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A histochemical azo-coupling method for localizing folic acid in situ is described. Cat and rat liver, kidney, bone marrow and brain were found to be rich in folic acid; stomach, intestine, salivary glands, and blood contained less. Folic acid was localized in the cytoplasm of tissues having a very active metabolism, but in the nucleus of highly specialized cells such as neurons.  相似文献   

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K-pyroantimonate is an anion that forms an electron-dense precipitate with cellular cations that is readily visualized at the ultrastructural level. The staining process is made relatively specific for calcium by comparing pyroantimonate treated sections to sections pretreated with ethylene glycol-bis-N,N'-tetraacetic acid, a chelating agent that removes calcium but not other cellular cations. By these means, it is shown that the antimonate-calcium complex is located predominantly in mitochondria and cell membranes throughout most of the growth plate. In the degenerating zone, however, there is a gradual loss of stain complex from the mitochondria and cell membranes and a concomitant accumulation of the stain complex by matrix vesicles. The latter are the initial site of mineralization in the growth plate as detected by these means. Thus, this study suggests that intracellular calcium plays a significant role in matrix calcification.  相似文献   

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Summary The localization of the purple tartrate-resistant, iron-containing acid phosphatase in the bovine spleen was studied by enzyme histochemistry at the light and electron microscopic levels as well as by immunohistochemistry. The purple phosphatase was localized only in lysosome-like organelles of cells belonging to the reticulo-phagocytic system. The same cells were identified as containing large iron(III)-deposits as ferritin in homogeneously granular accumulations and freely in the cytoplasm, or as hemosiderin in siderosomes. The phagocytosing cells containing purple phosphatase and ferritin often had close contact with clusters of aged and deformed erythrocytes.A possible catabolic role of the purple enzyme as a phosphatase degrading phosphoproteins of the erythrocyte membrane and the cytoskeleton was assumed.  相似文献   

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The localization of the purple tartrate-resistant, iron-containing acid phosphatase in the bovine spleen was studied by enzyme histochemistry at the light and electron microscopic levels as well as by immunohistochemistry. The purple phosphatase was localized only in lysosome-like-organelles of cells belonging to the reticulo-phagocytic system. The same cells were identified as containing large iron(III)-deposits as ferritin in homogeneously granular accumulations and freely in the cytoplasm, or as hemosiderin in siderosomes. The phagocytosing cells containing purple phosphatase and ferritin often had close contact with clusters of aged and deformed erythrocytes. A possible catabolic role of the purple enzyme as a phosphatase degrading phosphoproteins of the erythrocyte membrane and the cytoskeleton was assumed.  相似文献   

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Summary Acid phosphatase activity has been studied in cold microtome sections and using simultaneous azo coupling method in developing teeth and bone, and serial sections were made for the demonstrations of alkaline phosphatase.1. In developing teeth, strongest activity of acid phosphatase was found in the distal portion of high columnar ameloblasts associated with heavy calcification in the rodent incisor, and ameloblasts and odontoblasts in adjacent occlusal surface in molar teeth. However, the activity of immatured ameloblast and crevicular aspects of molar were weaker.2. In the epiphyseal bone trabeculae a striking acid phosphatase reaction was found.3. As regards to the effects of decalcifying solutions to the enzymatic activity, the use of EDTA decalcifying agent (10% and pH 7 to 4) showed the best results. That is, a decrease of decalcifying time and a greater preservation of acid phosphatase activity.With 11 Figures in the Text  相似文献   

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Using lanthanum as an extracellular marker, the transition between the subsynaptic folds of the motor end plate and the T-system of frog muscle fibres is portrayed for the first time. On the lower segment of the subsynaptic folds of frogs, there are numerous caveolae which can connect with one another to form meandering, branching tubes. The T-system is in contact with these tubes (which run through the sarcoplasm) beneath the motor end plate. In those segments of the end plate with massed sarcoplasm and a cell nucleus, these tubes form networks in close proximity to the cellular organelles. The morphological findings obtained here are compared with findings from mammals. The physiological significance of the transition between the subsynaptic fold and the T-system is discussed.  相似文献   

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Summary High resolution electron microscopy of ultrathin sections confirms the presence of a membrane surrounding the tapetal rods in the cat. Cats depleted of taurine exhibit disruption and disorganization of this membrane, probably the first stage of more severe tapetal degeneration. Histochemical localization of zinc shows it to be present on the periphery of the tapetal rods. The amount of zinc present on the periphery of the tapetal rods of taurine depleted cats was greatly reduced. Taurine in feline tapetum, confirmed by autoradiography and direct measurement, was also greatly reduced in taurine-depleted cats. We conclude that both taurine and zinc are localized on the periphery of the tapetal rods and that they contribute to the stability of the membrane. We have also confirmed earlier reports that the cat tapetal rods contain riboflavin and no detectable cysteine.Presented in part at the International Symposium Taurine-Questions and Answers Mexico City, November 16–19, 1980  相似文献   

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A histochemical method for the determination of IAA-oxidase has been used in sections of various aerial parts of winter wheat plants. High IAA-oxidase activity was localized in the cell walls of sclerenchyma near the periphery of the stem, in the vascular bundle sheath of sclerenchyma and in xylem, both in the stem and in the leaf. The cell wall—bound IAA-oxidase activity therefore appeared in lignifying tissues. The staining was very weak or absent in the cell walls of parenchyma tissues and phloem. The positive reaction of the cytosol at the bulbous ends of guard cells and in the leaf primordia is presumed to be due to cytosolic IAA-oxidase. These results are discussed in relation to peroxidase localization and to our previousin vitro studies.  相似文献   

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