Lasting changes in spontaneous multi-unit activity in the chick brain following passive avoidance training
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[1] E. Kandel,et al. Electrophysiology of hippocampal neurons. II. After-potentials and repetitive firing. , 1961, Journal of neurophysiology.
[2] A. Cherkin. Kinetics of memory consolidation: role of amnesic treatment parameters. , 1969, Proceedings of the National Academy of Sciences of the United States of America.
[3] F. James Rohlf,et al. Biometry: The Principles and Practice of Statistics in Biological Research , 1969 .
[4] Hellon Rf. The marking of electrode tip positions in nervous tissue. , 1971 .
[5] J L McGaugh,et al. Theta Rhythm: A Temporal Correlate of Memory Storage Processes in the Rat , 1972, Science.
[6] K. Ng,et al. Memory formation: A new three-phase model , 1976, Neuroscience Letters.
[7] Philip W. Landfield,et al. Different effects of posttrial driving or blocking of the theta rhythm on avoidance learning in rats , 1977, Physiology & Behavior.
[8] K. Ng,et al. Psychobiology of memory: Towards a model of memory formation , 1977 .
[9] C. Destrade,et al. Effects of hippocampal electrical stimulation on long-term memory and on cholinergic mechanisms in three inbred strains of mice , 1977, Brain Research.
[10] J. Storm-Mathisen. Localization of transmitter candidates in the brain: the hippocampal formation as a model , 1977, Progress in Neurobiology.
[11] P. Schwartzkroin,et al. Probable calcium spikes in hippocampal neurons , 1977, Brain Research.
[12] T. Ott,et al. Post-training hippocampal rhythmic slow activity ("theta") elicited by septal stimulation improves memory consolidation in rats. , 1977, Behavioral biology.
[13] R E Phillips,et al. A stereotaxic atlas of the brain of the three‐day‐old domestic chick , 1978, The Journal of comparative neurology.
[14] D. Prince,et al. Participation of calcium spikes during intrinsic burst firing in hippocampal neurons , 1978, Brain Research.
[15] C. Sahley,et al. Cholinergic involvement in inhibitory behavior of the young domestic chick. , 1978, Behavioral biology.
[16] R K Wong,et al. Dendritic mechanisms underlying penicillin-induced epileptiform activity. , 1979, Science.
[17] C. Destrade,et al. Memory formation as related to genotypic or experimental variations of hippocampal cholinergic activity in mice , 1979, Physiology & Behavior.
[18] G. Kovacs,et al. Effect of oxytocin and vasopressin on memory consolidation: sites of action and catecholaminergic correlates after local microinjection into limbic-midbrain structures , 1979, Brain Research.
[19] R. Nicoll,et al. Epileptiform burst afterhyperolarization: calcium-dependent potassium potential in hippocampal CA1 pyramidal cells. , 1980, Science.
[20] M. Gibbs,et al. Transient increase in forebrain muscarinic cholinergic receptor binding following passive avoidance learning in the young chick , 1980, Neuroscience.
[21] S. Rose,et al. Passive Avoidance Learning Results in Region‐Specific Changes in Concentration of and Incorporation into Colchicine‐Binding Proteins in the Chick Forebrain , 1980, Journal of neurochemistry.
[22] D. Johnston,et al. Voltage clamp discloses slow inward current in hippocampal burst-firing neurones , 1980, Nature.
[23] D. Prince,et al. A calcium-activated hyperpolarization follows repetitive firing in hippocampal neurons. , 1980, Journal of neurophysiology.
[24] S. Rose,et al. Increased Incorporation of [3H]Fucose into Chick Brain Glycoproteins Following Training on a Passive Avoidance Task , 1980, Journal of neurochemistry.
[25] S. Rose,et al. Subcellular locaization of increased incorporation of [3H]fucose following passive avoidance learning in the chick , 1980, Neuroscience Letters.
[26] G. Horn,et al. Imprinting. A study of cholinergic receptor sites in parts of the chick brain. , 1981, Experimental brain research.
[27] Atropine disrupts passive avoidance learning in young chicks. , 1981, Behavioral and neural biology.
[28] G. Horn,et al. Differential effects of exposure to an imprinting stimulus on ‘spontaneous’ neuronal activity in two regions of the chick brain , 1982, Brain Research.
[29] R. Nicoll,et al. Feed‐forward dendritic inhibition in rat hippocampal pyramidal cells studied in vitro , 1982, The Journal of physiology.
[30] C. Woody,et al. Changes in excitability to weak-intensity extracellular electrical stimulation of units of pericruciate cortex in cats. , 1982, Journal of neurophysiology.
[31] C. Destrade,et al. Facilitation of memory consolidation by post-training electrical stimulation of the medial septal nucleus: is it mediated by changes in rhythmic slow activity? , 1983, Behavioral and neural biology.
[32] G. Collingridge,et al. Excitatory amino acids in synaptic transmission in the Schaffer collateral‐commissural pathway of the rat hippocampus. , 1983, The Journal of physiology.
[33] D. A. Brown,et al. Persistent slow inward calcium current in voltage‐clamped hippocampal neurones of the guinea‐pig. , 1983, The Journal of physiology.
[34] Wong Rk,et al. Synchronized burst discharge in disinhibited hippocampal slice. II. Model of cellular mechanism. , 1983 .
[35] Putative cholinergic afferents of the chick hyperstriatum ventrale: A combined acetylcholinesterase and retrograde fluorescence labelling study , 1983, Neuroscience Letters.
[36] R K Wong,et al. Synchronized burst discharge in disinhibited hippocampal slice. I. Initiation in CA2-CA3 region. , 1983, Journal of neurophysiology.
[37] P. Schwindt,et al. Multiple actions of N-methyl-d-aspartate on cat neocortical neurons in vitro , 1983, Brain Research.
[38] M. Armstrong‐James,et al. Effects of ionophoresed noradrenaline on the spontaneous activity of neurones in rat primary somatosensory cortex. , 1983, The Journal of physiology.
[39] Joel L. Davis,et al. Dose-dependent and time-dependent action of oxytocin on chick memory , 1983, Brain Research.
[40] S. Harding,et al. Training increases [3H]fucose incorporation in chick brain only if followed by memory storage , 1984, Neuroscience.
[41] S. Rose,et al. Hemispheric asymmetry of synapses in chick medial hyperstriatum ventrale following passive avoidance training: a stereological investigation. , 1984, Brain research.
[42] L. Nowak,et al. Magnesium gates glutamate-activated channels in mouse central neurones , 1984, Nature.
[43] G. Horn,et al. Long-term consequences of exposure to an imprinting stimulus on ‘spontaneous’ impulse activity in the chick brain , 1984, Behavioural Brain Research.
[44] S. Rose,et al. Differential 2-deoxyglucose uptake into chick brain structures during passive avoidance training , 1984, Neuroscience.
[45] M. Mayer,et al. Voltage-dependent block by Mg2+ of NMDA responses in spinal cord neurones , 1984, Nature.
[46] G. Horn. Memory, imprinting, and the brain : an inquiry into mechanisms , 1985 .
[47] G. Horn,et al. Connections of the hyperstriatum ventrale of the domestic chick (Gallus domesticus). , 1985, Journal of anatomy.
[48] S. Rose,et al. Passive avoidance training results in lasting changes in deoxyglucose metabolism in left hemisphere regions of chick brain. , 1985, Behavioral and neural biology.
[49] F. Orrego,et al. N-methylaspartate-activated calcium channels in rat brain cortex slices. Effect of calcium channel blockers and of inhibitory and depressant substances , 1986, Neuroscience.
[50] P. Dutar,et al. Septo-hippocampal neurons in the rat: Further study of their physiological and pharmacological properties , 1986, Brain Research.
[51] H. Wigström,et al. Mode of action of excitatory amino acid receptor antagonists on hippocampal long-lasting potentiation , 1986, Neuroscience.
[52] K. Krnjević. Role of Calcium Ions in Learning , 1986 .
[53] H. Mclennan,et al. 2-amino-5-phosphonovalerate and CO2+ selectively block depolarization and burst firing of rat hippocampal CA1 pyramidal neurones by N-methyl-d-aspartate , 1986, Neuroscience.
[54] G. Lynch,et al. Selective impairment of learning and blockade of long-term potentiation by an N-methyl-D-aspartate receptor antagonist, AP5 , 1986, Nature.
[55] D. O. Hebb,et al. The organization of behavior , 1988 .