Real-time optical mapping of neuronal activity: from single growth cones to the intact mammalian brain.
about
Response of SI cortex to ipsilateral, contralateral and bilateral flutter stimulation in the catResponse of SII cortex to ipsilateral, contralateral and bilateral flutter stimulation in the catStimulus-dependent spatial patterns of response in SI cortexResponse of anterior parietal cortex to cutaneous flutter versus vibrationPatterns of synaptic activity in neural networks recorded by light emission from synaptolucinsOptical brain imaging in vivo: techniques and applications from animal to man.High-speed, random-access fluorescence microscopy: I. High-resolution optical recording with voltage-sensitive dyes and ion indicatorsPulsed infrared light alters neural activity in rat somatosensory cortex in vivoNonlinear optical properties of potential sensitive styryl dyesVSDI: a new era in functional imaging of cortical dynamics.Comparison of two voltage-sensitive dyes and their suitability for long-term imaging of neuronal activity.Effects of barium and bicarbonate on glial cells of Necturus optic nerve. Studies with microelectrodes and voltage-sensitive dyes.Calcium channels that are required for secretion from intact nerve terminals of vertebrates are sensitive to omega-conotoxin and relatively insensitive to dihydropyridines. Optical studies with and without voltage-sensitive dyes.Optical measurement of conduction in single demyelinated axons.Large and rapid changes in light scattering accompany secretion by nerve terminals in the mammalian neurohypophysisPlasticity of the primate prefrontal cortex.Ca2+- and K+-dependent communication between central nervous system myelinated axons and oligodendrocytes revealed by voltage-sensitive dyes.Toward microendoscopy-inspired cardiac optogenetics in vivo: technical overview and perspective.Functiogenesis of the embryonic central nervous system revealed by optical recording with a voltage-sensitive dye.Luminescence spectroscopic approaches in studying cell surface dynamics.Microscopic imaging of cells.Optical recording of synaptic potentials from processes of single neurons using intracellular potentiometric dyesActivity-dependent calcium transients in central nervous system myelinated axons revealed by the calcium indicator Fura-2Effect of trichloroethylene on spatiotemporal pattern of LTP in mouse hippocampal slices.Spatiotemporal patterns of dorsal root-evoked network activity in the neonatal rat spinal cord: optical and intracellular recordings.Flavoprotein autofluorescence imaging of neuronal activation in the cerebellar cortex in vivo.Responses of contralateral SI and SII in cat to same-site cutaneous flutter versus vibration.Differences between monkey visual cortex cells in triplet and ghost doublet informational symbols relationships.Response of anterior parietal cortex to different modes of same-site skin stimulation.GABA-Induced intrinsic light-scattering changes associated with voltage-sensitive dye signals in embryonic brain stem slices: coupling of depolarization and cell shrinkage.Developmental changes in trial-to-trial variations in whisker barrel responses studied using intrinsic optical imaging: comparison between normal and de-whiskered rats.Probing the Electrophysiology of the Developing Heart.Selective suppression of horizontal propagation in rat visual cortex by norepinephrine.Recording of cell action potentials with AlGaN∕GaN field-effect transistors
P2860
Q24794746-3E99D321-63C8-431D-9A12-41411BC35447Q24797584-7CF1B1A7-E581-4EAC-B88D-80D3C6D529ECQ24810797-8534E1DC-0524-4286-8E48-F5958FF75251Q28139307-2BC20CDF-68C2-4DEC-9AF0-E9433607B60FQ28307290-FEE040C1-905C-49BF-8160-84C0260E33FCQ30494149-43FE1FFC-74A5-4C09-B08E-4C1129904E89Q30537933-97825500-4EBA-4657-98BC-BF117F6115E2Q33880022-B36B9E04-CFA9-4925-9139-6D7B3EC00CC3Q34260235-1BDBDAA3-833E-4EEA-8D8E-A9BE23E60555Q34360826-7CE24C60-2A8B-4F07-9F49-E332AC998922Q35016796-5AC61719-DDFD-41B6-8C6D-593D250534BDQ36410238-F3BF6E16-7130-400A-8F5F-533AE0C8D8F5Q36410247-1E6E7C17-3C0E-445F-B277-C8862563A0CEQ36410502-12F6093E-3839-4217-9FD1-372852A40E18Q36433754-9CFA2D81-BC12-4C62-A822-0850CF6062EFQ36829166-30732028-B3EA-4AD8-82A6-2FE81B69BBB5Q37398199-31773A32-95C1-4E50-9B10-DB43B3EC5319Q38239379-100570DF-22D1-4A34-B69A-9B25A6EA2FEEQ38953359-C8940190-3BB9-41A7-83BA-2038F62A4F2AQ39571001-24C0AE44-61F6-4CB7-98AE-452EB3C064B2Q39696100-56C83935-E7DE-49E6-BF53-7B9E0E567AAAQ41164927-26069998-CD45-4912-9F26-EECF2D40BFE2Q41170923-C0069E0A-4CD2-4CD2-9D55-3DE6788E160FQ43931823-6FBF36EF-D342-4CDA-8F93-FB1BACA0D8DEQ46486063-397720C3-01CE-4B39-BF37-C6968A50BCF0Q48014843-33BDB6CF-E430-4D4F-A59A-5D26690877CCQ48094417-78959C47-2573-45D9-9905-F71EED0409E7Q48147425-CDC97265-A58A-4213-B6D4-44B8D4128027Q48322693-E1A1C7FF-7B67-4945-8F1F-9FB21B79BCC2Q48461001-546E4397-BB0E-4D2C-A4CD-DBBA33A27168Q48826176-7FB48F16-F8E5-4B6F-B259-0BC699E03C03Q49258743-7E8EF683-A74A-4CCD-8CC6-E77458ADB6A7Q51420889-A4CE0648-FA53-4303-ADD8-21EFD1668473Q58059412-09FF59EA-83E3-4AE7-A7B5-E0262729E3C4
P2860
Real-time optical mapping of neuronal activity: from single growth cones to the intact mammalian brain.
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年学术文章
@wuu
1985年学术文章
@zh-cn
1985年学术文章
@zh-hans
1985年学术文章
@zh-my
1985年学术文章
@zh-sg
1985年學術文章
@yue
1985年學術文章
@zh
1985年學術文章
@zh-hant
name
Real-time optical mapping of n ...... to the intact mammalian brain.
@en
Real-time optical mapping of n ...... to the intact mammalian brain.
@nl
type
label
Real-time optical mapping of n ...... to the intact mammalian brain.
@en
Real-time optical mapping of n ...... to the intact mammalian brain.
@nl
prefLabel
Real-time optical mapping of n ...... to the intact mammalian brain.
@en
Real-time optical mapping of n ...... to the intact mammalian brain.
@nl
P1476
Real-time optical mapping of n ...... to the intact mammalian brain.
@en
P2093
Grinvald A
P304
P356
10.1146/ANNUREV.NE.08.030185.001403
P577
1985-01-01T00:00:00Z