Gentaro Usuku scite author profile

To determine the localization and functional significance of dystrophin, we studied various tissues from almost the entire body of control and mdx mice, and control rats, using polyclonal antibodies against dystrophin. We observed a dystrophin reaction in synaptic regions such as neuromuscular junctions, the equatorial region of intrafusal muscle fibers, the outer plexiform layer of the retina, the myoepithelial cell layer of salivary and sweat glands, tactile nerve endings, and neurons in the brain. These dystrophin-positive regions reportedly contain actin filaments as a common characteristic, which is compatible with the dystrophin cDNA sequence. Dystrophin was absent in these regions in mdx mice. These results suggest that dystrophin plays an important physiological and/or structural role in cell motility as a trigger for propagating contractile force in, for example, the conduction system, with some relationship between actin filaments.

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Morphologic studies of connective tissue resorption in the tail fin of metamorphosing bullfrog tadpole

Usuku

Gross

1965

Developmental Biology

112

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Gentaro Usuku

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Dystrophin: Localization and presumed function

Morphologic studies of connective tissue resorption in the tail fin of metamorphosing bullfrog tadpole

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