stem Cells - drug effects | Myocytes, Cardiac - cytology | Antioxidants - pharmacology | Calcium Channel Blockers - pharmacology | Gene Expression Regulation - drug effects | Myocytes, Cardiac - pathology | Shal Potassium Channels - metabolism | Calcium Channels, L-Type - genetics | Myocytes, Cardiac - drug effects | Cell Differentiation - drug effects | Kv1.5 Potassium Channel - metabolism | Calcium Channel Blockers - chemistry | Myocytes, Cardiac - metabolism | Voltage-Gated Sodium Channel Blockers - pharmacology | Calcium Channels, L-Type - metabolism | Kinetics | Electrophysiological Phenomena - drug effects | Index Medicus
Drug-induced proarrhythmia | iPSC-CMs | Batch variations | ACTION-POTENTIALS | TORSADES-DE-POINTES | DOFETILIDE | CONTRACTILITY | drug-induced proarrhythmia | PROLONGATION | LONG-QT SYNDROME | VENTRICULAR MYOCYTES | MATURATION | IMPEDANCE | TOXICOLOGY | batch variations | RISK-ASSESSMENT | Arrhythmias, Cardiac - chemically induced | Drug Evaluation, Preclinical - economics | Calcium Channel Blockers - adverse effects | Anti-Arrhythmia Agents - pharmacology | Humans | Potassium Channel Blockers - antagonists & inhibitors | Toxicity Tests, Acute - methods | Potassium Channel Blockers - adverse effects | Arrhythmias, Cardiac - pathology | Shal Potassium Channels - genetics | Kv1.5 Potassium Channel - genetics | Toxicity Tests, Acute - economics | Induced Pluripotent Stem Cells - cytology | Voltage-Gated Sodium Channel Blockers - adverse effects | Potassium Channel Blockers - pharmacology | Induced Pluripotent Stem Cells - metabolism | Arrhythmias, Cardiac - metabolism | Induced Pluripotent Stem Cells - pathology | Cell Line | Drug Evaluation, Preclinical - methods | Reproducibility of Results | Induced Pluripotent Stem Cells - drug effects | Myocytes, Cardiac - cytology | Antioxidants - pharmacology | Calcium Channel Blockers - pharmacology | Gene Expression Regulation - drug effects | Myocytes, Cardiac - pathology | Shal Potassium Channels - metabolism | Calcium Channels, L-Type - genetics | Myocytes, Cardiac - drug effects | Cell Differentiation - drug effects | Kv1.5 Potassium Channel - metabolism | Calcium Channel Blockers - chemistry | Myocytes, Cardiac - metabolism | Voltage-Gated Sodium Channel Blockers - pharmacology | Calcium Channels, L-Type - metabolism | Kinetics | Electrophysiological Phenomena - drug effects | Index Medicus
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Loading RightsCirculation Research, ISSN 0009-7330, 05/2015, Volume 116, Issue 10, pp. 1655 - 1659
RATIONALE:Cold-inducible RNA-binding protein (CIRP) is constitutively expressed at low levels across various tissues. It is rapidly upregulated by multiple...
Repolarization | Action potential | Ion channels | Myocytes | Cardiac | Cold shock proteins | myocytes, cardiac | APOPTOSIS | CELLS | ACTIVATION | CARDIAC & CARDIOVASCULAR SYSTEMS | repolarization | action potential | ion channels | TEMPERATURE | PERIPHERAL VASCULAR DISEASE | cold shock proteins | CIRP | HEMATOLOGY | EXPRESSION | Heart Rate | RNA-Binding Proteins - genetics | Rats, Transgenic | Cold Shock Proteins and Peptides - metabolism | Cells, Cultured | Cold Shock Proteins and Peptides - genetics | Genotype | RNA, Messenger - metabolism | Kv Channel-Interacting Proteins - genetics | Kv Channel-Interacting Proteins - metabolism | Action Potentials | Phenotype | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Animals | Transfection | Time Factors | Myocytes, Cardiac - metabolism | Protein Binding | Transcription, Genetic | Cold Shock Proteins and Peptides - deficiency | Binding Sites | Ion Channel Gating | RNA-Binding Proteins - metabolism | Index Medicus
Repolarization | Action potential | Ion channels | Myocytes | Cardiac | Cold shock proteins | myocytes, cardiac | APOPTOSIS | CELLS | ACTIVATION | CARDIAC & CARDIOVASCULAR SYSTEMS | repolarization | action potential | ion channels | TEMPERATURE | PERIPHERAL VASCULAR DISEASE | cold shock proteins | CIRP | HEMATOLOGY | EXPRESSION | Heart Rate | RNA-Binding Proteins - genetics | Rats, Transgenic | Cold Shock Proteins and Peptides - metabolism | Cells, Cultured | Cold Shock Proteins and Peptides - genetics | Genotype | RNA, Messenger - metabolism | Kv Channel-Interacting Proteins - genetics | Kv Channel-Interacting Proteins - metabolism | Action Potentials | Phenotype | Shal Potassium Channels - genetics | Shal Potassium Channels - metabolism | Animals | Transfection | Time Factors | Myocytes, Cardiac - metabolism | Protein Binding | Transcription, Genetic | Cold Shock Proteins and Peptides - deficiency | Binding Sites | Ion Channel Gating | RNA-Binding Proteins - metabolism | Index Medicus
Journal Article
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Loading RightsScience, ISSN 0036-8075, 7/2004, Volume 305, Issue 5683, pp. 532 - 535
Inherited channelopathies are at the origin of many neurological disorders. Here we report a form of channelopathy that is acquired in experimental temporal...
Phosphorylation | Neuroscience | Channelopathies | Neurons | Pyramidal cells | Epilepsy | Temporal lobe epilepsy | Reports | Dendrites | Membrane potential | Seizures | FIRING MODE | ACTIVATED PROTEIN-KINASE | GABAERGIC INHIBITION | POTASSIUM CHANNELS | MULTIDISCIPLINARY SCIENCES | STATUS EPILEPTICUS | H-CHANNELS | HIPPOCAMPAL-NEURONS | UP-REGULATION | K+ CHANNELS | CA1 PYRAMIDAL NEURONS | Shal Potassium Channels | Potassium Channels, Voltage-Gated | Nitriles - pharmacology | Potassium Channels - physiology | Epilepsy, Temporal Lobe - physiopathology | Male | Potassium Channels - metabolism | Protein Kinase C - metabolism | Dendrites - physiology | Pyramidal Cells - physiology | Pilocarpine - administration & dosage | 4-Aminopyridine - pharmacology | Action Potentials - drug effects | Potassium Channel Blockers - pharmacology | Butadienes - pharmacology | Enzyme Inhibitors - pharmacology | Rats | Protein Kinase C - antagonists & inhibitors | Hippocampus - cytology | Potassium Channels - drug effects | Rats, Sprague-Dawley | Animals | Membrane Potentials | Mitogen-Activated Protein Kinases - antagonists & inhibitors | 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine - pharmacology | Hippocampus - physiopathology | Mitogen-Activated Protein Kinases - metabolism |
Phosphorylation | Neuroscience | Channelopathies | Neurons | Pyramidal cells | Epilepsy | Temporal lobe epilepsy | Reports | Dendrites | Membrane potential | Seizures | FIRING MODE | ACTIVATED PROTEIN-KINASE | GABAERGIC INHIBITION | POTASSIUM CHANNELS | MULTIDISCIPLINARY SCIENCES | STATUS EPILEPTICUS | H-CHANNELS | HIPPOCAMPAL-NEURONS | UP-REGULATION | K+ CHANNELS | CA1 PYRAMIDAL NEURONS | Shal Potassium Channels | Potassium Channels, Voltage-Gated | Nitriles - pharmacology | Potassium Channels - physiology | Epilepsy, Temporal Lobe - physiopathology | Male | Potassium Channels - metabolism | Protein Kinase C - metabolism | Dendrites - physiology | Pyramidal Cells - physiology | Pilocarpine - administration & dosage | 4-Aminopyridine - pharmacology | Action Potentials - drug effects | Potassium Channel Blockers - pharmacology | Butadienes - pharmacology | Enzyme Inhibitors - pharmacology | Rats | Protein Kinase C - antagonists & inhibitors | Hippocampus - cytology | Potassium Channels - drug effects | Rats, Sprague-Dawley | Animals | Membrane Potentials | Mitogen-Activated Protein Kinases - antagonists & inhibitors | 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine - pharmacology | Hippocampus - physiopathology | Mitogen-Activated Protein Kinases - metabolism |