Dieter Platzer scite author profile

Transient receptor potential canonical (TRPC) channels TRPC3, TRPC6 and TRPC7 are able to sense the lipid messenger diacylglycerol (DAG). The DAG-sensing and lipid-gating processes in these ion channels are still unknown. To gain insights into the lipid-sensing principle, we generated a DAG photoswitch, OptoDArG, that enabled efficient control of TRPC3 by light. A structure-guided mutagenesis screen of the TRPC3 pore domain unveiled a single glycine residue behind the selectivity filter (G652) that is exposed to lipid through a subunit-joining fenestration. Exchange of G652 with larger residues altered the ability of TRPC3 to discriminate between different DAG molecules. Light-controlled activation-deactivation cycling of TRPC3 channels by an OptoDArG-mediated optical 'lipid clamp' identified pore domain fenestrations as pivotal elements of the channel´s lipid-sensing machinery. We provide evidence for a novel concept of lipid sensing by TRPC channels based on a lateral fenestration in the pore domain that accommodates lipid mediators to control gating.

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Dynamics of human flight on skis: Improvements in safety and fairness in ski jumping

Müller

Platzer

Schmölzer

1996

Journal of Biomechanics

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Intracellular Dyssynchrony of Diastolic Cytosolic [Ca ²⁺ ] Decay in Ventricular Cardiomyocytes in Cardiac Remodeling and Human Heart Failure

Hohendanner

Ljubojevic

Macquaide

et al. 2013

Circulation Research

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A diffusion-adjusted regional blood flow model to predict solute kinetics during haemodialysis

Schneditz

Platzer

Daugirdas

2009

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The results suggest that a diffusion-adjusted regional blood flow (DA-RBF) model can be used to explain compartmentalization of creatinine or urea throughout the body during haemodialysis, although possible additional compartmentalization of urea in erythrocytes, and perhaps in the tissues, still needs to be accounted for. This new model should be applicable to modelling of other non-protein-bound candidate uraemic toxins, also.

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Optical multisite monitoring of cell excitation phenomena in isolated cardiomyocytes

et al. 1995

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An especially designed setup which consists of an inverted fluorescence microscope, an argon ion laser and a photodiode array system permits membrane potential monitoring in isolated guinea-pig ventricular cardiomyocytes, stained with the voltage-sensitive dye di-4-ANEPPS, which responds linearly with relative fluorescence changes (delta F/F) approximately -8% per 100 mV. About a dozen measuring spots covering a single cell were simultaneously monitored with a spatial and temporal resolution of 15 microns and about 20 microseconds, respectively. In general, the rising phases of the action potentials within a single cell were highly synchronized (i.e. all upstroke velocities peaked within about 20 microseconds); however, in one cell (out of 25 examined) significant (P < 0.05) time lags exceeding the signal-dependent time resolution were also found. Experiments, simultaneously performed with our optical system and a widely used patch-clamp setup, revealed a slowed and delayed response of the clamp amplifier depending on the cell access resistance. Optical monitoring during whole-cell voltage-clamping demonstrated the influence of graduated series resistance compensation. When field stimulation was used, our results clearly demonstrated the spatially dependent polarization of the cell membrane during the stimulus, as well as a highly synchronized upstroke development. Slight differences in the maximum upstroke velocities within a single cell were also found and were basically in agreement with mathematical models.

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Dieter Platzer

An optically controlled probe identifies lipid-gating fenestrations within the TRPC3 channel

Dynamics of human flight on skis: Improvements in safety and fairness in ski jumping

Intracellular Dyssynchrony of Diastolic Cytosolic [Ca ²⁺ ] Decay in Ventricular Cardiomyocytes in Cardiac Remodeling and Human Heart Failure

A diffusion-adjusted regional blood flow model to predict solute kinetics during haemodialysis

Optical multisite monitoring of cell excitation phenomena in isolated cardiomyocytes

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Dieter Platzer

An optically controlled probe identifies lipid-gating fenestrations within the TRPC3 channel

Dynamics of human flight on skis: Improvements in safety and fairness in ski jumping

Intracellular Dyssynchrony of Diastolic Cytosolic [Ca 2+ ] Decay in Ventricular Cardiomyocytes in Cardiac Remodeling and Human Heart Failure

A diffusion-adjusted regional blood flow model to predict solute kinetics during haemodialysis

Optical multisite monitoring of cell excitation phenomena in isolated cardiomyocytes

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Product

Resources

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Intracellular Dyssynchrony of Diastolic Cytosolic [Ca ²⁺ ] Decay in Ventricular Cardiomyocytes in Cardiac Remodeling and Human Heart Failure