Published in J Gen Physiol on March 01, 1997
Differential contribution of skeletal and cardiac II-III loop sequences to the assembly of dihydropyridine-receptor arrays in skeletal muscle. Mol Biol Cell (2004) 1.29
The structure of Ca(2+) release units in arthropod body muscle indicates an indirect mechanism for excitation-contraction coupling. Biophys J (2002) 0.98
Characterization of single L-type Ca2+ channels in myocytes isolated from the cricket lateral oviduct. J Comp Physiol B (2005) 0.76
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
Different modes of Ca channel gating behaviour favoured by dihydropyridine Ca agonists and antagonists. Nature (1984) 10.27
Time and calcium dependence of activation and inactivation of calcium-induced release of calcium from the sarcoplasmic reticulum of a skinned canine cardiac Purkinje cell. J Gen Physiol (1985) 8.68
THE INITIATION OF SPIKE POTENTIAL IN BARNACLE MUSCLE FIBERS UNDER LOW INTRACELLULAR CA++. J Gen Physiol (1964) 7.81
Single-channel recordings of three types of calcium channels in chick sensory neurones. J Physiol (1987) 3.69
Calcium depletion in frog muscle tubules: the decline of calcium current under maintained depolarization. J Physiol (1981) 3.18
Molecular basis for Ca2+ channel diversity. Annu Rev Neurosci (1994) 2.65
Properties of two types of calcium channels in clonal pituitary cells. J Gen Physiol (1986) 2.57
Voltage-dependent modulation of Ca channel current in heart cells by Bay K8644. J Gen Physiol (1986) 2.19
Excitation-contraction coupling in a barnacle muscle fiber as examined with voltage clamp technique. J Gen Physiol (1968) 1.90
Calcium inactivation in skeletal muscle fibres of the stick insect, Carausius morosus. J Physiol (1982) 1.85
Nonmodal gating of cardiac calcium channels as revealed by dihydropyridines. J Gen Physiol (1989) 1.76
Calcium currents and conductances in the msucle membrane of the crayfish. J Physiol (1977) 1.75
Ion currents in Drosophila flight muscles. J Physiol (1983) 1.22
Single calcium channel behavior in native skeletal muscle. J Gen Physiol (1995) 1.21
Single calcium channels in resistance-sized cerebral arteries from rats. Am J Physiol (1993) 1.20
Regulation of single calcium channels in cerebral arteries by voltage, serotonin, and dihydropyridines. Am J Physiol (1991) 1.16
Amines and a peptide as neurohormones in lobsters: actions on neuromuscular preparations and preliminary behavioural studies. J Exp Biol (1980) 1.13
Resolution and pharmacological analysis of the voltage-dependent calcium channels of Drosophila larval muscles. J Neurosci (1995) 1.09
Calcium-induced calcium release in crayfish skeletal muscle. J Physiol (1992) 1.09
Dihydropyridine-sensitive skeletal muscle Ca channels in polarized planar bilayers. 1. Kinetics and voltage dependence of gating. Biophys J (1991) 1.08
The molecular mode of action of the Ca agonist (-) BAY K 8644 on the cardiac Ca channel. Pflugers Arch (1993) 1.06
Ionic currents of Drosophila neurons in embryonic cultures. J Neurosci (1988) 1.06
Multiple conductance levels of the dihydropyridine-sensitive calcium channel in GH3 cells. J Membr Biol (1990) 1.04
The effect of external calcium ions on the excitation-contraction coupling in single muscle fibres of the crayfish. Physiol Bohemoslov (1967) 1.00
Enzymatic gating of voltage-activated calcium channels. Ann N Y Acad Sci (1991) 0.99
On the role of extracellular calcium in triggering contraction in muscle fibres from barnacle under membrane potential control. J Physiol (1979) 0.93
Contractile activation in scorpion striated muscle fibers. Dependence on voltage and external calcium. J Gen Physiol (1984) 0.90
Ca-induced Ca release from the sarcoplasmic reticulum of isolated myofibrillar bundles of barnacle muscle fibres. Pflugers Arch (1989) 0.89
The role of calcium in excitation-contraction coupling of lobster muscle. J Gen Physiol (1968) 0.88
The ionic requirements for the initiation of action potentials in insect muscle fibers. J Gen Physiol (1972) 0.88
Characterization of single calcium channels in Drosophila embryonic nerve and muscle cells. J Neurosci (1991) 0.85
Regulation of calcium channels in the heart. Adv Second Messenger Phosphoprotein Res (1995) 0.84
Effects of proctolin on contractions, membrane resistance, and non-voltage-dependent sarcolemmal ion channels in crustacean muscle fibers. J Neurosci (1995) 0.83
Peptide cotransmitter potentiates calcium channel activity in crayfish skeletal muscle. J Neurosci (1991) 0.82
DHP-sensitive Ca2+ channels from crayfish skeletal muscle T-tubules incorporated into planar lipid bilayers. Gen Physiol Biophys (1990) 0.81
Role of the different calcium sources in the excitation-contraction coupling in crab muscle fibers. Can J Physiol Pharmacol (1987) 0.81
Calcium-induced calcium release mechanism from the sarcoplasmic reticulum in skinned crab muscle fibres. Cell Calcium (1986) 0.79
Calcium-induced and voltage-dependent inactivation of calcium channels in crab muscle fibres. Gen Physiol Biophys (1988) 0.77
Fast, persistent, Ca(2+)-dependent K+ current controls graded electrical activity in crayfish muscle. Pflugers Arch (1995) 0.76
Decreased rate of sodium conductance inactivation in the node of Ranvier induced by a polypeptide toxin from sea anemone. Biochim Biophys Acta (1976) 1.40
Anemonia sulcata toxins modify activation and inactivation of Na+ currents in a crayfish neurone. Pflugers Arch (1985) 0.92
Effect of toxins of sea anemones on neuromuscular transmission. Naturwissenschaften (1975) 0.89
Allatostatin modulates skeletal muscle performance in crustaceans through pre- and postsynaptic effects. Eur J Neurosci (1999) 0.86
Presynaptic effects of octopamine, serotonin, and cocktails of the two modulators on neuromuscular transmission in crustaceans. J Comp Physiol A (2001) 0.84
Shortening velocity and force/pCa relationship in skinned crab muscle fibres of different types. Pflugers Arch (1992) 0.84
Effects of proctolin on contractions, membrane resistance, and non-voltage-dependent sarcolemmal ion channels in crustacean muscle fibers. J Neurosci (1995) 0.83
Effects of the sea anemone Anemonia sulcata toxin II on skeletal muscle and on neuromuscular transmission. Toxicon (1984) 0.82
Non-uniformity of sarcomere lengths can explain the 'catch-like' effect of arthropod muscle. J Muscle Res Cell Motil (1994) 0.81
Sea anemone toxins: tools in the study of excitable membranes. Adv Cytopharmacol (1979) 0.81
The neuropeptide proctolin induces phosphorylation of a 30 kDa protein associated with the thin filament in crustacean muscle. J Exp Biol (2001) 0.81
Anemone toxin discriminates between ionic channels for receptor potential and for action potential production in a sensory neuron. Neurosci Lett (1979) 0.80
pH lability of myosin ATPase activity permits discrimination of different muscle fibre types in crustaceans. Histochemistry (1984) 0.79
[An electron microscopical study of spider muscles]. Z Zellforsch Mikrosk Anat (1968) 0.78
Photoinactivation of an identified motoneurone in the locust Locusta migratoria. J Exp Biol (1996) 0.77
Neuromuscular plasticity in the locust after permanent removal of an excitatory motoneuron of the extensor tibiae muscle. J Neurobiol (2000) 0.77
Enzyme activities in single electrophysiologically identified crab muscle fibres. J Physiol (1986) 0.76
Voltage-clamp analysis of membrane currents and excitation-contraction coupling in a crustacean muscle. J Muscle Res Cell Motil (2001) 0.76
The quantal nature of synaptic transmission at the neuromuscular junction of a spider. J Gen Physiol (1973) 0.75
[Inhibition of the sodium inactivation of the nodal membrane by anemonia sulcata toxin II]. C R Acad Sci Hebd Seances Acad Sci D (1976) 0.75
Presynaptic inhibition of long duration at crab neuromuscular junctions. Pflugers Arch (1974) 0.75
Excitation of crustacean muscle by inhibitory neurons and GABA. Pflugers Arch (1972) 0.75
The effect of toxins from the venom of the scorpion Androctonus australis on a spider nerve-muscle preparation. Toxicon (1977) 0.75
A single allatostatin-immunoreactive neuron innervates skeletal muscles of several segments in the locust. J Comp Neurol (1999) 0.75
Radioactive labeling of toxin II from Anemonia sulcata. Anal Biochem (1981) 0.75
Intracellular Na+, K+ and Cl- activity in tonic and phasic muscle fibers of the crab Eriphia. Pflugers Arch (1989) 0.75
The effect of different toxins from scorpion venom on neuromuscular transmission and nerve action potentials in the crayfish. Comp Biochem Physiol C (1977) 0.75