Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ultrastructural distribution of adenosine triphosphatase and thiamine pyrophosphatase in synapses of rat's cerebral cortex was studied. Adenosine triphosphatase activity in some synaptic vesicles and mitochondria, on pre- and postsynaptic membranes, as well as in the postsynaptic thickening was established. The reaction specificity was proved by means of some controls: various concentrations of ouabain, NaF, NiCl2, cysteine, substrate free medium and non-specific substrates - cocarboxylase and beta-glycerophosphate. At the thiamine pyrophatase reaction, the enzyme positive product was found on the membrane of some clear synaptic vesicles, on the singl sacs of smooth endoplasmic reticulum in the axon terminal, and bouton cell membrane. Substrate free medium, addition of cystein and substitution of orininal substrate with adenosine triphosphate and beta-glycerophosphate as controls were used. The fine structure localization of both enzymes in synaptic structures suggests their important role in the synaptic function.
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PMID:Cytochemical localization of adenosine triphosphatase and thiamine pyrophosphatase in the synapases of rat's cerebral cortex. 14 1

The "morphology" of the enzymatic activities of thiamine pyrophosphatase (TPPase), acid phosphatases (ACPases), adenosine triphosphatase (ATPase) and steroid-3 beta-ol dehydrogenase (St-3 beta-ol DH) has been described using as a basis the classification of the seminiferous epithelium of the rat into 14 stages as proposed by Leblond and Clermont (1952a, b). It was demonstrated (Figs. 1, 2) that 1. the kinetics of the enzymatic pattern is correlated with the developmental stages during spermatocyto- and spermiogenesis, and that therefore the chemocytostructure, especially of the germ cells, shows characteristic changes. 2. the enzymatic pattern yields information on the chemohistostructure of the testis, and thus indicates interactions between the germ cells and the coordinated somatic cells. This is valid especially for the behaviour of the "marker enzymes" TPPase and ACPases. Initially the activity of both enzymes is distributed in the cytoplasm: TPPase appears in stage VII in the preleptotene spermatocytes, and ACPases appear in stage VII in the pachytene spermatocytes. In the following stages the activity of TPPase and ACPases increases and becomes more and more concentrated, i.e. from stage IX to XIV and thereafter from stage I to XIII in the case of TPPase, and from stage I to XIII in the case of ACPases. Finally the enzymatic activity of both TPPase and ACPases is arranged in spherical bodies near the nucleus of the spermatocytes. Thus the late pachytene and diplotene spermatocytes, as well as the spermatocytes in diakinesis, are characterized by deeply stained spherical dots covering the region of the Golgi apparatus. Both enzymes disappear during the maturation divisions--parts of the cytoplasm of the II-spermatocytes during interphase react weakly positive--, reappear in the Golgi region of the newly formed spermatids in stage I, remain there up to stage V in the case of ACPases, and up to stage VII in the case of TPPase. From stages VIII to XIV TPPase is weakly positive in the Golgi apparatus of the elongating spermatids, moving within the cytoplasm from the head region towards the tail. Finally they appear in the cytoplasm of the Sertoli cells: (1) ACPases appear in the borderline region between the Sertoli cells and the elongated spermatids in stages XII to XIV (2) TPPase first appears in the basal region of the Sertoli cells in stages XI to XIV, and becomes positive in the subsequent stages I to IV as "streamer like" bands from the basement membrane up to the heads of the elongated spermatids. Both enzymes disappear gradually during stages I to III and IV to V respectively. Stage dependence of ATPase can be observed in the apical region of the Sertoli cells around the heads and the middle pieces of the elongated spermatids. ATPase appears for the first time in stages IX to X, and becomes increasingly more and more concentrated and condensed up to the point when the newly formed spermatozoa are released in stage VIII...
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PMID:Kinetics of the enzymatic pattern in the testis. I. Stage dependence of enzymatic activity and its relation to cellular interactions in the testis of the Wistar rat. 15 89

Localization and activities of alkaline phosphatase, ATPase, 5-nucleotidase, glucose-6-phosphatase, thiamine pyrophosphatase and nucleoside diphosphatase were studied in the miracidium of Fasciola hepatica L. Except for nucleoside diphosphatase whose activity in the miracidium was not observed, all the enzymes were most active in the archenteron, protonephridia and nerve ganglion. This localization of the reaction intensity allows the inference that the three organs mentioned are sites of both intense carbohydrate metabolism and lively active transport. The role of phosphatases in carbohydrate metabolism is discussed.
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PMID:Specific and non-specific phosphatases in the miracidium of Fasciola hepatica L. 17 37

Electron microscopic cytochemistry was used to determine the localization of five phosphatase enzymes-glucose-6-phosphatase, inosine diphosphatase, thiamine pyrophosphatase, acid phosphatase, and adenosine triphosphatase-in control human testes. Glucose-6-phosphatase occurred in the endoplasmic reticulum and nuclear envelope of Sertoli cells, Leydig cells and primitive spermatogonia, but was not observed in more advanced spermatogenic cells. The presence of glucose-6-phosphatase activity paralleled the presence of glycogen in spermatogenic cells, i.e., both occurred in type AL and AD spermatogonia but not in type AP or B spermatogonia or in more advanced spermatogenic cells. Inosine diphosphatase activity was found in the endoplasmic reticulum, nuclear envelope, and Golgi complex of Sertoli cells and all spermatogenic cells except late spermatids. Additionally, inosine diphosphatase activity was localized at the junctions between Sertoli cells and late spermatids, but was not associated with any other plasma membrane. Thiamine pyrophosphatase reaction product was found in the Golgi bodies of Sertoli cells and in spermatogenic cells through immature spermatids. Neither inosine diphosphatase nor thiamine pyrophosphatase was observed in the Golgi bodies of spermatids during acrosomal formation. Acid phosphatase activity was found in lysosomes of spermatogonia, spermatocytes, and spermatids, in lysosomes of Leydig cells, and in lysosomes, lipofuscin bodies, and Golgi cisternae of Sertoli cells. It is thought that Sertoli lysosomes play a role in the phagocytosis of degenerating germ cells; however, the role of spermatogenic or Leydig lysosomes is unknown. Adenosine triphosphatase activity occurred at the interfaces between two spermatogonia, and between Sertoli cells and spermatogonia, but was not observed in the spaces between two Sertoli cells, two spermatocytes, two spermatids, or between Sertoli cells and spermatocytes, or between Sertoli cells and spermatids.
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PMID:The fine structural localization of testicular phosphatases in man: the control testis. 17 58

ATPase, pyrophosphatase and tripolyhosphatase activities were found in a cell-free Phytophtora infestans micelium extract. No polyphosphatase activity, hydrolyzing high molecular weigh polyphosphates to orthophosphate, was observed in the fungi. It was demonstrated that, unlike ATPase, the activity of pyrophosphatase was inhibited by Ca2+ at concentrations from 0.1 to 20 mM, and it was considerably decreased in the presence of a Ca2+ transport inhibitor, ruthenium red (0.01--0.1 mM). Possible relation of Ph. infestans pyrophosphatase activity with the process of active calcium transport is suggested.
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PMID:[Phosphohydrolases of the phytopathogenic fungus Phytophthora infestans (Mont) de Bary]. 21 66

The central nervous systems of web-building spiders (Araneidae, Agelenidae) and hunting spiders (Lycosidae, Salticidae) were tested for non-specific and specific phosphatases. Acid phosphatase exhibited weakly to moderately positive reactions in the neuronal cell bodies and in the neuropile fibre mass of all species investigated. Alkaline phosphatase could only be demonstrated in the external and internal neural lamellae of the brain and ventral cord of several specimens of the araneid species investigated. Tests for thiamine pyrophosphatase were negative with both the lead and calcium-cobalt methods. Distinctive positive reactions for adenosine triphosphatase were visible in the nervous system of all the species used, being especially strong in the optic ganglia of the hunting spiders. The demonstration of adenosine triphosphatase was only possible when applying the calcium-cobalt method after Padykula and Herman, while the lead method after Wachstein and Meisel did not produce any staining reaction at all. Controls of the histochemical reaction showed that the enzyme was activated by Ca2+ and inhibited by sulphydryl destroying reagents (e.g. PCMB), but was insensitive to ouabain. It could be probably classified as a mitochondrial proton-translocating adenosine triphosphatase.
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PMID:Phosphatases in the central nervous system of spiders (Arachnida, Araneae). 21 10

Activities of ATPase, acid and alkaline pyrophosphatases and phytase in the germs and endosperms of rice seeds of varying germinative power were measured during their swelling and germination. Maximum ATPase activity was found in the cytoplasmic fraction. Activity of pyrophosphatase was higher in the germ and that of phytase in the endosperm. As the swelling and germination continued, the enzyme activity increased. Losses of germinating power during prolonged storage were accompanied by a decline in the activity of the enzymes which, however, never disappeared; the activity of pyrophosphatases was maintained by 55-70% and that of ATPase and phytase by 40-44%.
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PMID:[Change in the phosphatase activity in rice seeds of varying germination]. 22 79

Fractions composed primarily of cells (Fraction I), membrane fragments (Fraction II) and matrix vesicles (Fraction III) were isolated from chick epiphyseal cartilage. The characteristics of the alkaline phosphatase (EC 3.1.3.1), pyrophosphatase (EC 3.6.1.1) and ATPase (EC 3.6.1.3) activities in the matrix vesicle fraction were studied in detail. Mg-2-+ was not absolutely essential to any of the activities, but at low levels was stimulatory in all cases. Higher concentrations inhibited both pyrophosphatase and ATPase activities. Both the stimulatory and inhibitory effects were pH-dependent. Ca-2-+ stimulated all activities weakly in the absence of Mg-2-+. However, when Mg-2-+ was present, Ca-2-+ was slightly inhibitory. Thus, none of the activities appear to have a requirement for Ca-2-+, and hence would not seem to be involved with active Ca-2-+ transport in the typical manner. The distribution of alkaline phosphatase, pyrophosphatase, and Mg-2-+ ATPase activities among the various cartilage fractions was identical, and concentrated primarily in the matrix vesicles. Conversely, the highest level of (Na-+ + K-+)-ATPase activity was found in the cell fraction. All activites showed nearly identical sensitivities to levamisole (4 - 10-3 M) which caused nearly complete inhibition of alkaline phosphatase and pyrophosphatase. About 10-15% of the ATPase activity was levamisole-insensitive. The data are consistent with the concept that the Mg-2-+-ATPase and pyrophosphatase activities of matrix vesicles stem from one enzyme, namely, alkaline phosphatase.
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PMID:Studies on matrix vesicles isolated from chick epiphyseal cartilage. Association of pyrophosphatase and ATPase activities with alkaline phosphatase. 23 58

Essential redistribution of various polyphosphate fractions was shown during dehydration and subsequent reactivation of Saccharomyces cerevisiae 14. Dehydration no matter what method was used, was followed by an increase in the content of acid soluble polyphosphates (fraction Poly P1) and a decrease of that of salt soluble polyphosphates (fraction Poly P2). Reactivation of dehydrated yeast was, on the contrary, accompanied by a decrease in the PP 1 and an increase in the Poly P2 content. A direct correlation between the Poly P2 fraction and total nucleic acids was demonstrated under various conditions of dehydration and subsequent reactivation. An inverse correlation between the content of the Poly P2, fraction and nucleic acids, on the one hand, and that of the Poly P1 fraction, on the other, was observed. Study of activities of polyphosphatases, tripolyphosphatase, pyrophosphatase and ATPase in dehydrated yeast showed values similar to those in original cells.
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PMID:[Relationship between the content of some fractions of high molecular weight polyphosphates and total nucleic acids upon dehydration of the yeast Saccharomyces cerevisiae]. 34 Nov 16

The dermal cells in grey, xanthic, and white goldfish integuments were cytochemically characterized for the following enzymatic activities: tyrosinase, DOPA-oxidase, cytochrome oxidase, monoamine oxidase, peroxidase, non-specific esterase, cholinesterase, NAD-diaphorase, NADP-diaphorase, aryl sulfatase, nucleotide phosphodiesterase, beta-glucuronidase, acid phosphatase, alkaline phosphatase, adenosine triphosphatase, thiamine pyrophosphatase, glucose-6-phosphatase, aldolase, as well as succinate, malate, isocitrate, glutamate, glucose-6-phosphate, 6-phosphogluconate, alpha-glycerophosphate, alcohol, lactate, and beta-hydroxybutyrate dehydrogenases. It was found that the epidermis was a significant barrier to the access of cytochemical reaction substrates. Removal of the epidermal barrier provided dermal cell localizations of enzymatic activities which were reproducible. Further, alterations in reaction times and temperatures from the mammalian methodology provided conditions fe various integumental cells were compared for possible interrelationships. The basic foundations for future work with the dermis of poikilothermic vertebrates on an experimental basis were established. In addition, a previously undescribed non-pigmented dermal cell, the "x"-cell, was found to have enzymatic characteristics similar to both melanophores and lipophores. The "x"-cell may be the common precursor of both types of pigment cells.
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PMID:Cytochemical characterization of goldfish (Carassius auratus L.) dermis with special reference to the pigment cells. 82 86


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