Nagel, Georg.
Nagel, Georg, 1953-....
![Sudoc [ABES], France](/viaf/images/flags/SUDOC.png "Sudoc [ABES], France")
Georg Nagel
VIAF ID: 162694934 (Personal)
Permalink: http://viaf.org/viaf/162694934
Preferred Forms
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Georg Nagel
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100 1 _ ‡a Nagel, Georg
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Nagel, Georg
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100 1 _ ‡a Nagel, Georg
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Nagel, Georg
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1953-
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Nagel, Georg,
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1953-
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100 1 _
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Nagel, Georg,
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1953-....
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100 1 _ ‡a Nagel, Georg.
4xx's: Alternate Name Forms (20)
5xx's: Related Names (2)
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Institut für Botanik und Pharmazeutische Biologie
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Würzburg
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Lehrstuhl für Botanik
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affi
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https://d-nb.info/standards/elementset/gnd#affiliation
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Affiliation
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Weingarten
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Hörsel
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ortg
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https://d-nb.info/standards/elementset/gnd#placeOfBirth
Works
| Title | Sources |
|---|---|
| Advances and prospects of rhodopsin-based optogenetics in plant research |
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| Apparent affinity of CFTR for ATP is increased by continuous kinase activity |
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| Biochemische und biophysikalische Analyse der strukturellen Integrität von Channelrhodopsin 2 und dessen Mutanten |
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| Biophysical characterisation of electrofused giant HEK293-cells as a novel electrophysiological expression system |
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| Cardiac Na(+)-Ca2+ exchange system in giant membrane patches. |
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| CFTR fails to inhibit the epithelial sodium channel ENaC expressed in Xenopus laevis oocytes |
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| CFTR, investigated with the two-electrode voltage-clamp technique: the importance of knowing the series resistance |
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| Channelrhodopsins: directly light-gated cation channels |
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| Characterizing new photoreceptors to expand the Optogenetic toolbox. |
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| Charakterisierung neuer Photorezeptoren zur Erweiterung der Optogenetik |
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| Degradation of channelopsin-2 in the absence of retinal and degradation resistance in certain mutants |
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| Different affinities of inhibitors to the outwardly and inwardly directed substrate binding site of organic cation transporter 2 |
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| Direct action of genistein on CFTR. |
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| Electrophysiological characterization of specific interactions between bacterial sensory rhodopsins and their transducers |
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| Fast manipulation of cellular cAMP level by light in vivo |
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| From channelrhodopsins to optogenetics |
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| Functional expression of bacteriorhodopsin in oocytes allows direct measurement of voltage dependence of light induced H+ pumping |
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| Increases in intracellular calcium triggered by channelrhodopsin-2 potentiate the response of metabotropic glutamate receptor mGluR7 |
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| Interaction of cations, anions, and weak base quinine with rat renal cation transporter rOCT2 compared with rOCT1. |
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| Investigation of charge translocation by ion pumps and carriers using caged substrates |
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| Ionentransport über Zellmembranen elektrische Untersuchungen von Membranproteinen in situ und rekonstituiert an künstlichen Lipidmembranen |
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| Die Kirschen der Diözese Danzing |
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| Light activation of channelrhodopsin-2 in excitable cells of Caenorhabditis elegans triggers rapid behavioral responses |
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| Light-induced activation of distinct modulatory neurons triggers appetitive or aversive learning in Drosophila larvae. |
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| Light modulation of cellular cAMP by a small bacterial photoactivated adenylyl cyclase, bPAC, of the soil bacterium Beggiatoa |
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| A LOV-domain-mediated blue-light-activated adenylate (adenylyl) cyclase from the cyanobacterium Microcoleus chthonoplastes PCC 7420. |
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| Manipulation of Crucial Second Messengers in Plants by light |
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| Mechanism of electrogenic cation transport by the cloned organic cation transporter 2 from rat. |
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| Mechanistic insights in light-induced cAMP production by photoactivated adenylyl cyclase alpha (PACalpha). |
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| Mechano-dependent signaling by Latrophilin/CIRL quenches cAMP in proprioceptive neurons |
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| mem-iLID, a fast and economic protein purification method |
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| Microbial rhodopsins in the spotlight |
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| Millisecond-timescale, genetically targeted optical control of neural activity |
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| Multimodal fast optical interrogation of neural circuitry |
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| Negative charged threonine 95 of c-Jun is essential for c-Jun N-terminal kinase-dependent phosphorylation of threonine 91/93 and stress-induced c-Jun biological activity. |
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| Non-specific activation of the epithelial sodium channel by the CFTR chloride channel |
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| A novel rhodopsin phosphodiesterase from Salpingoeca rosetta shows light-enhanced substrate affinity. |
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| Optimized photo-stimulation of halorhodopsin for long-term neuronal inhibition |
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| Optogenetic control of the guard cell membrane potential and stomatal movement by the light-gated anion channel ACR1 |
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| Optogenetic long-term manipulation of behavior and animal development |
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| Optogenetic manipulation of cGMP in cells and animals by the tightly light-regulated guanylyl-cyclase opsin CyclOp |
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| Optogenetic tools for manipulation of cyclic nucleotides, functionally coupled to CNG‐channels |
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| Optogenetics: 10 years after ChR2 in neurons--views from the community |
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| Optogenetics : from neuronal function to mapping and disease biology |
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| PMRT1, a <i>Plasmodium</i>-Specific Parasite Plasma Membrane Transporter, Is Essential for Asexual and Sexual Blood Stage Development |
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| Probing the sensory rhodopsin II binding domain of its cognate transducer by calorimetry and electrophysiology |
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| Pump currents generated by renal Na+K+-ATPase on black lipid membranes |
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| A reevaluation of substrate specificity of the rat cation transporter rOCT1. |
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| Regulation of the gating of cystic fibrosis transmembrane conductance regulator C1 channels by phosphorylation and ATP hydrolysis |
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| Rhodopsin-cyclases for photocontrol of cGMP/cAMP and 2.3 Å structure of the adenylyl cyclase domain. |
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| Spatially asymmetric reorganization of inhibition establishes a motion-sensitive circuit. |
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| Structural and functional analysis of channelrhodopsins |
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| Structural basis of TRPC4 regulation by calmodulin and pharmacological agents |
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| Synthetic Light-Activated Ion Channels for Optogenetic Activation and Inhibition |
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| Transient Currents of Na+/K+-ATPase in Giant Patches from Guinea Pig Cardiomyocytes Induced by ATP Concentration Jumps or Voltage Pulses |
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| Trios |
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| Trois sonates pour le clavecin ou forte piano, avec l'accompagnement d'un violon et violoncelle, composées par W. A. Mozart. Œuvre 15 [Mannheim, München, Düsseldorf, J. M. Götz] |
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| Two-component cyclase opsins of green algae are ATP-dependent and light-inhibited guanylyl cyclases |
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| Untersuchungen zur Struktur und Funktion von Channelrhodopsinen |
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| "Vision" in single-celled algae. |
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| Voltage and substrate dependence of the inverse transport mode of the rabbit Na(+)/glucose cotransporter (SGLT1). |
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| Voltage dependence of proton pumping by bacteriorhodopsin is regulated by the voltage-sensitive ratio of M1 to M2 |
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