Imaging neural activity using Thy1-GCaMP transgenic mice.
about
Wide-field optical mapping of neural activity and brain haemodynamics: considerations and novel approachesImportance of being Nernst: Synaptic activity and functional relevance in stem cell-derived neuronsGeneration and Imaging of Transgenic Mice that Express G-CaMP7 under a Tetracycline Response ElementPerception of odors linked to precise timing in the olfactory systemThy1-GCaMP6 transgenic mice for neuronal population imaging in vivoImaging activity in neurons and glia with a Polr2a-based and cre-dependent GCaMP5G-IRES-tdTomato reporter mouse.In vivo two-photon imaging of axonal dieback, blood flow, and calcium influx with methylprednisolone therapy after spinal cord injury.Neuron-specific Sumo1-3 knockdown in mice impairs episodic and fear memories.Optimization of direct fibroblast reprogramming to cardiomyocytes using calcium activity as a functional measure of successIntravital imaging of podocyte calcium in glomerular injury and disease.Axial plane optical microscopy.Optogenetic approaches for functional mouse brain mappingVisualization of Calcium Dynamics in Kidney Proximal TubulesImproving data quality in neuronal population recordings.Hippocampus-Dependent Goal Localization by Head-Fixed Mice in Virtual Reality.An R-CaMP1.07 reporter mouse for cell-type-specific expression of a sensitive red fluorescent calcium indicator.Developmental broadening of inhibitory sensory maps.Neuronal imaging with ultrahigh dynamic range multiphoton microscopy.WONOEP appraisal: new genetic approaches to study epilepsyAcute brain slice methods for adult and aging animals: application of targeted patch clamp analysis and optogenetics.Functional transformations of odor inputs in the mouse olfactory bulb.Neuronal and physiological correlation to hemodynamic resting-state fluctuations in health and disease.Imaging of mitochondrial Ca2+ dynamics in astrocytes using cell-specific mitochondria-targeted GCaMP5G/6s: mitochondrial Ca2+ uptake and cytosolic Ca2+ availability via the endoplasmic reticulum store.Direct behavioral and neurophysiological evidence for retronasal olfaction in mice.Mechanical restriction of intracortical vessel dilation by brain tissue sculpts the hemodynamic response.Branch-specific dendritic Ca(2+) spikes cause persistent synaptic plasticityEffects of Voluntary Locomotion and Calcitonin Gene-Related Peptide on the Dynamics of Single Dural Vessels in Awake Mice.Anatomical and functional neuroimaging in awake, behaving marmosets.An Interglomerular Circuit Gates Glomerular Output and Implements Gain Control in the Mouse Olfactory Bulb.Deciphering the molecular mechanism responsible for GCaMP6m's Ca2+-dependent change in fluorescence.Development of an imaging system for in vivo real-time monitoring of neuronal activity in deep brain of free-moving rats.Reversible Recruitment of a Homeostatic Reserve Pool of Synaptic Vesicles Underlies Rapid Homeostatic Plasticity of Quantal Content.Redox Indicator Mice Stably Expressing Genetically Encoded Neuronal roGFP: Versatile Tools to Decipher Subcellular Redox Dynamics in Neuropathophysiology.Post-anesthesia AMPA receptor potentiation prevents anesthesia-induced learning and synaptic deficits.A novel intrinsic analgesic mechanism: the enhancement of the conduction failure along polymodal nociceptive C-fibersImaging neuronal populations in behaving rodents: paradigms for studying neural circuits underlying behavior in the mammalian cortex.Generation of transgenic marmosets expressing genetically encoded calcium indicators.Resting-state hemodynamics are spatiotemporally coupled to synchronized and symmetric neural activity in excitatory neurons.Regulation of Physical Microglia-Neuron Interactions by Fractalkine Signaling after Status Epilepticus.Visualization of cortical, subcortical and deep brain neural circuit dynamics during naturalistic mammalian behavior with head-mounted microscopes and chronically implanted lenses.
P2860
Q26738372-EBFD5989-93F9-4D78-B689-271AD69BDF9DQ26799285-427C1C39-497C-405A-8DCA-11D0C27B4EBCQ27308728-AB672E41-0957-41B0-9030-4FCC590067C3Q27313496-F713AE0E-71B5-4CAF-BDE2-C7CEB6DA6ACBQ27342833-01AD2C02-888E-4640-8B66-5BF842C1774CQ30403515-265C8C88-5DAD-4234-9687-B51811DFD436Q30410575-736DA12B-1572-4D4E-8557-302293A0017DQ30434696-06C6BF6D-7C1E-4CA5-867C-3A3859C4A368Q30540551-D6FF8317-450C-478F-A8A2-1CE22FD92474Q30577189-B1106F42-FDA4-4B8B-A74F-5910ED7DC0BBQ30603159-3A85B1DF-A92F-4014-95BE-BC7AFBA08747Q30618239-41A26303-8888-4F8C-AE1D-6BB8D59675FAQ30671096-6A75594F-AA50-47D0-9B7D-D613DD7D596EQ31125015-E5112DA8-F623-4BDB-BCB2-1138ECA97F42Q33627375-E4062D07-C042-4D70-8262-A66ADC46E082Q33825318-D6C8988D-49F3-468B-86F1-704E1E4C1F35Q33904642-ACADF94E-6C37-4DB0-9454-6AC0F276B90FQ33918499-48F88E1C-400D-4BC8-85E4-213E3E808B64Q34021111-24BCCDB4-BB45-41AF-83EB-16181B0BB39EQ34448740-7E229DE2-994B-430E-8386-051DFA4EE988Q34448760-938D4396-8EC8-4039-9C7C-9DE28F920268Q34546614-6C29E2D5-05B4-4960-BB11-F7CAC0635377Q35040079-B9D0EF8F-73BD-4329-897E-7526A225A2A9Q35078966-5F6128ED-C151-47B7-8FD8-F5FF52ED0BD3Q35751124-60035BFF-CDEA-4D62-A983-9933727BD9B6Q35765717-B673D282-1DCB-491B-A92D-47AEE8459150Q35934682-BCC72F2B-4B23-45E9-ABE5-61958CF5FA54Q36154137-7E9564B7-9401-4527-8CDA-E3591AD35AB9Q36248361-9E490AFA-69C2-4E33-82E0-F7C43FF4EA09Q36275369-BE8A8D5E-4CC2-49A3-8928-45E025FA8C6EQ36383273-27FB1164-0814-4A5C-B85E-C61AAEB86935Q36480256-EF314200-52D2-40B1-A024-3796713DC7EDQ37062193-DCD73444-AD1D-4F70-9B4E-6ECC53DD5E5BQ37260818-76B242A2-6366-46B0-91FD-580EDFB26632Q37265865-F960752A-C382-41BE-B213-8C35134A92F7Q37282562-74B7EDAC-5320-49CC-94CD-CF42B5919811Q37325475-46E25698-E960-458A-86DA-68F63B5AE12CQ37549933-2957A09E-54B0-477E-B562-F36BE69FA508Q37587496-9D7F3275-FCD5-4869-9F36-7ED6AF79F87CQ37588185-6E65E033-4895-4779-93EE-5350F85B222F
P2860
Imaging neural activity using Thy1-GCaMP transgenic mice.
description
2012 nî lūn-bûn
@nan
2012 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Imaging neural activity using Thy1-GCaMP transgenic mice.
@ast
Imaging neural activity using Thy1-GCaMP transgenic mice.
@en
type
label
Imaging neural activity using Thy1-GCaMP transgenic mice.
@ast
Imaging neural activity using Thy1-GCaMP transgenic mice.
@en
prefLabel
Imaging neural activity using Thy1-GCaMP transgenic mice.
@ast
Imaging neural activity using Thy1-GCaMP transgenic mice.
@en
P2860
P50
P1433
P1476
Imaging neural activity using Thy1-GCaMP transgenic mice.
@en
P2860
P304
P356
10.1016/J.NEURON.2012.07.011
P4011
14b53723ea72f1cdcbfff618b26088346b4f40e9
P407
P50
P577
2012-10-17T00:00:00Z