James N. Pratley scite author profile

James N. Pratley

5Publications

10Citation Statements Received

29Citation Statements Given

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Affiliations

San Jose State University

Publications

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Differential effects of trypsin on the epidermis of Rana catesbeiana

Morejohn

Pratley

1979

Cell Tissue Res.

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The filamentous cytoskeletons of epidermal cells of the bullfrog (Rana catesbeiana) were investigated by electron microscopy. Following treatment with trypsin, sheets of epithelium were removed from swatches of abdominal skin. Trypsinization produces differential effects on the ultrastructure of the various cell layers. The desmosomes of all layers, except those of the stratum corneum, are split by trypsinization and the resulting desmosomal plaques fastened to tonofilaments are retracted into cells to form deep "inpouchings" of the plasma membranes, while tonofilament bundles become diffuse. Epidermal sheets were gently homogenized to form a suspension of cell remnants with damaged plasma membranes as indicated by vital dye exclusion tests and electron microscopy. Cytoskeletons retain their shapes, yet the lateral distances between individual tonofilaments within bundles appear to increase, thus forming diffuse lacelike structures. These observations support the suggestion that tonofilament bundles, when fastened to desmosomes, have elastic properties. The possible role of the cytoskeletons in the maintenance of cell size and shape in an ion-transporting epithelium is discussed.

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The Effects of Magnesium on Nucleoside Phosphatase Activity in Frog Skin

Dahl

Pratley

1967

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Histochemical tests, employing the Wachstein-Meisel medium, indicate that nucleoside triphosphatase activity is found predominantly in two areas of the frog skin epidermis: (1) in mitochondria, where activity is enhanced by dinitrophenol, Mg ~ dependent, but inhibited by fixation; and (2) apparently associated with cell membranes of the middle and outer portions of the epidermis, where activity is inhibited by Mg 2+, unaffected by dinitrophenol, and only slightly reduced by fixation. Spectrophotometric analysis shows that Mg ~+ in the medium does not increase spontaneous hydrolysis of ATP, thus obviating the possible explanation that changes in substrate concentrations in the medium lead to alterations in the "staining" distributions. It is postulated that perhaps the two enzymes differ in their requirements for substrate--one requiring the polyphosphate to be in complexed form with Mg ~-, the other uncomplexed. Concentrations of Mg ~ required to inhibit cell membrane nucleoside triphosphatase activity also inhibit the electrical potential difference and shortcircuit current of the fl'og skin. Although these observations might be taken as presumptive evidence of the cell membrane enzyme as a component of the ion pump system, because of certain dissimilarities with respect to the biochemists' "transport ATPase" and for other reasons discussed in the paper, any definite conclusions in this regard are premature.

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The Role of Microfilaments in Frog Skin Ion Transport

Pratley

McQuillen

1973

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The effects of diphenylhydantoin on sodium transport in frog skin

Carroll

Pratley

1970

Comparative and General Pharmacology

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Reversible azide inhibition of water influx into individual radish root‐hair cells

Pratley¹,

Rosene²

1954

J. Cell. Comp. Physiol.

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James N. Pratley

Differential effects of trypsin on the epidermis of Rana catesbeiana

The Effects of Magnesium on Nucleoside Phosphatase Activity in Frog Skin

The Role of Microfilaments in Frog Skin Ion Transport

The effects of diphenylhydantoin on sodium transport in frog skin

Reversible azide inhibition of water influx into individual radish root‐hair cells

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