Published in J Physiol on November 01, 1961
The mechanism of catecholamine release from the adrenal medulla and the role of calcium in stimulus-secretion coupling. J Physiol (1963) 6.74
PHARMACOLOGICAL STUDIES ON PRESYNAPTIC INHIBITION. J Physiol (1963) 3.90
Post-synaptic potentiation: interaction between quanta of acetylcholine at the skeletal neuromuscular synapse. J Physiol (1975) 3.83
Depolarization of central terminals of Group I afferent fibres from muscle. J Physiol (1962) 2.51
Changes in presynaptic inhibition of Ia fibres at the onset of voluntary contraction in man. J Physiol (1987) 2.45
An electrophysiological demonstration of the axonal projections of single spinal interneurones in the cat. J Physiol (1972) 2.36
MECHANSIM OF FACILITATION AND DEPRESSION OF THE EXCITATORY SYNAPTIC POTENTIAL IN SPINAL MOTONEURONES. J Physiol (1964) 2.28
Mice devoid of gamma-aminobutyrate type A receptor beta3 subunit have epilepsy, cleft palate, and hypersensitive behavior. Proc Natl Acad Sci U S A (1997) 2.16
PRESYNAPTIC HYPERPOLARIZATION: A ROLE FOR FINE AFFERENT FIBRES. J Physiol (1964) 2.08
Central pathways responsible for depolarization of primary afferent fibres. J Physiol (1962) 2.05
The pharmacology and ionic dependency of amino acid responses in the frog spinal cord. J Physiol (1973) 1.99
Presynaptic inhibition of the spinal monosynaptic reflex pathway. J Physiol (1962) 1.86
THE VENTRO-BASAL NUCLEUS OF THE THALAMUS: POTENTIAL FIELDS, SYNAPTIC TRANSMISSION AND EXCITABILITY OF BOTH PRESYNAPTIC AND POST-SYNAPTIC COMPONENTS. J Physiol (1964) 1.73
Presynaptic inhibition of the central actions of flexor reflex afferents. J Physiol (1962) 1.73
Computational principles of sensorimotor control that minimize uncertainty and variability. J Physiol (2006) 1.67
The effect of electric polarization of the spinal cord on central afferent fibres and on their excitatory synaptic action. J Physiol (1962) 1.67
Stringent specificity in the construction of a GABAergic presynaptic inhibitory circuit. Cell (2009) 1.59
Changes of extracellular potassium concentration induced by neuronal activity in the sinal cord of the cat. J Physiol (1974) 1.47
INTRACELLULAR ASPECTS OF STIMULATING MOTONEURONES BY MUSCLE STRETCH. J Physiol (1964) 1.39
Modulation of transmission at an inhibitory synapse in the central nervous system of the leech. J Physiol (1978) 1.36
Presynaptic inhibition of spinal sensory feedback ensures smooth movement. Nature (2014) 1.34
Amino acids and presynaptic inhibition in the rat cuneate nucleus. J Physiol (1971) 1.32
In search of lost presynaptic inhibition. Exp Brain Res (2009) 1.28
The organization of heterogenic reflexes among muscles crossing the ankle joint in the decerebrate cat. J Physiol (1989) 1.21
Organization of neuronal systems mediating presynaptic inhibition of group II muscle afferents in the cat. J Physiol (1995) 1.10
Morphological, neurochemical and electrophysiological features of parvalbumin-expressing cells: a likely source of axo-axonic inputs in the mouse spinal dorsal horn. J Physiol (2012) 1.08
'ADJACENT' AND 'REMOTE' POST-SYNAPTIC INHIBITION IN MOTONEURONES STIMULATED BY MUSCLE STRETCH. J Physiol (1964) 1.06
Testing the excitability of human motoneurons. Front Hum Neurosci (2013) 1.05
Tests for presynaptic modulation of corticospinal terminals from peripheral afferents and pyramidal tract in the macaque. J Physiol (2006) 1.01
Dynamic spike thresholds during synaptic integration preserve and enhance temporal response properties in the avian cochlear nucleus. J Neurosci (2010) 1.01
Antagonism of 5-hydroxytryptamine receptors by quipazine. Br J Pharmacol (1980) 1.01
ELECTROPHYSIOLOGY OF THE FETAL SPINAL CORD. II. INTERACTION AMONG PERIPHERAL INPUTS AND RECURRENT INHIBITION. J Gen Physiol (1964) 1.00
Muscle stretch and the presynaptic inhibition of the group Ia pathway to motoneurones. J Physiol (1965) 0.99
Presynaptic inhibition of the monosynaptic reflex pathway in kittens. J Physiol (1963) 0.96
The role of GABAA and GABAB receptors in presynaptic inhibition of Ia EPSPs in cat spinal motoneurones. J Physiol (1992) 0.95
Projections of the second cervical dorsal root ganglion to the cochlear nucleus in rats. J Comp Neurol (2006) 0.94
Effects of cutaneous nerve and intraspinal conditioning of C-fibre afferent terminal excitability in decerebrate spinal rats. J Physiol (1981) 0.92
Properties and distribution of peripherally evoked presynaptic hyperpolarization in cat lumbar spinal cord. J Physiol (1972) 0.89
Post-synaptic conductance increase associated with presynaptic inhibition in cat lumbar motoneurones. J Physiol (1980) 0.88
Nerve Terminal GABAA Receptors Activate Ca2+/Calmodulin-dependent Signaling to Inhibit Voltage-gated Ca2+ Influx and Glutamate Release. J Biol Chem (2009) 0.87
Some pharmacological studies on the spastic mouse. Br J Pharmacol (1982) 0.87
Synaptic physiology of spinal motoneurones of normal and spastic mice: an in vitro study. J Physiol (1986) 0.87
Extracellular potassium accumulation in the frog spinal cord induced by stimulation of the skin and ventrolateral columns. J Physiol (1981) 0.86
Presynaptic and postsynaptic effects of local cathodal DC polarization within the spinal cord in anaesthetized animal preparations. J Physiol (2014) 0.86
Fatigue-related depression of the feline monosynaptic gastrocnemius-soleus reflex. J Physiol (2003) 0.85
Primary afferent depolarization of myelinated fibres in the joint and interosseous nerves of the cat. J Physiol (1993) 0.84
Inhibition downunder: an update from the spinal cord. Curr Opin Neurobiol (2014) 0.83
Modulation of afferent-evoked neurotransmission by 5-HT3 receptors in young rat dorsal horn neurones in vitro: a putative mechanism of 5-HT3 induced anti-nociception. Br J Pharmacol (1999) 0.82
Presynaptic inhibition in the abdominal ganglion of Aplysia. J Physiol (1965) 0.81
Observations of synaptic structures: origins of the neuron doctrine and its current status. Philos Trans R Soc Lond B Biol Sci (2005) 0.80
SODIUM AND THE DORSAL ROOT POTENTIAL. J Physiol (1964) 0.79
The tract of Lissauer and the dorsal root potential. J Physiol (1978) 0.79
Acid-sensing ion channels regulate spontaneous inhibitory activity in the hippocampus: possible implications for epilepsy. Philos Trans R Soc Lond B Biol Sci (2016) 0.78
Reduced postactivation depression of soleus H reflex and root evoked potential after transcranial magnetic stimulation. J Neurophysiol (2015) 0.78
Autoantibodies to Synaptic Receptors and Neuronal Cell Surface Proteins in Autoimmune Diseases of the Central Nervous System. Physiol Rev (2017) 0.78
Release-dependent feedback inhibition by a presynaptically localized ligand-gated anion channel. Elife (2016) 0.77
Does trans-spinal and local DC polarization affect presynaptic inhibition and post-activation depression? J Physiol (2016) 0.77
Muscarinic control of AMPA receptor responsiveness in mouse spinal cord motoneurons. J Physiol (2012) 0.77
The dorsal root potentials produced on both sides of the spinal cord by long-lasting stimulation of the cutaneous afferents. J Physiol (1973) 0.77
Internal and External Feedback Circuits for Skilled Forelimb Movement. Cold Spring Harb Symp Quant Biol (2015) 0.76
Regulation of action potential waveforms by axonal GABAA receptors in cortical pyramidal neurons. PLoS One (2014) 0.76
Pre-Synaptic Inhibition of Afferent Feedback in the Macaque Spinal Cord Does Not Modulate with Cycles of Peripheral Oscillations Around 10 Hz. Front Neural Circuits (2015) 0.75
Subcomponents of the cervical evoked response in patients with intracerebral circulatory arrest. J Neurol Neurosurg Psychiatry (1984) 0.75
Muscle afferent excitability testing in spinal root-intact rats: Dissociating peripheral afferent and efferent volleys generated by intraspinal microstimulation. J Neurophysiol (2016) 0.75
Differential laminar sensitivity of rat cerebral cortex to penicillin [proceedings]. J Physiol (1979) 0.75
Measuring spinal presynaptic inhibition in mice by dorsal root potential recording in vivo. J Vis Exp (2014) 0.75
Substance B: an endogenous brain factor that reverses presynaptic inhibition of acetylcholine release. Proc Natl Acad Sci U S A (1986) 0.75
Hypothesis: Hughlings Jackson and presynaptic inhibition: is there a big picture? J Neurophysiol (2016) 0.75
The interpretation of potential changes in the spinal cord. J Physiol (1938) 15.19
Changes in end-plate activity produced by presynaptic polarization. J Physiol (1954) 13.28
Post-tetanic potentiation of response in monosynaptic reflex pathways of the spinal cord. J Gen Physiol (1949) 11.56
The specific ionic conductances and the ionic movements across the motoneuronal membrane that produce the inhibitory post-synaptic potential. J Physiol (1955) 10.79
The effects of presynaptic polarization on the spontaneous activity at the mammalian neuromuscular junction. J Physiol (1956) 8.30
Intermittent conduction in the spinal cord. J Physiol (1935) 7.93
Analysis of the fast afferent impulses from thigh muscles. J Physiol (1953) 5.67
A study on the mechanism of impulse transmission across the giant synapse of the squid. J Physiol (1958) 5.50
Synaptic actions on motoneurones caused by impulses in Golgi tendon organ afferents. J Physiol (1957) 5.02
Synaptic action during and after repetitive stimulation. J Physiol (1960) 5.01
Effects induced in a monosynaptic reflex path by its activation. J Neurophysiol (1951) 4.98
Synaptic actions on motoneurones in relation to the two components of the group I muscle afferent volley. J Physiol (1957) 4.25
The time courses of excitatory and inhibitory synaptic actions. J Physiol (1959) 2.87
The inhibitory suppression of reflex discharges from motoneurones. J Physiol (1955) 2.62
Presynaptic changes associated with post-tetanic potentiation in the spinal cord. J Physiol (1959) 2.40
Delayed effects of peripheral severance of afferent nerve fibres on the efficacy of their central synapses. J Physiol (1959) 2.16
Reflex inhibition by dorsal root interaction. J Neurophysiol (1955) 2.16
[Study of slow & rapid subgroups of group I (afferent fibers of muscular origin of large diameter) in the cat]. J Physiol (Paris) (1957) 1.84
Monosynaptic excitatory action on motoneurones regenerated to antagonistic muscles. J Physiol (1960) 1.15
The recording of potentials from motoneurones with an intracellular electrode. J Physiol (1952) 19.11
Cholinergic and inhibitory synapses in a pathway from motor-axon collaterals to motoneurones. J Physiol (1954) 12.62
The specific ionic conductances and the ionic movements across the motoneuronal membrane that produce the inhibitory post-synaptic potential. J Physiol (1955) 10.79
The electrical properties of the motoneurone membrane. J Physiol (1955) 10.70
Interactions between motoneurones and muscles in respect of the characteristic speeds of their responses. J Physiol (1960) 8.55
Differentiation of fast and slow muscles in the cat hind limb. J Physiol (1960) 8.04
The convergence of monosynaptic excitatory afferents on to many different species of alpha motoneurones. J Physiol (1957) 7.11
Intracellular recording from antidromically activated motoneurones. J Physiol (1953) 7.07
Spinal cord potentials generated by volleys in the large muscle afferents. J Physiol (1954) 6.50
The action potentials of the alpha motoneurones supplying fast and slow muscles. J Physiol (1958) 6.19
Excitatory synaptic action in motoneurones. J Physiol (1955) 6.00
After-potentials and excitability of spinal motoneurones following antidromic activation. J Neurophysiol (1950) 5.80
Analysis of the fast afferent impulses from thigh muscles. J Physiol (1953) 5.67
The interpretation of spike potentials of motoneurones. J Physiol (1957) 5.64
Synaptic actions on motoneurones caused by impulses in Golgi tendon organ afferents. J Physiol (1957) 5.02
Synaptic action during and after repetitive stimulation. J Physiol (1960) 5.01
Effects induced in a monosynaptic reflex path by its activation. J Neurophysiol (1951) 4.98
Electric potentials generated by antidromic volleys in quadriceps and hamstring motoneurons. J Neurophysiol (1949) 4.94
Central pathway for direct inhibitory action of impulses in largest afferent nerve fibres to muscle. J Neurophysiol (1956) 4.55
The relationship between the mode of operation and the dimensions of the junctional regions at synapses and motor end-organs. Proc R Soc Lond B Biol Sci (1958) 4.49
Origin and blockade of the synaptic responses of curarized sympathetic ganglia. J Physiol (1961) 4.31
Synaptic actions on motoneurones in relation to the two components of the group I muscle afferent volley. J Physiol (1957) 4.25
An investigation of primary or direct inhibition. J Physiol (1953) 4.25
Supraspinal control of interneurones mediating spinal reflexes. J Physiol (1959) 4.01
PHARMACOLOGICAL STUDIES ON PRESYNAPTIC INHIBITION. J Physiol (1963) 3.90
The mechanism of synaptic transmission. Ergeb Physiol (1961) 3.88
The generation of impulses in motoneurones. J Physiol (1957) 3.54
The behaviour of chromatolysed motoneurones studied by intracellular recording. J Physiol (1958) 3.38
The excitation of Renshaw cells by pharmacological agents applied electrophoretically. J Physiol (1958) 3.36
The electrical constants of the motoneurone membrane. J Physiol (1959) 3.32
The electrophysiological properties of the motoneurone. Cold Spring Harb Symp Quant Biol (1952) 3.31
Integrative pattern of Ia synaptic actions on motoneurones of hip and knee muscles. J Physiol (1958) 3.12
Experimental investigations on the afferent fibres in muscle nerves. Proc R Soc Lond B Biol Sci (1951) 3.01
The nature of the monosynaptic excitatory and inhibitory processes in the spinal cord. Proc R Soc Lond B Biol Sci (1952) 2.88
The time courses of excitatory and inhibitory synaptic actions. J Physiol (1959) 2.87
Pharmacological investigations on a central synapse operated by acetylcholine. J Physiol (1956) 2.76
Intracellular potentials recorded from a mammalian sympathetic ganglion. J Physiol (1955) 2.76
The inhibitory suppression of reflex discharges from motoneurones. J Physiol (1955) 2.62
Presynaptic changes associated with post-tetanic potentiation in the spinal cord. J Physiol (1959) 2.40
Recurrent inhibition in the hippocampus with identification of the inhibitory cell and its synapses. Nature (1963) 2.37
Intra-cellular recording from respiratory motoneurones of the thoracic spinal cord of the cat. Nature (1962) 2.36
THE VENTRO-BASAL COMPLEX OF THE THALAMUS: TYPES OF CELLS, THEIR RESPONSES AND THEIR FUNCTIONAL ORGANIZATION. J Physiol (1964) 2.36
The effects of disuse and of activity on mammalian spinal reflexes. J Physiol (1953) 2.33
Repetitive monosynaptic activation of motoneurones. Proc R Soc Lond B Biol Sci (1951) 2.31
PATHWAY OF POSTSYNAPTIC INHIBITION IN THE HIPPOCAMPUS. J Neurophysiol (1964) 2.27
The central action of antidromic impulses in motor nerve fibres. Pflugers Arch (1955) 2.18
Delayed effects of peripheral severance of afferent nerve fibres on the efficacy of their central synapses. J Physiol (1959) 2.16
Interpretation of action potentials evoked in the cerebral cortex. Electroencephalogr Clin Neurophysiol (1951) 2.15
Types of neurone in and around the intermediate nucleus of the lumbosacral cord. J Physiol (1960) 2.15
Synaptic excitation and inhibition. J Physiol (1952) 2.09
Central pathways responsible for depolarization of primary afferent fibres. J Physiol (1962) 2.05
The action of tetanus toxin on the inhibition of motoneurones. J Physiol (1957) 2.02
The responses of motoneurones. Br Med Bull (1950) 1.99
Distribution of recurrent inhibition among motoneurones. J Physiol (1961) 1.92
Potential changes recorded inside primary afferent fibres within the spinal cord. J Physiol (1959) 1.89
Time courses of motoneuronal responses. Nature (1956) 1.88
Functional changes in chromatolysed motoneurones. J Comp Neurol (1953) 1.86
Presynaptic inhibition of the spinal monosynaptic reflex pathway. J Physiol (1962) 1.86
The effect of diffusional barriers upon the pharmacology of cells within the central nervous system. J Physiol (1958) 1.84
Durations of after-hyperpolarization of motoneurones supplying fast and slow muscles. Nature (1957) 1.83
Synaptic action of group I and II afferent fibres of muscle on the cells of the dorsal spinocerebellar tract. J Physiol (1961) 1.77
Intracellular recording from cells of the ventral spinocerebellar tract. J Physiol (1961) 1.75
THE VENTRO-BASAL NUCLEUS OF THE THALAMUS: POTENTIAL FIELDS, SYNAPTIC TRANSMISSION AND EXCITABILITY OF BOTH PRESYNAPTIC AND POST-SYNAPTIC COMPONENTS. J Physiol (1964) 1.73
Presynaptic inhibition of the central actions of flexor reflex afferents. J Physiol (1962) 1.73
Membrane time constants of cat motoneurons and time courses of synptic action. Exp Neurol (1961) 1.68
The effect of electric polarization of the spinal cord on central afferent fibres and on their excitatory synaptic action. J Physiol (1962) 1.67
Electrophysiological studies on gamma motoneurones. Acta Physiol Scand (1960) 1.61
SLOW POTENTIAL WAVES PRODUCED IN THE CUNEATE NUCLEUS BY CUTANEOUS VOLLEYS AND BY CORTICAL STIMULATION. J Neurophysiol (1964) 1.60
POSTSYNAPTIC INHIBITION OF CEREBELLAR PURKINJE CELLS. J Neurophysiol (1964) 1.59
EFFECTS PRODUCED ON INHIBITORY POSTSYNAPTIC POTENTIALS BY THE COUPLED INJECTIONS OF CATIONS AND ANIONS INTO MOTONEURONS. Proc R Soc Lond B Biol Sci (1964) 1.58
Dorsal root reflexes of muscle group I afferent fibres. J Physiol (1961) 1.54
LOCATION OF POSTSYNAPTIC INHIBITORY SYNAPSES ON HIPPOCAMPAL PYRAMIDS. J Neurophysiol (1964) 1.51
DEPOLARIZATION OF PRESYNAPTIC FIBERS IN THE CUNEATE NUCLEUS. J Neurophysiol (1964) 1.51
Electrophysiological investigations on Renshaw cells. J Physiol (1961) 1.50
MECHANISMS OF SYNAPTIC TRANSMISSION IN THE CUNEATE NUCLEUS. J Neurophysiol (1964) 1.45
CORTICALLY EVOKED DEPOLARIZATION OF PRIMARY AFFERENT FIBERS IN THE SPINAL CORD. J Neurophysiol (1964) 1.35
Pharmacological studies on spinal reflexes. J Physiol (1957) 1.33
PRESYNAPTIC INHIBITION IN THE SPINAL CORD. Prog Brain Res (1964) 1.33
IDENTIFICATION OF RELAY CELLS AND INTERNEURONS IN THE CUNEATE NUCLEUS. J Neurophysiol (1964) 1.30
Intracellular recording from cells in Clarke's column. Acta Physiol Scand (1958) 1.29
The synaptic linkage of direct inhibition. Acta Physiol Scand (1958) 1.28
SINGLE MOTOR UNITS OF MAMMALIAN MUSCLE. J Physiol (1965) 1.22
Significance of supraspinal control of reflex actions by impulses in muscle afferents. Experientia (1958) 1.21
Actions of anti-cholinesterases on endplate potential of frog muscle. J Neurophysiol (1949) 1.20
Mode of action of tetanus toxin. Nature (1955) 1.20
The membrane potentials during rest and activity of the ray electroplate. J Physiol (1958) 1.16
Monosynaptic excitatory action on motoneurones regenerated to antagonistic muscles. J Physiol (1960) 1.15