Search results for "Optogenetics"

showing 10 items of 34 documents

Optogenetic Modulation of a Minor Fraction of Parvalbumin-Positive Interneurons Specifically Affects Spatiotemporal Dynamics of Spontaneous and Senso…

2017

Abstract Parvalbumin (PV) positive interneurons exert strong effects on the neocortical excitatory network, but it remains unclear how they impact the spatiotemporal dynamics of sensory processing in the somatosensory cortex. Here, we characterized the effects of optogenetic inhibition and activation of PV interneurons on spontaneous and sensory-evoked activity in mouse barrel cortex in vivo. Inhibiting PV interneurons led to a broad-spectrum power increase both in spontaneous and sensory-evoked activity. Whisker-evoked responses were significantly increased within 20 ms after stimulus onset during inhibition of PV interneurons, demonstrating high temporal precision of PV-shaped inhibition.…

Male0301 basic medicineTime FactorsCognitive NeurosciencePopulationAction PotentialsMice TransgenicSensory systemOptogeneticsSomatosensory system03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineLateral inhibitionEvoked Potentials SomatosensoryPhysical StimulationparvalbuminmedicineAnimalseducationmouseeducation.field_of_studyinterneuronsbiologyChemistrymusculoskeletal neural and ocular physiologyOriginal ArticlesSomatosensory CortexBarrel cortexMice Inbred C57BLOptogeneticsParvalbumins030104 developmental biologymedicine.anatomical_structureTouch Perceptionnervous systemCerebral cortexconnectivityVibrissaebiology.proteincerebral cortexFemaleMicroelectrodesNeuroscience030217 neurology & neurosurgeryParvalbuminCerebral Cortex
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Essential thalamic contribution to slow waves of natural sleep

2013

Slow waves represent one of the prominent EEG signatures of non-rapid eye movement (non-REM) sleep and are thought to play an important role in the cellular and network plasticity that occurs during this behavioral state. These slow waves of natural sleep are currently considered to be exclusively generated by intrinsic and synaptic mechanisms within neocortical territories, although a role for the thalamus in this key physiological rhythm has been suggested but never demonstrated. Combining neuronal ensemble recordings, microdialysis, and optogenetics, here we show that the block of the thalamic output to the neocortex markedly (up to 50%) decreases the frequency of slow waves recorded dur…

MaleCalcium channels T-typeepilepsy cns.ThalamusRapid eye movement sleepAction PotentialsSleep spindleOptogeneticsElectroencephalographyQ1Settore BIO/09 - Fisiologia03 medical and health sciencesCalcium Channels T-Type0302 clinical medicineThalamusSlow wave sleepmedicineAnimalsAnesthesiaRats Wistar030304 developmental biologySlow-wave sleepCerebral CortexNeurons0303 health sciencesNeocortexmedicine.diagnostic_testGeneral NeuroscienceElectroencephalographyArticlesSleep in non-human animalsRatsmedicine.anatomical_structureRapid eye movement sleep[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]PsychologySleepNeuroscience030217 neurology & neurosurgery
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Convergence of Cortical and Sensory Driver Inputs on Single Thalamocortical Cells

2013

Ascending and descending information is relayed through the thalamus via strong, "driver" pathways. According to our current knowledge, different driver pathways are organized in parallel streams and do not interact at the thalamic level. Using an electron microscopic approach combined with optogenetics and in vivo physiology, we examined whether driver inputs arising from different sources can interact at single thalamocortical cells in the rodent somatosensory thalamus (nucleus posterior, POm). Both the anatomical and the physiological data demonstrated that ascending driver inputs from the brainstem and descending driver inputs from cortical layer 5 pyramidal neurons converge and interac…

MalePatch-Clamp TechniquesCognitive NeuroscienceThalamusBiotinMice TransgenicSensory systemOptogeneticsBiologySomatosensory systemFunctional LateralityMembrane PotentialsMiceCellular and Molecular NeuroscienceChannelrhodopsinsMicroscopy Electron TransmissionThalamusNeural PathwaysmedicineAnimalsPhytohemagglutininsRats WistarCerebral CortexNeuronsExcitatory Postsynaptic PotentialsDextransddc:Ratsmedicine.anatomical_structureCerebral cortexSynapsesRecurrent thalamo-cortical resonanceVesicular Glutamate Transport Protein 2BrainstemNucleusNeuroscienceCerebral Cortex
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Kinetics of proton release and uptake by channelrhodopsin-2

2012

Electrophysiological experiments showed that the light-activated cation channel channelrhodopsin-2 (ChR2) pumps protons in the absence of a membrane potential. We determined here the kinetics of transient pH change using a water-soluble pH-indicator. It is shown that ChR2 released protons prior to uptake with a stoichiometry of 0.3 protons per ChR2. Comparison to the photocycle kinetics revealed that proton release and uptake match rise and decay of the View the MathML sourceP3520 intermediate. As the View the MathML sourceP3520 state also represents the conductive state of cation channeling, the concurrence of proton pumping and channel gating implies an intimate mechanistic link of the tw…

Models MolecularRhodopsinProtonKineticsBiophysicsAnalytical chemistryChannelrhodopsinBacteriorhodopsinBiochemistry530Protein Structure SecondaryProton transferStructural BiologyGeneticsMolecular BiologyIon channelMembrane potentialbiologyChemistryfungiBacteriorhodopsinBiological TransportCell BiologyHydrogen-Ion ConcentrationProton PumpsOptogeneticsKineticsRhodopsinBiophysicsbiology.proteinProtonsIon channelStoichiometry
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Power-effective scanning with AODs for 3D optogenic applications

2022

Two-photon (2P) excitation is a cornerstone approach widely employed in neuroscience microscopy for deep optical access and sub-micrometric-resolution light targeting into the brain. However, besides structural and functional imaging, 2P optogenetic stimulations are less routinary, especially in 3D. This is because of the adopted scanning systems, often feebly effective, slow and mechanically constricted. Faster illumination can be achieved through acousto-optic deflectors (AODs) although their applicability to large volumes excitation has been limited by large efficiency drop along the optical axis. Here, we present a new AOD-based scheme for 2P 3D scanning that improves the power delivery…

Neuronsacousto-optic deflectorsGeneral EngineeringBrainGeneral Physics and AstronomyGeneral ChemistryTwo-photon (2P) excitationSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Settore FIS/03 - Fisica Della MateriaGeneral Biochemistry Genetics and Molecular BiologyAnimalsGeneral Materials ScienceoptogeneticsAcousto-optic deflectors optogenics Two-photon excitationPhotic StimulationZebrafish
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Navigating the translational roadblock: Towards highly specific and effective all-optical interrogations of neural circuits

2020

AbstractTwo-photon (2-P) all-optical approaches combine in vivo 2-P calcium imaging and 2-P optogenetic modulations and have the potential to build a framework for network-based therapies, e.g. for rebalancing maladaptive activity patterns in preclinical models of neurological disorders. Here, our goal was to tailor these approaches for this purpose: Firstly, we combined in vivo juxtacellular recordings and GCaMP6f-based 2-P calcium imaging in layer II/III of mouse visual cortex to tune our detection algorithm towards a 100 % specific identification of AP-related calcium transients. False-positive-free detection was achieved at a sensitivity of approximately 73 %. To further increase specif…

Opsingenetic structuresComputer scienceCortical neuronsOptogeneticsPhotostimulationCalcium imagingVisual cortexmedicine.anatomical_structureIn vivoGCaMPmedicineExcitatory postsynaptic potentialBiological neural networkNeuroscience
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Optogenetically Controlled Activity Pattern Determines Survival Rate of Developing Neocortical Neurons

2021

A substantial proportion of neurons undergoes programmed cell death (apoptosis) during early development. This process is attenuated by increased levels of neuronal activity and enhanced by suppression of activity. To uncover whether the mere level of activity or also the temporal structure of electrical activity affects neuronal death rates, we optogenetically controlled spontaneous activity of synaptically-isolated neurons in developing cortical cultures. Our results demonstrate that action potential firing of primary cortical neurons promotes neuronal survival throughout development. Chronic patterned optogenetic stimulation allowed to effectively modulate the firing pattern of single ne…

Programmed cell deathPatch-Clamp TechniquesQH301-705.5Action Potentialsactivity patternStimulationNeocortexOptogeneticsCatalysisCalcium in biologyArticleInorganic ChemistryBurstingMicePremovement neuronal activityAnimalsPhysical and Theoretical ChemistryBiology (General)optogeneticsMolecular BiologyQD1-999developmentSpectroscopyCells CulturedmouseNeuronsChemistryOrganic ChemistryapoptosisGeneral MedicineComputer Science ApplicationsCortex (botany)ChemistryLuminescent Proteinscortexnervous systemApoptosisBaxNeuroscienceburstInternational Journal of Molecular Sciences
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A Roadmap to Applying Optogenetics in Neuroscience

2014

Optogenetics allows for the specific manipulation of the activity of genetically defined cell populations in the CNS. Yet, it requires effective gene delivery, light stimulation, and readout strategies. Here, we provide a roadmap aimed at guiding the experimenter in the process of establishing an optogenetic approach tailored to a given research hypothesis in the field of neuroscience.

Rhodopsin biosynthesismedicine.anatomical_structureComputer scienceCellmedicineOptogeneticsNeuroscience
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Combining Optogenetics with MEA, Depth-Resolved LFPs and Assessing the Scope of Optogenetic Network Modulation

2017

Scope (project management)Computer scienceModulationOptogeneticsNeuroscience
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Optogenetics in Stem Cell Research: Focus on the Central Nervous System

2017

Stem cell-based therapies of CNS disorders represent a promising approach in translational and regenerative medicine. Stem cell-based tissue replacement and regeneration would, for the first time, offer a causal treatment strategy which is most likely not bound to a specific time window. Therapeutic strategies relying on this paradigm would require administration of exogenous stem cells to the CNS and/or the augmentation of endogenous stem cell capabilities. However, it remains unclear whether tissue replacement or bystander effects are required to induce such effects. Conventional experimental techniques will not be able to causally reveal such information, due to the complexity and coinci…

TransplantationCell typeMechanism (biology)medicine.medical_treatmentRegeneration (biology)medicineStem-cell therapyStem cellBiologyOptogeneticsRegenerative medicineNeuroscience
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