Chang Liao, Mei-LingMei-LingChang LiaoBoer, Teun P. deTeun P. deBoerMutoh, HirokiHirokiMutohRaad, NourNourRaadRichter, ClaudiaClaudiaRichterWagner, EvaEvaWagnerDownie, Bryan R.Bryan R.DownieUnsöld, BernhardBernhardUnsöldArooj, IqraIqraAroojStreckfuss-Bömeke, KatrinKatrinStreckfuss-BömekeDöker, StephanStephanDökerLuther, StefanStefanLutherGuan, KaomeiKaomeiGuanWagner, StefanStefanWagnerLehnart, Stephan E.Stephan E.LehnartMaier, Lars S.Lars S.MaierStühmer, WalterWalterStühmerWettwer, ErichErichWettwerVeen, Toon vanToon vanVeenMorlock, MichaelMichaelMorlockKnöpfel, ThomasThomasKnöpfelZimmermann, Wolfram-HubertusWolfram-HubertusZimmermann2019-07-172019-07-172015-08-14Circulation research 5 (117): 401-412 (2015-08-14)http://hdl.handle.net/11420/2980Monitoring and controlling cardiac myocyte activity with optogenetic tools offer exciting possibilities for fundamental and translational cardiovascular research. Genetically encoded voltage indicators may be particularly attractive for minimal invasive and repeated assessments of cardiac excitation from the cellular to the whole heart level.en0009-733020155401412arrhythmias, cardiacelectrophysiologyheartmyocytes, cardiacoptical imagingoptogeneticsstem cellsJournal Article10.1161/CIRCRESAHA.117.306143Other