Harold H. Edwards scite author profile

Human erythrocytes have been freeze-fractured, and the polypeptides associated with the separate halves of the membrane bilayer have been analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The transmembrane proteins were differentially separated by the fracture process. Although sialoglycoproteins associated with the outer half of the membrane, the anion transport protein (band 3) mainly remained with the inner half of the membrane. Well-defined fragments of the sialoglycoproteins were produced by the freeze-fracture procedure, indicating that selected covalent bonds of these transmembrane proteins were broken.

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Localization of acyl carrier protein in Escherichia coli

Jackowski¹,

Edwards²,

Davis³

et al. 1985

J Bacteriol

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Acyl carrier protein was localized by immunoelectron microscopy in the cytoplasm of Escherichia coli. These data are inconsistent with the previous report of an association between acyl carrier protein and the inner membrane (H. Van den Bosch, J. R. Williamson, and P. R. Vagelos, Nature [London] 228:338-341, 1970). Moreover, bacterial membranes did not bind a significant amount of acyl carrier protein or its thioesters in vitro. A thioesterase activity specific for long-chain acyl-acyl carrier protein was associated with the inner membrane.

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Quantitative subcellular localization of calmodulin-dependent phosphatase in chick forebrain

et al. 1988

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Using a radioimmunoassay, we have measured the level of calmodulin-dependent phosphatase (calcineurin) in various subcellular fractions from chick forebrain. Our results revealed high levels of the enzyme in the cytoplasm and microsomes. A considerable amount was also observed in synaptosomes, where it was found exclusively in the synaptoplasm, comprising 0.32% of the total synaptoplasmic protein. Immunocytochemical localization of the phosphatase in isolated synaptosomes supported the biochemical finding. Phosphatase was not detected in nuclei, myelin, synaptic vesicles, and mitochondria. These results suggest that myelin basic protein and histone H1, widely used in biochemical characterization studies of the phosphatase, may not be physiological substrates, and that the cytoplasm, microsomes, and synaptoplasm may prove to be useful sources for the identification of physiological substrates.

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The Wistar Furth rat: an animal model of hereditary macrothrombocytopenia

Jackson

Hutson

Steward

et al. 1988

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The mechanisms that determine and regulate platelet size are unknown. By phase microscopy, we observed that Wistar Furth (WF) rats had macrothrombocytopenia. In this study, we have characterized and compared platelets and megakaryocytes of WF rats with those of Wistar, Long-Evans hooded (LE), and Sprague-Dawley rats. In addition, we have examined the mode of inheritance of this WF rat platelet abnormality. The average platelet count of WF rats was only one-third that of the other three rat strains. In contrast, the mean platelet volume (MPV) of adult WF rats was twice that of the other rat strains; however, the average megakaryocyte diameter and DNA content distribution of WF rats were not significantly different from those of LE rats. The average megakaryocyte concentration was 30% lower in the WF strain compared with that of LE rats. Mazelike membrane formations were observed in WF platelets and megakaryocytes by electron microscopy. Reciprocal crosses of WF and LE rats resulted in offspring with MPVs and platelet counts like those of LE rats, indicating that the macrothrombocytopenic trait is recessive in its inheritance. Reciprocal marrow transplants between the WF and LE strains resulted in MPVs like those of the donor strain, demonstrating that the macrothrombocytopenia is an intrinsic marrow abnormality of the WF strain. Splenectomy did not alter the MPV of WF rats. The response of WF megakaryocytes and platelets to severe, acute thrombocytopenia was similar to that of LE rats except that the shift to higher megakaryocyte DNA contents was muted and platelet recovery was slower in the WF rats. In summary, the WF rat has a hereditary macrothrombocytopenia that is recessive in nature and not due to differences in megakaryocyte size or DNA content. These results suggest that the macrothrombocytopenia of WF rats results from the formation of fewer platelets per megakaryocyte, possibly resulting from a qualitative or quantitative defect in some component necessary for proper subdivision of megakaryocyte cytoplasm into platelets.

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Harold H. Edwards

Changes in the cytoskeletal structure of human platelets following thrombin activation.

Distribution of Transmembrane Polypeptides in Freeze Fracture

Localization of acyl carrier protein in Escherichia coli

Quantitative subcellular localization of calmodulin-dependent phosphatase in chick forebrain

The Wistar Furth rat: an animal model of hereditary macrothrombocytopenia

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