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MicroRNA-365 regulates human cardiac action potential duration
Dena Esfandyari
, Bio Maria Ghéo Idrissou
, Konstantin Hennis
, Petros Avramopoulos
, Anne Dueck
, Ibrahim El-Battrawy
, Laurenz Grüter
, Melanie Annemarie Meier
, Anna Christina Näger
, Deepak Ramanujam
, Tatjana Dorn
,
Thomas Meitinger
, Christian Hagl
, Hendrik Milting
, Martin Borggrefe
, Stefanie Fenske
, Martin Biel
, Andreas Dendorfer
, Yassine Sassi
,
Alessandra Moretti
Stefan Engelhardt
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Medicine and Health
Chair of Pharmacology and Toxicology
Technical University of Munich
Partner Site Munich Heart Alliance
University of Munich
Universitätsmedizin Mannheim
Ludwig-Maximilians-Universität München
University Hospital of the Ruhr-University Bochum
Fralin Biomedical Research Institute at Virginia Tech Carilion
Research output
:
Contribution to journal
›
Article
›
peer-review
26
Scopus citations
Overview
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Keyphrases
Action Potential Duration
100%
Cardiac Action Potential
100%
MicroRNA-365
100%
MiR-365
100%
Action Potential
57%
Myocytes
42%
MicroRNA
42%
Stem Cell-derived
14%
Induced Pluripotent Stem Cells (iPSCs)
14%
Cellular Level
14%
Direct Target
14%
Ventricular Arrhythmia
14%
Myocardial Tissue
14%
Ionic Current
14%
Transcriptome Analysis
14%
Ion Channels
14%
Regulatory Effect
14%
Adult Humans
14%
Specific Inhibition
14%
Therapeutic Modulation
14%
Targetome
14%
Prolonged Action
14%
Period Measurement
14%
Arrhythmias Cardiac
14%
Short QT Syndrome
14%
Cardiac Repolarization
14%
Primary microRNA
14%
Ventricular Action Potential
14%
Sudden Cardiac Death
14%
Synergistic Regulation
14%
Human Cardiac Myocytes
14%
Refractory Period
14%
Long QT Syndrome
14%
Myocardial Slices
14%
Whole-cell Patch-clamp
14%
Action Potential Recordings
14%
Biochemistry, Genetics and Molecular Biology
MicroRNA
100%
Action Potential
100%
Action Potential Duration
100%
Cardiac Action Potential
100%
Cardiac Muscle Cell
33%
Quantitative Technique
16%
Gene Expression Profiling
16%
microRNA
16%
Induced Pluripotent Stem Cell
16%
Cell Level
16%
Ion Current
16%
Heart Repolarization
16%
Whole Cell Patch Clamp
16%
Refractory Period
16%
Sudden Cardiac Death
16%
Cardiac Dysrhythmia
16%
Short QT Syndrome
16%
Ion Channel
16%
Long QT Syndrome
16%
Immunology and Microbiology
Action Potential
100%
Action Potential Duration
100%
Muscle Cell
28%
Cardiac Muscle Cell
28%
Cell Level
14%
Induced Pluripotent Stem Cell
14%
Refractory Period
14%
Heart Repolarization
14%
Whole Cell Patch Clamp
14%
Gene Expression Assay
14%
Ion Current
14%
Pharmacology, Toxicology and Pharmaceutical Science
microRNA
100%
Heart Arrhythmia
20%
Transcriptome
20%
Ion Channel
20%
Short QT Syndrome
20%
Long QT Syndrome
20%
Sudden Cardiac Death
20%