Published in Comp Biochem Physiol on December 01, 1963
THE INITIATION OF SPIKE POTENTIAL IN BARNACLE MUSCLE FIBERS UNDER LOW INTRACELLULAR CA++. J Gen Physiol (1964) 7.81
Differences in Na and Ca spikes as examined by application of tetrodotoxin, procaine, and manganese ions. J Gen Physiol (1966) 6.77
THE EFFECTS OF VARIOUS IONS ON RESTING AND SPIKE POTENTIALS OF BARNACLE MUSCLE FIBERS. J Gen Physiol (1964) 4.67
On the relationships between membrane potential, calcium transient and tension in single barnacle muscle fibres. J Physiol (1970) 4.42
Effects of the intracellular Ca ion concentration upon the excitability of the muscle fiber membrane of a barnacle. J Gen Physiol (1966) 4.16
Calcium and potassium currents of the membrane of a barnacle muscle fibre in relation to the calcium spike. J Physiol (1969) 2.63
Effect of changing the composition of the bathing solutions upon the isometric tension-pCa relationship in bundles of crustacean myofibrils. J Physiol (1977) 2.47
Sodium and potassium fluxes in isolated barnacle muscle fibers. J Gen Physiol (1968) 2.25
The efflux of magnesium from single crustacean muscle fibres. J Physiol (1972) 2.02
Excitation-contraction coupling in a barnacle muscle fiber as examined with voltage clamp technique. J Gen Physiol (1968) 1.90
Inhibition of the intracellular release of calcium by Dantrolene in barnacle giant muscle fibres. J Physiol (1977) 1.73
Effect of external and internal pH changes on K and Cl conductances in the muscle fiber membrane of a giant barnacle. J Gen Physiol (1968) 1.67
Calcium efflux from barnacle muscle fibers. Dependence on external cations. J Gen Physiol (1974) 1.67
Mechanisms of anion and cation permeations in the resting membrane of a barnacle muscle fiber. J Gen Physiol (1971) 1.54
Mechanism of supercontraction in a striated muscle. J Cell Biol (1965) 1.43
RELATION BETWEEN MEMBRANE POTENTIAL CHANGES AND TENSION IN BARNACLE MUSCLE FIBERS. J Gen Physiol (1964) 1.34
The efflux of calcium from single crab and barnacle muscle fibres. J Physiol (1972) 1.33
Calcium movements in single crustacean muscle fibres. J Physiol (1974) 1.25
Chloride fluxes in isolated dialyzed barnacle muscle fibers. J Gen Physiol (1972) 1.22
Muscle calcium transient. Effect of post-stimulus length changes in single fibers. J Gen Physiol (1984) 1.17
ELECTRICAL AND MECHANICAL RESPONSES IN DEEP ABDOMINAL EXTENSOR MUSCLES OF CRAYFISH AND LOBSTER. J Gen Physiol (1965) 1.17
Spectral correlates of a quasi-stable depolarization in barnacle photoreceptor following red light. J Physiol (1975) 1.14
An investigation of sodium transport in barnacle muscle fibres by means of the microsyringe technique. J Physiol (1972) 1.13
Initial and delayed membrane currents in crab muscle fibre under voltage-clamp conditions. J Physiol (1975) 1.11
Gradient in excitation-contraction coupling in canine gastric antral circular muscle. J Physiol (1985) 1.10
Calcium influxes and tension development in perfused single barnacle muscle fibres under membrane potential control. J Physiol (1974) 1.09
Cytoplasmic solvent structure of single barnacle muscle cells studied by electron spin resonance. Biophys J (1974) 1.01
Magnesium in single skeletal muscle cells of Balanus. J Gen Physiol (1971) 1.01
Effect of temperature on membrane potential and ionic fluxes in intact and dialysed barnacle muscle fibres. J Physiol (1972) 1.00
Caffeine and the contractility of single muscle fibres from the barnacle Balanus nubilus. J Physiol (1977) 0.89
Effects of anions and cations on the resting membrane potential of internally perfused barnacle muscle fibres. J Physiol (1973) 0.89
The role of calcium in excitation-contraction coupling of lobster muscle. J Gen Physiol (1968) 0.88
Insulin regulation of sugar transport in giant muscle fibres of the barnacle. J Physiol (1983) 0.88
Kinetics and stoichiometry of coupled Na efflux and Ca influx (Na/Ca exchange) in barnacle muscle cells. J Gen Physiol (1989) 0.87
The effect of potassium and chloride ions on the volume and membrane potential of single barnacle muscle cells. J Physiol (1971) 0.84
The effect of A23187 ionophore on calcium movements and contraction processes in single barnacle muscle fibres. J Physiol (1976) 0.83
Calcium fluxes in single muscle fibres measured with a glass scintillator probe. J Physiol (1978) 0.81
Sugar transport in giant barnacle muscle fibres. J Physiol (1983) 0.80
Ca2+ release from the sarcoplasmic reticulum of barnacle myofibrillar bundles initiated by photolysis of caged Ca2+. J Physiol (1990) 0.79
The effect of quinine on tension development, membrane potentials and excitation-contraction coupling of crab skeletal muscle fibres. J Physiol (1971) 0.78
Ionic permeability changes as the basis of the thermal dependence of the resting potential in barnacle muscle fibres. J Physiol (1972) 0.78
What is the source of the calcium that activates contraction of barnacle muscles under physiological conditions? J Gen Physiol (1980) 0.75
Coupling of membrane potential to contraction in crustacean muscles. J Physiol (1958) 2.31
Excitation at neuromuscular junctions in Crustacea. J Physiol (1958) 1.82
The mechanism of dual responsiveness in muscle fibers of the grasshopper Romalea microptera. J Gen Physiol (1959) 1.53
High blood potassium in insects in relation to nerve conduction. Nature (1952) 1.52
Neuromuscular transmission in a locust. J Physiol (1953) 1.33
Inhibition at neuromuscular junctions in Crustacea. J Physiol (1958) 1.25
The anatomy and innervation of locust skeletal muscle. Proc R Soc Lond B Biol Sci (1955) 1.19
The effects of some common cations on neuromuscular transmission in insects. J Physiol (1955) 1.18
Neuromuscular mechanisms of a locus skeletal muscle. Proc R Soc Lond B Biol Sci (1955) 1.08
Neuromuscular physiology. Adv Comp Physiol Biochem (1962) 0.90
Two inhibitory fibres forming synapses with a single cell. Nature (1958) 0.75
Intracellular recording of 'slow' and 'fast' fibre activity from an insect muscle. J Physiol (1953) 0.75
Slow and fast nerve fibres in locusts. Nature (1953) 0.75
Sodium and potassium changes occurring in the haemolymph of insects at the time of moulting and their physiological consequences. Nature (1956) 0.75