Organization and synaptic physiology of crustacean neuromuscular systems.
about
De novo transcriptome assembly for the lobster Homarus americanus and characterization of differential gene expression across nervous system tissues.Effects of mobile buffers on facilitation: experimental and computational studies.Ion channel development, spontaneous activity, and activity-dependent development in nerve and muscle cells.Effect of the venom of Glycera convoluta on the spontaneous quantal release of transmitter.Functional history of two motor neurons and the morphometry of their neuromuscular junctions in the gill of Aplysia: evidence for differential aging.Serotonin and synaptic transmission at invertebrate neuromuscular junctions.Short-term synaptic plasticity compensates for variability in number of motor neurons at a neuromuscular junction.Membrane potentials, synaptic responses, neuronal circuitry, neuromodulation and muscle histology using the crayfish: student laboratory exercisesA skeletal muscle model of extreme hypertrophic growth reveals the influence of diffusion on cellular design.Muscle-specific calpain is localized in regions near motor endplates in differentiating lobster claw musclesLambert-Eaton sera reduce low-voltage and high-voltage activated Ca2+ currents in murine dorsal root ganglion neurons.Neurobiology of the crustacean swimmeret system.Invaginating Presynaptic Terminals in Neuromuscular Junctions, Photoreceptor Terminals, and Other Synapses of Animals.Historical view and physiology demonstration at the NMJ of the crayfish opener muscle.gamma-Aminobutyric acid receptor binding and uptake in membrane fractions of crayfish muscle.Effects of caroverine and diltiazem on synaptic responses, L-glutamate-induced depolarization and potassium efflux in the frog spinal cord.Cell-selective modulation of the Drosophila neuromuscular system by a neuropeptide.A classic improved: minor tweaks yield major benefits in crayfish slow-flexor preparations.Physiological recordings of high and low output NMJs on the crayfish leg extensor muscle.Dichotomy in phasic-tonic neuromuscular structure of crayfish inhibitory axons.Carbonic anhydrase isozyme distribution and characterization in metabolic fiber types of the dorsal levator muscle of the blue crab, Callinectes sapidus.Passive properties of swimmeret motor neurons.Activity of phasic motor neurons partially transforms the neuronal and muscle phenotype to a tonic-like state.GABA and GAD expression in the X-organ sinus gland system of the Procambarus clarkii crayfish: inhibition mediated by GABA between X-organ neurons.Long-term in vivo modulation of synaptic efficacy at the neuromuscular junction of Rana pipiens frogs.Phenotype plasticity in postural muscles of the crayfish Orconectes limosus Raf.: correlation of myofibrillar ATPase-based fiber typing with electrophysiological fiber properties and the effect of chronic nerve stimulation.Investigation of the juxtamembrane region of neuronal-Synaptobrevin in synaptic transmission at the Drosophila neuromuscular junction.The neuromuscular transform: the dynamic, nonlinear link between motor neuron firing patterns and muscle contraction in rhythmic behaviors.Co-localization of Gamma-Aminobutyric Acid and Glutamate in Neurons of the Spider Central Nervous System
P2860
Q30393650-AA86CB4A-8DF8-4D67-9551-A2E1414EA852Q34173163-4A08C7C4-5354-4E42-8E1D-74C99F94F93BQ36178989-911541F9-26C2-466B-944F-0CBAD67F3217Q36201402-47A3960B-BE39-4E70-BF51-1A09EB0799E9Q36265395-3D2A09FB-CEB0-4CF0-8CDB-6DC7E99F3310Q36267834-161DD5DF-68F7-49FD-B468-7FDBB8866ADEQ36419342-DD495C72-364A-4065-AA11-D2685C4F8D26Q37070551-5016004E-E1AB-42E2-B484-F28212F7C9E4Q37217957-1F625F56-C3AA-4B5C-8B6C-61299B07C2D5Q37286043-EB1DDA7E-D61F-4FDA-9216-7D3E35B8DF55Q37391686-72C864A6-44C0-4124-8EB9-92BBE02ED913Q37978124-32883CD7-9204-45FD-8A79-1A6A99607E5FQ39371324-5754D30E-1CCC-49AC-A5A2-AD74E3609E02Q39930764-E4A08631-23F9-4D32-B2E7-3CCD33142D4AQ41504640-F8A66DBD-ACB5-4435-8532-89FB348D4CFDQ41741608-44264844-962B-4F65-B57A-FBEDBD34FC97Q42470444-F47C7E22-6DF1-469B-A6A4-4C2EA2C6268AQ42662965-C9DAA9CD-27A7-4842-BDDE-D14B2E7001A9Q42791272-48396092-5358-40F0-82F1-2C7415FDCDFCQ43640536-8EA16698-8705-43DD-BCAD-3CD391AFBF59Q43692309-FD1F7D38-C1D2-4570-B421-E6DBBE7F7FBDQ46161493-8CD41F12-AAAE-48B4-983C-BAC2CC88FA69Q47976111-944FFD7A-2D53-4941-AC4E-CFF16F61D994Q50534391-406AE026-44C9-4011-A368-9DAFA1A28DF6Q50754536-0E8B32FD-3480-4415-8CAD-3A41832A3007Q52117358-663F6155-41DD-4A5A-AB0E-DD4C63C58393Q52774642-B09C368B-4A6F-4894-8248-AF147A0A901FQ52893645-ACF39F03-9703-46CF-B124-34E463573CF1Q58413702-4EAE3592-288A-45AF-B9DB-EFBB69117A5B
P2860
Organization and synaptic physiology of crustacean neuromuscular systems.
description
1976 nî lūn-bûn
@nan
1976年の論文
@ja
1976年論文
@yue
1976年論文
@zh-hant
1976年論文
@zh-hk
1976年論文
@zh-mo
1976年論文
@zh-tw
1976年论文
@wuu
1976年论文
@zh
1976年论文
@zh-cn
name
Organization and synaptic physiology of crustacean neuromuscular systems.
@en
Organization and synaptic physiology of crustacean neuromuscular systems.
@nl
type
label
Organization and synaptic physiology of crustacean neuromuscular systems.
@en
Organization and synaptic physiology of crustacean neuromuscular systems.
@nl
prefLabel
Organization and synaptic physiology of crustacean neuromuscular systems.
@en
Organization and synaptic physiology of crustacean neuromuscular systems.
@nl
P1476
Organization and synaptic physiology of crustacean neuromuscular systems.
@en
P2093
P304
P356
10.1016/0301-0082(76)90009-5
P577
1976-01-01T00:00:00Z