Published in J Cell Biol on August 01, 1979
A monoclonal antibody detaches embryonic skeletal muscle from extracellular matrices. J Cell Biol (1982) 3.23
Molecular heterogeneity of basal laminae: isoforms of laminin and collagen IV at the neuromuscular junction and elsewhere. J Cell Biol (1990) 2.33
Laminin, fibronectin, and collagen in synaptic and extrasynaptic portions of muscle fiber basement membrane. J Cell Biol (1982) 2.10
Acetylcholine receptor clustering and nuclear movement in muscle fibers in culture. J Cell Biol (1987) 1.74
Cytoskeletal components of the vertebrate neuromuscular junction: vinculin, alpha-actinin, and filamin. J Cell Biol (1983) 1.73
Components of Torpedo electric organ and muscle that cause aggregation of acetylcholine receptors on cultured muscle cells. J Cell Biol (1984) 1.70
Influence of collagen gel on the orientation of epithelial cell polarity: follicle formation from isolated thyroid cells and from preformed monolayers. J Cell Biol (1981) 1.66
Aggregates of acetylcholine receptors are associated with plaques of a basal lamina heparan sulfate proteoglycan on the surface of skeletal muscle fibers. J Cell Biol (1983) 1.61
Purification and characterization of a polypeptide from chick brain that promotes the accumulation of acetylcholine receptors in chick myotubes. J Cell Biol (1986) 1.60
Identification of an intracellular postsynaptic antigen at the frog neuromuscular junction. J Cell Biol (1982) 1.49
The influence of basal lamina on the accumulation of acetylcholine receptors at synaptic sites in regenerating muscle. J Cell Biol (1984) 1.45
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Agrin-like molecules at synaptic sites in normal, denervated, and damaged skeletal muscles. J Cell Biol (1987) 1.21
Neurotrophic control of channel properties at neuromuscular synapses of rat muscle. J Physiol (1983) 1.17
Brain extract causes acetylcholine receptor redistribution which mimics some early events at developing neuromuscular junctions. J Cell Biol (1982) 1.17
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Asynchronous assembly of the acetylcholine receptor and of the 43-kD nu1 protein in the postsynaptic membrane of developing Torpedo marmorata electrocyte. J Cell Biol (1989) 0.92
ARIA is concentrated in the synaptic basal lamina of the developing chick neuromuscular junction. J Cell Biol (1995) 0.92
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Acetylcholine receptor-aggregating proteins are associated with the extracellular matrix of many tissues in Torpedo. J Cell Biol (1988) 0.92
Changes in the basement membrane zone components during skeletal muscle fiber degeneration and regeneration. J Cell Biol (1983) 0.92
Transformation by Rous sarcoma virus prevents acetylcholine receptor clustering on cultured chicken muscle fibers. Proc Natl Acad Sci U S A (1984) 0.91
Embryonic brain extract induces collagen biosynthesis in cultured muscle cells: involvement in acetylcholine receptor aggregation. Proc Natl Acad Sci U S A (1982) 0.91
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Increases in muscle Ca2+ mediate changes in acetylcholinesterase and acetylcholine receptors caused by muscle contraction. Proc Natl Acad Sci U S A (1985) 0.90
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Agrin-related molecules are concentrated at acetylcholine receptor clusters in normal and aneural developing muscle. J Cell Biol (1989) 0.89
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Insertion and internalization of acetylcholine receptors at clustered and diffuse domains on cultured myotubes. J Cell Biol (1985) 0.86
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Influence of neostigmine treatment on embryonic development of acetylcholine receptors and neuromuscular junctions. J Cell Biol (1982) 0.75
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The acetylcholine sensitivity of frog muscle fibres after complete or partial devervation. J Physiol (1960) 9.24
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A study of foetal and new-born rat muscle fibres. J Physiol (1962) 4.85
Synapse formation between dissociated nerve and muscle cells in low density cell cultures. Dev Biol (1972) 4.07
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Acetylcholine receptors: number and distribution at neuromuscular junctions in rat diaphragm. Science (1972) 3.03
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Reinnervation of muscle fiber basal lamina after removal of myofibers. Differentiation of regenerating axons at original synaptic sites. J Cell Biol (1978) 2.78
Effects of innervation on the distribution of acetylcholine receptors on cultured muscle cells. J Physiol (1977) 2.71
The formation of synapses in striated muscle during development. J Physiol (1974) 2.58
Distribution of acetylcholine receptors at frog neuromuscular junctions with a discussion of some physiological implications. J Physiol (1978) 2.58
Precision of reinnervation of original postsynaptic sites in frog muscle after a nerve crush. J Neurocytol (1976) 2.25
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Characteristics of transmitter release at regenerating frog neuromuscular junctions. J Physiol (1974) 1.83
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The formation of synapses in amphibian striated muscle during development. J Physiol (1975) 1.47
Reinnervation of original synaptic sites on muscle fiber basement membrane after disruption of the muscle cells. Proc Natl Acad Sci U S A (1977) 1.38
Morphological changes in the neuritic growth cone and target neuron during synaptic junction development in culture. J Cell Biol (1976) 1.38
Persistence of junctional acetylcholine receptors following denervation. Cold Spring Harb Symp Quant Biol (1976) 1.30
Identification of synaptic acetylcholine receptor sites in retina with peroxidase-labeled alpha-bungarotoxin. Proc Natl Acad Sci U S A (1977) 1.29
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Cytochemical localization of acetylcholine receptors at the neuromuscular junction by means of horseradish peroxidase-labeled alpha-bungarotoxin. Brain Res (1977) 1.15
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Occupancy of the cholinergic receptors in relation to changes in the endplate potential. Life Sci (1973) 0.83
Motor end-plates in regenerating rat skeletal muscle exposed to botulinum toxin. Neuroscience (1976) 0.83
The receptor tyrosine kinase MuSK is required for neuromuscular junction formation in vivo. Cell (1996) 3.81
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Agrin acts via a MuSK receptor complex. Cell (1996) 2.81
Reinnervation of muscle fiber basal lamina after removal of myofibers. Differentiation of regenerating axons at original synaptic sites. J Cell Biol (1978) 2.78
Visual identification of synaptic boutons on living ganglion cells and of varicosities in postganglionic axons in the heart of the frog. Proc R Soc Lond B Biol Sci (1971) 2.63
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Precision of reinnervation of original postsynaptic sites in frog muscle after a nerve crush. J Neurocytol (1976) 2.25
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Identification of agrin, a synaptic organizing protein from Torpedo electric organ. J Cell Biol (1987) 2.11
Selective expression of Cre recombinase in skeletal muscle fibers. Genesis (2000) 1.96
Crosslinking of proteins in acetylcholine receptor-rich membranes: association between the beta-subunit and the 43 kd subsynaptic protein. Cell (1983) 1.71
Components of Torpedo electric organ and muscle that cause aggregation of acetylcholine receptors on cultured muscle cells. J Cell Biol (1984) 1.70
Neuregulins are concentrated at nerve-muscle synapses and activate ACh-receptor gene expression. Nature (1995) 1.62
The agrin gene codes for a family of basal lamina proteins that differ in function and distribution. Neuron (1992) 1.51
Agrin released by motor neurons induces the aggregation of acetylcholine receptors at neuromuscular junctions. Neuron (1992) 1.48
The influence of basal lamina on the accumulation of acetylcholine receptors at synaptic sites in regenerating muscle. J Cell Biol (1984) 1.45
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Altered patterns of innervation in frog muscle after denervation. J Neurocytol (1976) 1.30
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Regulation of acetylcholine receptor transcript expression during development in Xenopus laevis. J Cell Biol (1988) 1.27
Agrin-like molecules at synaptic sites in normal, denervated, and damaged skeletal muscles. J Cell Biol (1987) 1.21
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