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	Types of motor units in the skeletal muscle of Xenopus laevis., Smith RS., Nature. January 20, 1968; 217 (5125): 281-3.
	Effects of Naja nivea venom on nerve, cardiac and skeletal muscle activity of the frog., Loots JM., Br J Pharmacol. March 1, 1973; 47 (3): 576-85.
	Aequorin luminescence during contraction of amphibian skeletal muscle., Rüdel R., J Physiol. August 1, 1973; 233 (1): 5P-6P.
	Action potential in the transverse tubules and its role in the activation of skeletal muscle., Bastian J., J Gen Physiol. February 1, 1974; 63 (2): 257-78.
	Enzyme patterns in mitochondria of eggs, liver, and skeletal muscle during larval development of Xenopus., Kistler A., Dev Biol. April 1, 1974; 37 (2): 236-47.
	Myogenesis in the trunk and leg during development of the tadpole of Xenopus laevis (Daudin 1802)., Muntz L., J Embryol Exp Morphol. June 1, 1975; 33 (3): 757-74.
	Effect of deuterium oxide (D2O) on excitation-contraction coupling of skeletal muscle., Yagi S., Nihon Seirigaku Zasshi. July 1, 1976; 38 298-300.
	Membrane particle aggregates in innervated and noninnervated cultures of Xenopus embryonic muscle cells., Peng HB., Proc Natl Acad Sci U S A. January 1, 1978; 75 (1): 500-4.
	Calcium transients in isolated amphibian skeletal muscle fibres: detection with aequorin., Blinks JR., J Physiol. April 1, 1978; 277 291-323.
	Actin in Xenopus oocytes., Clark TG., J Cell Biol. May 1, 1978; 77 (2): 427-38.
	Light and electron microscopic investigation of ATPase activity in musculature during anuran tail resorption., Watanabe K., Histochemistry. November 24, 1978; 58 (1-2): 13-22.
	Effects of SITS on chloride permeation in Xenopus skeletal muscle., Vaughan P., Can J Physiol Pharmacol. December 1, 1978; 56 (6): 1051-4.
	An actin filament matrix in hand-isolated nuclei of X. laevis oocytes., Clark TG., Cell. December 1, 1979; 18 (4): 1101-8.
	Cytotoxic effects of sodium selenite on tadpoles (Xenopus laevis)., Browne C., Arch Environ Contam Toxicol. January 1, 1980; 9 (2): 181-91.
	Specific perforation of muscle cell membranes with preserved SR functions by saponin treatment., Endo M., J Muscle Res Cell Motil. March 1, 1980; 1 (1): 89-100.
	Neutral carrier ion-selective microelectrodes for measurement of intracellular free calcium., Tsien RY., Biochim Biophys Acta. July 1, 1980; 599 (2): 623-38.
	Actin synthesis during the early development of Xenopus laevis., Sturgess EA., J Embryol Exp Morphol. August 1, 1980; 58 303-20.
	Monoclonal antibodies against myofibrillar components of rat skeletal muscle decorate the intermediate filaments of cultured cells., Lin JJ., Proc Natl Acad Sci U S A. April 1, 1981; 78 (4): 2335-9.
	Aeromonas hydrophila infection in Xenopus laevis., Hubbard GB., Lab Anim Sci. June 1, 1981; 31 (3): 297-300.
	Ultrastructure of sites of cholinesterase activity on amphibian embryonic muscle cells cultured without nerve., Weldon PR., Dev Biol. June 1, 1981; 84 (2): 341-50.
	Synaptic contacts between embryonic Xenopus neurons and myotubes formed from a rat skeletal muscle cell line., Kidokoro Y., Dev Biol. August 1, 1981; 86 (1): 12-8.
	The T-SR junction in contracting single skeletal muscle fibers., Eisenberg BR., J Gen Physiol. January 1, 1982; 79 (1): 1-19.
	Time courses of late after-potentials following tetanus or single shock in skeletal muscle fibers., Ono T., Pflugers Arch. September 1, 1982; 394 (3): 274-6.
	Branched skeletal muscle fibers not associated with dysfunction., Brown LM., Muscle Nerve. October 1, 1982; 5 (8): 645-53.
	Regulation of synaptic position, size, and strength in anuran skeletal muscle., Nudell BM., J Neurosci. January 1, 1983; 3 (1): 161-76.
	Mechanical, electrical, and morphological characteristics of skeletal muscle fibers from Xenopus and other species of frogs., Oba T., Jpn J Physiol. January 1, 1983; 33 (4): 521-34.
	Effects of physostigmine on the voltage dependent ionic conductances of skeletal muscle fibres., Szücs G., Acta Physiol Hung. January 1, 1983; 62 (1): 47-60.
	Effects of diltiazem on skinned skeletal muscle fibers of the African clawed toad., Ishizuka T., Circ Res. February 1, 1983; 52 (2 Pt 2): I110-4.
	Topographical rearrangement of acetylcholine receptors alters channel kinetics., Young SH., Nature. July 14, 1983; 304 (5922): 161-3.
	Morphological and physiological changes in dissociated adult frog muscle fibres after prolonged culturing., Glavinović MI., Proc R Soc Lond B Biol Sci. August 22, 1983; 219 (1214): 91-101.
	Aggregates of acetylcholine receptors are associated with plaques of a basal lamina heparan sulfate proteoglycan on the surface of skeletal muscle fibers., Anderson MJ., J Cell Biol. November 1, 1983; 97 (5 Pt 1): 1396-411.
	Effects of twitch potentiators and repetitive stimulation on arsenazo III Ca-transients in Xenopus skeletal muscle fibers., Ochi K., Jpn J Physiol. January 1, 1984; 34 (5): 857-70.
	Arsenazo III signals following action potential as influenced by nitrate in Xenopus skeletal muscle., Ochi K., Jpn J Physiol. January 1, 1984; 34 (2): 361-4.
	Karyoskeletal proteins and the organization of the amphibian oocyte nucleus., Benavente R., J Cell Sci Suppl. January 1, 1984; 1 161-86.
	Interaction of metabolic inhibitors with actin fibrils., Bereiter-Hahn J., Cell Tissue Res. January 1, 1984; 238 (1): 129-34.
	Effects of ATP and related compounds on the Ca-induced Ca release mechanism of the Xenopus SR., Kakuta Y., Pflugers Arch. January 1, 1984; 400 (1): 72-9.
	Structure and transmembrane nature of the acetylcholine receptor in amphibian skeletal muscle as revealed by cross-reacting monoclonal antibodies., Sargent PB., J Cell Biol. February 1, 1984; 98 (2): 609-18.
	Halothane shortens acetylcholine receptor channel kinetics without affecting conductance., Lechleiter J., Proc Natl Acad Sci U S A. May 1, 1984; 81 (9): 2929-33.
	Chick myotendinous antigen. I. A monoclonal antibody as a marker for tendon and muscle morphogenesis., Chiquet M., J Cell Biol. June 1, 1984; 98 (6): 1926-36.
	Structural requirements and species specificity of the inhibition by beta-endorphin of heavy acetylcholinesterase from vertebrate skeletal muscle., Haynes LW., Mol Pharmacol. July 1, 1984; 26 (1): 45-50.
	Myosin isoenzymes in single muscle fibres of Xenopus laevis: analysis of five different functional types., Lännergren J., Proc R Soc Lond B Biol Sci. September 22, 1984; 222 (1228): 401-8.
	Effect of temperature and Zn2+ on isometric contractile properties and electrical phenomena of frog (Rana) and Xenopus skeletal muscle fibers., Oba T., Can J Physiol Pharmacol. December 1, 1984; 62 (12): 1511-7.
	Cell type-specific expression of nuclear lamina proteins during development of Xenopus laevis., Benavente R., Cell. May 1, 1985; 41 (1): 177-90.
	Immunocytochemical studies using a monoclonal antibody to bovine cardiac titin on intact and extracted myofibrils., Wang SM., J Muscle Res Cell Motil. June 1, 1985; 6 (3): 293-312.
	Actin genes in Xenopus and their developmental control., Gurdon JB., J Embryol Exp Morphol. November 1, 1985; 89 Suppl 125-36.
	Androgen-induced myogenesis and chondrogenesis in the larynx of Xenopus laevis., Sassoon D., Dev Biol. January 1, 1986; 113 (1): 135-40.
	Isolation and characterization of sarcomeric actin genes expressed in Xenopus laevis embryos., Stutz F., J Mol Biol. February 5, 1986; 187 (3): 349-61.
	Expression and modulation of voltage-gated calcium channels after RNA injection in Xenopus oocytes., Dascal N., Science. March 7, 1986; 231 (4742): 1147-50.
	Glyceraldehyde-3-phosphate dehydrogenase is a nonhistone protein and a possible activator of transcription in neurons., Morgenegg G., J Neurochem. July 1, 1986; 47 (1): 54-62.
	Expression of functional sodium channels from cloned cDNA., Noda M., Nature. August 28, 1986; 322 (6082): 826-8.

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