Published in J Neurophysiol on January 01, 1956
The convergence of monosynaptic excitatory afferents on to many different species of alpha motoneurones. J Physiol (1957) 7.11
Synaptic actions on motoneurones caused by impulses in Golgi tendon organ afferents. J Physiol (1957) 5.02
Synaptic actions on motoneurones in relation to the two components of the group I muscle afferent volley. J Physiol (1957) 4.25
Supraspinal control of interneurones mediating spinal reflexes. J Physiol (1959) 4.01
Integrative pattern of Ia synaptic actions on motoneurones of hip and knee muscles. J Physiol (1958) 3.12
Functional organization in nucleus gracilis of the cat. J Physiol (1960) 2.93
The time courses of excitatory and inhibitory synaptic actions. J Physiol (1959) 2.87
Synaptic actions of single interneurones mediating reciprocal Ia inhibition of motoneurones. J Physiol (1972) 2.55
Depolarization of central terminals of Group I afferent fibres from muscle. J Physiol (1962) 2.51
Recurrent inhibition of interneurones monosynaptically activated from group Ia afferents. J Physiol (1971) 2.42
Types of neurone in and around the intermediate nucleus of the lumbosacral cord. J Physiol (1960) 2.15
Correlation of the inhibitory post-synaptic potential of motoneurones with the latency and time course of inhibition of monosynaptic reflexes. J Physiol (1960) 2.07
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 depression of spinal neurones by gamma-amino-n-butyric acid and beta-alanine. J Physiol (1959) 2.01
Cholinergic and non-cholinergic transmission in the mammalian spinal cord. J Physiol (1961) 1.95
Relative contribution from different nerves to recurrent depression of Ia IPSPs in motoneurones. J Physiol (1971) 1.87
Synaptic action of group I and II afferent fibres of muscle on the cells of the dorsal spinocerebellar tract. J Physiol (1961) 1.77
An investigation of nucleus gracilis of the cat by antidromic stimulation. J Physiol (1961) 1.76
Intracellular recording from cells of the ventral spinocerebellar tract. J Physiol (1961) 1.75
The morphology of group Ia afferent fibre collaterals in the spinal cord of the cat. J Physiol (1978) 1.75
Quantal components of the inhibitory synaptic potential in spinal mononeurones of the cat. J Physiol (1972) 1.56
Postnatal phenotype and localization of spinal cord V1 derived interneurons. J Comp Neurol (2005) 1.55
Selective depression of synaptic excitation in cat spinal neurones by baclofen: an iontophoretic study. Br J Pharmacol (1981) 1.41
SOME PROPERTIES AND REFLEX CONNEXIONS OF RESPIRATORY MOTONEURONES OF THE CAT'S THORACIC SPINAL CORD. J Physiol (1964) 1.41
Pharmacological investigations upon inhibition of spinal motoneurones. J Physiol (1959) 1.39
Post-synaptic potentials in a population of motoneurones following activity of single interneurones in the cat. J Physiol (1983) 1.35
Inhibitory interactions between interneurones in reflex pathways from group Ia and group Ib afferents in the cat. J Physiol (1983) 1.29
Morphology of interneurones mediating Ia reciprocal inhibition of motoneurones in the spinal cord of the cat. J Physiol (1972) 1.28
Observations on the discharge of flexor motoneurones. J Physiol (1962) 1.22
Primary afferent synapses on developing and adult Renshaw cells. J Neurosci (2006) 1.20
Early postnatal development of reciprocal Ia inhibition in the murine spinal cord. J Neurophysiol (2008) 1.13
Facilitation of monosynaptic excitatory synaptic potentials in spinal motoneurones evoked by internuncial impulses. J Physiol (1972) 1.08
V1 and v2b interneurons secure the alternating flexor-extensor motor activity mice require for limbed locomotion. Neuron (2014) 1.05
Electrophysiological properties of spinal motoneurones of normal and dystrophic mice. J Physiol (1975) 1.03
Does a C3-C4 propriospinal system transmit corticospinal excitation in the primate? An investigation in the macaque monkey. J Physiol (1998) 1.03
Early post-tetanic potentiation and low frequency depression of some group I reflex actions. J Gen Physiol (1958) 1.00
Voltage dependence of Ia reciprocal inhibitory currents in cat spinal motoneurones. J Physiol (1990) 0.99
Target selection of proprioceptive and motor axon synapses on neonatal V1-derived Ia inhibitory interneurons and Renshaw cells. J Comp Neurol (2010) 0.94
Field potentials and excitation of primate spinothalamic neurones in response to volleys in muscle afferents. J Physiol (1979) 0.94
Reciprocal Ia inhibition contributes to motoneuronal hyperpolarisation during the inactive phase of locomotion and scratching in the cat. J Physiol (2010) 0.92
Mechanisms regulating the specificity and strength of muscle afferent inputs in the spinal cord. Ann N Y Acad Sci (2010) 0.89
Collateral actions of premotor interneurons on ventral spinocerebellar tract neurons in the cat. J Neurophysiol (2010) 0.89
The influence of contralateral primary afferents on Ia inhibitory interneurones in humans. J Physiol (1991) 0.89
Methods of tendon jerk reinforcement. The role of muscle activity in reflex excitability. J Neurol Neurosurg Psychiatry (1969) 0.88
Early history of glycine receptor biology in Mammalian spinal cord circuits. Front Mol Neurosci (2010) 0.88
Spatial organization of cortical and spinal neurons controlling motor behavior. Curr Opin Neurobiol (2012) 0.86
Reciprocal continuous inhibition in rigidity of Parkinsonism. J Neurol Neurosurg Psychiatry (1977) 0.85
Functional organization in the terminal segments of the spinal cord with a consideration of central excitatory and inhibitory latencies in monosynaptic reflex systems. J Gen Physiol (1959) 0.83
Short-term plasticity of human spinal inhibitory circuits after isometric and isotonic ankle training. Eur J Appl Physiol (2012) 0.78
Adult spinal V2a interneurons show increased excitability and serotonin-dependent bistability. J Neurophysiol (2014) 0.78
Recurrent inhibitory connexions among neck motoneurones in the cat. J Physiol (1987) 0.78
Neural control of joint stability during a ballistic force production task. Exp Brain Res (2011) 0.77
A Comparative Study of Three Interneuron Types in the Rat Spinal Cord. PLoS One (2016) 0.75
Hypothesis: Hughlings Jackson and presynaptic inhibition: is there a big picture? J Neurophysiol (2016) 0.75
Reliability of a new stabilized dynamometer system for the evaluation of hip strength. Sports Health (2013) 0.75
Changes in the Spinal Neural Circuits are Dependent on the Movement Speed of the Visuomotor Task. Front Hum Neurosci (2015) 0.75
Development and ageing of human spinal cord circuitries. J Neurophysiol (2017) 0.75
An analysis of the end-plate potential recorded with an intracellular electrode. J Physiol (1951) 83.81
Spontaneous subthreshold activity at motor nerve endings. J Physiol (1952) 42.17
The electromotive action of acetylcholine at the motor end-plate. J Physiol (1950) 32.38
The recording of potentials from motoneurones with an intracellular electrode. J Physiol (1952) 19.11
The electrical properties of crustacean muscle fibres. J Physiol (1953) 18.61
The ionic requirements for the production of action potentials in crustacean muscle fibres. J Physiol (1958) 13.87
LINEAR ELECTRICAL PROPERTIES OF STRIATED MUSCLE FIBRES OBSERVED WITH INTRACELLULAR ELECTRODES. Proc R Soc Lond B Biol Sci (1964) 13.26
Cholinergic and inhibitory synapses in a pathway from motor-axon collaterals to motoneurones. J Physiol (1954) 12.62
The effect of sodium ions on neuromuscular transmission. J Physiol (1952) 10.87
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
Chemo-receptor activity at the motor end-plate. Acta Physiol Scand (1953) 10.08
Some observations on biological noise. Nature (1950) 9.62
Interactions between motoneurones and muscles in respect of the characteristic speeds of their responses. J Physiol (1960) 8.55
Biophysics of junctional transmission. Physiol Rev (1954) 8.23
Differentiation of fast and slow muscles in the cat hind limb. J Physiol (1960) 8.04
The effect of inhibitory nerve impulses on a crustacean muscle fibre. J Physiol (1953) 7.48
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
Membrane potentials at the motor end-plate. J Physiol (1950) 6.92
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
Membrane permeability change during inhibitory transmitter action in crustacean muscle. J Physiol (1958) 5.46
On the excitation mechanism of the carotid baroceptors. Acta Physiol Scand (1952) 5.42
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
Chemoreceptor impulse activity following haemorrhage. Acta Physiol Scand (1951) 4.82
AN ANALYSIS OF THE TRANSVERSE ELECTRICAL IMPEDANCE OF STRIATED MUSCLE. Proc R Soc Lond B Biol Sci (1964) 4.55
Some problems of neuro-muscular transmission. Cold Spring Harb Symp Quant Biol (1952) 4.53
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
Synaptic actions on motoneurones in relation to the two components of the group I muscle afferent volley. J Physiol (1957) 4.25
Selective excitation of corticofugal neurones by surface-anodal stimulation of the baboon's motor cortex. J Physiol (1962) 4.25
An investigation of primary or direct inhibition. J Physiol (1953) 4.25
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
Minimal synaptic actions of pyramidal impulses on some alpha motoneurones of the baboon's hand and forearm. J Physiol (1962) 3.40
The behaviour of chromatolysed motoneurones studied by intracellular recording. J Physiol (1958) 3.38
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
Central inhibitory action attributable to presynaptic depolarization produced by muscle afferent volleys. J Physiol (1961) 3.26
Sequence of events in synaptic activation of a motoneurone. J Neurophysiol (1957) 3.13
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
Cortical fields of origin of the monosynaptic pyramidal pathways to some alpha motoneurones of the baboon's hand and forearm. J Physiol (1962) 2.77
Pharmacological investigations on a central synapse operated by acetylcholine. J Physiol (1956) 2.76
The electric activity of the motor end-plate. Proc R Soc Lond B Biol Sci (1952) 2.62
The inhibitory suppression of reflex discharges from motoneurones. J Physiol (1955) 2.62
Electric potentials occurring around a neurone during its antidromic activation. J Neurophysiol (1957) 2.50
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
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
Spinal cord potentials generated by impulses in muscle and cutaneous afferent fibres. J Neurophysiol (1956) 2.20
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
The response of the carotid baroceptors to the local administration of drugs. Acta Physiol Scand (1952) 1.93
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
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
Impulse activity in the carotid sinus nerve following intra-carotid injection of potassium chloride, veratrine, sodium citrate, adenosine-triphosphate and alpha-dinitrophenol. Acta Physiol Scand (1952) 1.74
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
Dorsal root reflexes of muscle group I afferent fibres. J Physiol (1961) 1.54
The baroceptor activity in the carotid sinus nerve and the distensibility of the sinus wall. Acta Physiol Scand (1952) 1.52
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