scholarly article | Q13442814 |
review article | Q7318358 |
P819 | ADS bibcode | 1972PNAS...69.3292K |
P356 | DOI | 10.1073/PNAS.69.11.3292 |
P8608 | Fatcat ID | release_nv4tx4xv7rhi5fwzo56eptvu54 |
P932 | PMC publication ID | 389756 |
P698 | PubMed publication ID | 4343962 |
P5875 | ResearchGate publication ID | 18821897 |
P2093 | author name string | Kosower EM | |
P2860 | cites work | Affinity oxidation of the reduced acetylcholine receptor | Q71710230 |
Development of acetylcholine sensitivity in muscle following blockage of nerve impulses | Q71794446 | ||
Effects of blocking sulfhydryl groups and of reducing disulfide bonds on the acetylcholine-activated permeability system of the electroplax | Q72914428 | ||
Role of contractile microfilaments in the release of histamine from mast cells | Q93720912 | ||
The fluid mosaic model of the structure of cell membranes | Q28239890 | ||
Use of a snake venom toxin to characterize the cholinergic receptor protein | Q28251289 | ||
The number of catalytic sites in acetylcholinesterase | Q28364881 | ||
Early experience effects upon cortical dendrites: a proposed model for development | Q34051783 | ||
Inhibition of release of dopamine- -hydroxylase and norepinephrine from sympathetic nerves by colchicine, vinblastine, or cytochalasin-B (hypogastric nerve stimulation-exocytosis-microtubules-microfilaments-guinea pig) | Q34691375 | ||
Stimulus-secretion coupling: the concept and clues from chromaffin and other cells | Q35227005 | ||
Molecular biology of synaptic receptors | Q36562464 | ||
An electrophysiological approach to drug-receptor mechanisms | Q39984985 | ||
Neurochemistry: At the Crossroads of Neurobiology | Q39994027 | ||
The cholinergic synapse and the site of memory | Q41511695 | ||
Stimulation by acetylcholine of phosphatidylinositol labelling. Subcellular distribution in rat cerebral-cortex slices | Q41511866 | ||
Co-operative action a calcium ions in transmitter release at the neuromuscular junction | Q41528052 | ||
Electron microscopy of presynaptic organelles of the spinal cord | Q42092522 | ||
Specific Labelling of the Curare Binding Sites of Acetylcholinesterase and Some Properties of the Modified Enzyme | Q43497810 | ||
The number of receptors for calcium ions at the nerve terminals of one endplate | Q45012389 | ||
Cholinergic receptor molecules and cholinesterase molecules at mouse skeletal muscle junctions | Q47735777 | ||
Association of the acetylcholine-phosphatidyl inositol effect with a "receptor" proteolipid from cerebral cortex | Q48829494 | ||
A proteolytic memory element based on the integrating function of the neuron | Q51118819 | ||
Micropinocytotic Origin of Coated and Smooth Microvesicles (“Synaptic Vesicles”) in Neurosecretory Terminals of Posterior Pituitary Glands demonstrated by Incorporation of Horseradish Peroxidase | Q51124368 | ||
Coated Microvesicles in Neurosecretory Terminals of Posterior Pituitary Glands shed their Coats to become Smooth “Synaptic” Vesicles | Q51124371 | ||
Freeze-fracturing of presynaptic membranes in the central nervous system. | Q51125814 | ||
Changes in Visual Cortex on First Exposure of Rats to Light: Effect on Synaptic Dimensions | Q51210472 | ||
Retrograde amnesia: electroconvulsive shock effects after termination of rapid eye movement sleep deprivation. | Q52329952 | ||
Neurochemical correlates of learning and environmental change. | Q52334621 | ||
Effect of the thiol-oxidizing agent, diamide, on acetylcholine release at the frog endplate. | Q53991006 | ||
Synaptic vesicles in freeze-etched electric tissue of Torpedo. | Q54616414 | ||
Effects of black widow spider venom on the frog neuromuscular junction. Effects on the fine structure of the frog neuromuscular junction. | Q54765389 | ||
Stimulation-dependent alterations in peroxidase uptake at lobster neuromuscular junctions. | Q55061422 | ||
Holographic Model of Temporal Recall | Q59053780 | ||
Biological Sciences: Isolation of the Cholinergic Receptor Protein of Torpedo Electric Tissue | Q59071507 | ||
Lack of identity of tropocalcin with troponin components | Q68494046 | ||
Acetylcholine receptors in muscle fibres | Q68631927 | ||
Ionic permeability changes induced by some cholinergic agonists on normal and denervated frog muscles | Q68635165 | ||
Innervation and acetylcholine sensitivity of skeletal muscle cells differentiated in vitro from chick embryo | Q68637321 | ||
Enlargement of spinal cord synapses after repetitive stimulation of a single posterior root | Q70112118 | ||
Effects of cytochalasin B on polymorphonuclear leucocyte locomotion, phagocytosis and glycolysis | Q70439654 | ||
The effect of Ca2+ on the sulfhydryl reactivity of troponin: Evidence for a Ca2+-induced conformational charge | Q70557944 | ||
P433 | issue | 11 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 3292-3296 | |
P577 | publication date | 1972-11-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | A molecular basis for learning and memory | |
P478 | volume | 69 |
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Q52131262 | A neuronal network model of associative memory and a brain theory. |
Q36476419 | Biochemical Transfer of Acquired Information |
Q39064820 | Glutathione (author's transl) |
Q35634490 | Pathways of the past: the imprint of memory |
Q67290757 | The Acetylcholine Receptor as Part of a Protein Complex in Receptor-Enriched Membrane Fragments from Torpedo californica Electric Tissue |
Q39293102 | The Glutathione Status of Cells |
Q38014835 | The Synapses of the Nervous System |
Q48421559 | Visual imprinting and the neural mechanisms of recognition memory |
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