Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
 8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inhibitory effects of phosphine on cytochrome-c oxidase and catalase have been investigated. Cytochrome-c oxidase is inhibited by treatment of insect homogenates in vitro. Catalase is inhibited in susceptible insects poisoned with phosphine in vivo. Resistant insects absorb less phosphine than susceptibles.
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PMID:Some biochemical aspects of phosphine action and resistance in three species of stored product beetles. 614 Jan 8

Germinating spores of Micromonospora chalcea pass through three morphological stages: darkening, swelling and germ tube emergence. The process of germination has pH and temperature optima of 8.0 and 40 degrees C, respectively, and is not affected by activation treatments. Darkening, accompanied by a loss of heat resistance and refractility and a decrease in absorbance of the dormant spores, needs only energy, which can be obtained from endogenous sources, and exogenous cations. Agents that inhibit ATP formation block darkening, but inhibitors of macromolecular synthesis do not affect it. Swelling requires exogenous carbon but not nitrogen sources and is characterized by a 30 to 40% increase in spore diameter. RNA synthesis is necessary for swelling and inhibitors of protein synthesis delay this process. During this stage, maximum respiratory, cytochrome oxidase and catalase activities are reached. DNA synthesis starts at the beginning of germ tube emergence. This final stage requires both exogenous carbon and nitrogen sources and the sequence of macromolecular synthesis is RNA, protein and, finally, DNA. Rifampicin, streptomycin and mitomycin C prevent protein and DNA synthesis regardless of when added during germination. Rifampicin inhibits [3H]uridine incorporation immediately but there is a delay of about 160 min in the case of streptomycin or mitomycin C.
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PMID:Germination of spores of Micromonospora chalcea: physiological and biochemical changes. 616 28

Basically the DAB-technique localizes 3 enzymes, i.e. peroxidase, catalase, and cytochrome oxidase, but also pseudoperoxidatic activity of hemeenzymes (hemoglobin, myoglobin, etc.). Although at the ultrastructural level, i.e. in cytochemistry, the appropriate conditions for specific identification of each of these enzymatic activities have been extensively studied and reported in the literature, the subject remains open to investigation. In light microscopy DAB staining has been less thoroughly studied. Since DAB histochemistry might have practical interest in daily diagnostic pathology, it appeared worthwhile to work out a method convenient for paraffin embedded tissues. The method consisted of a prolonged incubation 48 h) of small tissue blocks, which had been prefixed for 1 h in 4% formaldehyde. Dehydration and rehydration occurred in graded ethanols; counterstain was obtained by toluidine blue. Although further experiments are needed to specify the physico-chemical conditions for the three enzymatic activities, the results are morphologically superior to that of frozen sections.
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PMID:Diaminobenzidine histochemistry in light microscopy. 617 Nov 31

1. The metabolism of [14-14C]erucate and [U-14C]palmitate has been investigated in perfused heart from rats fed 0.3% clofibrate for 10 days and from control rats. 2. The total uptake of fatty acids in the heart increased in the clofibrate fed group. Clofibrate increased the oxidation of [14-14C]erucic acid by 100% and the oxidation of [U-14C]palmitic acid by 30% compared to controls. 3. The chain-shortening of erucate to C20:1 and C18:1 fatty acids in the perfused heart was stimulated at least two-fold by clofibrate feeding. 4. The activity of the peroxisomal marker enzyme catalase increased 60%, the activity of cytochrome oxidase increased approx. 16% and the content of total coenzyme A increased 30% in heart homogenates from rats fed clofibrate compared to controls. 5. The isolated mitochondrial fraction from clofibrate fed rats showed an increased capacity for oxidation of palmitoylcarnitine and decanoylcarnitine, while the oxidation of erucoylcarnitine showed little change. 6. It is suggested that clofibrate increases the oxidation of [14-14C]erucic acid in the perfused heart by increasing the capacity for chain-shortening of [14-14C]erucate in the peroxisomal beta-oxidation system.
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PMID:Increased beta-oxidation of erucic acid in perfused hearts from rats fed clofibrate. 624 93

Three mitochondrial enzymes, cytochrome oxidase, succinate dehydrogenase, and monoamine oxidase, and two peroxisomal enzymes, catalase and urate oxidase, were measured spectrophotometrically in the postnuclear supernatant prepared from homogenates of normal mucosa and carcinoma of the human colon. The specific activities, in both normal mucosa and carcinoma, varied from patient to patient. However, the difference in these activities between normal mucosa and carcinoma was consistent when patients were compared. The activities of cytochrome oxidase, succinate dehydrogenase, monoamine oxidase, and catalase were greater in normal mucosa than in carcinoma. In contrast, urate oxidase activity increased in carcinoma as compared with normal mucosa. Furthermore, cytochrome oxidase and succinate dehydrogenase decreased proportionally in carcinoma, supporting the concept that the mitochondrial respiration in normal tissue and carcinoma is quantitatively but no qualitatively changed. However, the decrease in monoamine oxidase activity in carcinoma was greater than that observed with other mitochondrial enzyme activities and was irregular. This suggests that a qualitative mitochondrial change may occur in carcinoma. In particular, the ratio between outer membrane enzyme activity and respiratory enzyme activity may be altered.
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PMID:A study of some mitochondrial and peroxisomal enzymes in human colonic adenocarcinoma. 625 83

In rat liver, three different enzymes with peroxidatic activity are demonstrated with modifications of the DAB-technique: peroxidase in the endoplasmic reticulum of Kupffer cells, catalase in peroxisomes and cytochrome oxidase in mitochondria. The major problem of the DAB-methods is their limited specificity so that often in tissues incubated for one enzyme the other two proteins are also stained simultaneously. We have studied the conditions for selective staining of each of these three enzymes in rat liver fixed either by perfusion with glutaraldehyde or by immersion in a modified Karnovsky's glutaraldehyde-formaldehyde fixative. The observations indicate that in perfusion fixed material selective staining can be obtained by reduction of the incubation time (5 min) and the use of optimal conditions for each enzyme. In livers fixed by immersion the distribution of the staining is patchy and irregular and usually longer incubation times (15-30 min) are required. Selective staining of peroxidase in Kupffer cells was obtained by brief incubation at room temperature in a medium containing 2.5 mM DAB in cacodylte buffer pH 6.5 and 0.02% H2O2. The exclusive staining for cytochrome oxidase in cristae of mitochondria was achieved after short incubation in 2.5 mM DAB in phosphate buffer pH 7.2 containing 0.05% cytochrome c. For selective demonstration of catalase in peroxisomes the tissue was incubated in 5 mM DAB in Teorell-Stenhagen (or glycine-NaOH) buffer at pH 10.5 and 0.15% H2O2. The prolongation of the incubation time in peroxidase medium caused marked staining of both mitochondria and peroxisomes. In the cytochrome oxidase medium longer incubations led to slight staining of peroxisomes. The catalase medium was quite selective for this enzyme so that even after incubation for 120 min only peroxisomes stained.
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PMID:Selective cytochemical localization of peroxidase, cytochrome oxidase and catalase in rat liver with 3,3'-diaminobenzidine. 626 82

Even 70 years ago Gram-negative coccobacilli had been recognized in vaginal discharge and were cultured 30 years ago. The need to have blood in agar medium for cultivation suggested that the organisms might be a Haemophilus species. Later, however, growth characteristics and other features resulted in their being placed in the genus Corynebacterium, before it was realized that this was inappropriate and they were transferred to a new genus and species Gardnerella vaginalis. The organisms are Gram-variable, non-sporing, non-flagellate, non-motile coccobacilli of average size 0.4 X 1-1.5 microns. The cell wall is laminated and some strains possess pili. G. vaginalis is fermentative and dextrose, fructose, galactose, glucose, maltose, mannose, ribose and starch are most likely to be metabolized. However, published patterns of the sugars fermented vary widely and most workers do not rely on such tests as a means of identification. Of many other features exhibited by G. vaginalis, the following are outstanding: it does not produce catalase, cytochrome oxidase, hydrogen sulphide, indole, or urease. Nor does it degrade aesculin, liquefy gelatin, reduce nitrate, or decarboxylate arginine, lysine or ornithine. On the other hand, it is sensitive to hydrogen peroxide, often causes beta-haemolysis and usually hydrolyses hippurate and starch. G. vaginalis is serologically heterogeneous and causes haemagglutination which is mannose resistant. It is resistant to several antibiotics, including amphotericin, colistin, nalidixic acid and gentamicin, which may be incorporated in selective media.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The bacteriology of Gardnerella vaginalis. 639 9

Twenty-one strains of pink-pigmented bacteria, isolated from human clinical specimens and an environmental source, were compared with Pseudomonas mesophilica ATCC 29983 and Protaminobacter ruber ATCC 8457. These isolates were gram-negative, oxidative rods which were motile by means of a single polar flagellum; gave positive catalase, indophenol oxidase, urease, and amylase reactions; and grew slowly at 30 degrees C. Fourteen isolates conformed to the designated type strains Pseudomonas mesophilica ATCC 29983 and Protaminobacter ruber ATCC 8457. The remaining seven strains represented an undescribed taxon. These pink bacteria appear to be invaders of debilitated patients with an underlying chronic disease.
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PMID:Pseudomonas mesophilica and an unnamed taxon, clinical isolates of pink-pigmented oxidative bacteria. 649 Aug 48

Experiments were carried out to determine if the difference in rates of cell proliferation between normal and neoplastic cells may be related to altered levels of oxidative enzymes. Assays were performed using homogenates from hepatocellular carcinoma HC-252, a rapidly growing and moderately well-differentiated tumor; from normal liver; and from the liver of the tumor-bearing ACI rat. Results of the mitochondrial enzymes indicated that the activities of cytochrome oxidase and succinate dehydrogenase were 3-fold lower in tumor homogenates than in liver homogenates. Monoamine oxidase activity could not be detected in HC-252; mixing experiments indicated no inhibitor was present in HC-252. Activities of th peroxisomal enzymes, urate oxidase, D-amino acid oxidase, and L-alpha-hydroxy acid oxidase were either undetected in the tumor or were 12-fold lower than in liver homogenates. The activity of xanthine oxidase, a cytoplasmic enzyme, was 5- to 6-fold lower in the tumor. Catalase activity in the tumor was also lower than in liver; this may be indicative of a lower oxidative environment at the cellular level. These enzyme activities of the liver of tumor-bearing rats were in the same range as those of normal rat liver, except that D-amino acid oxidase activity was slightly lower, and catalase activity was markedly lower and varied in a wide range. These results show an inverse correlation between the activities of oxygen-utilizing enzymes and rates of proliferation of one tumor line and its control. The possible implications of these results in neoplasia, cell proliferation, and cellular aging are discussed.
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PMID:Oxidoreductase activities in normal rat liver, tumor-bearing rat liver, and hepatoma HC-252. 689 80

Hypolipidemic drugs increased 3- to 4-fold the activity of the peroxisomal beta-oxidation system in rat liver, with modest or no effects on catalase activity, liver weight, or peroxisome abundance. This specificity of action was observed in two experimental models: 1) bezafibrate treatment of male rats (25 mg/kg body wt., p.o.) and 2) clofibrate treatment of female rats (5 g/kg chow). Bezafibrate had no effect on the liver content of protein, catalase, or cytochrome oxidase, and little or no effect on mitochondrial beta-oxidation. The results indicate that the hypotriglyceridemic mechanism of action of these drugs involves an induction of the peroxisomal beta-oxidation system, but this mechanism does not obligatorily include gross hepatomegaly or other alterations of peroxisomes that are often caused by hypolipidemic compounds. This dissociation of specific biochemical changes from other effects demonstrates a precise regulation of organelle biogenesis. Peroxisomes synthesized under the influence of bezafibrate or clofibrate have a different enzymatic composition than do normal peroxisomes. These results have several implications. 1) Side effects of clofibrate that are of current clinical concern may be unrelated to its lipid-lowering effects. 2) Measurement of peroxisomal beta-oxidation should be a sensitive and specific tool for screening for new hypotriglyceridemic compounds. 3) Peroxisome proliferation or lack thereof is not central to efficacy. 4) Other new drugs may be discovered that are highly discriminating in elevating specific enzymes of fatty acid catabolism while causing even less or no hepatomegaly and other side effects.-Lazarow, P. B., H. Shio, and M. A. Leroy-Houyet. Specificity in the action of hypolipidemic drugs: increase of peroxisomal beta-oxidation largely dissociated from hepatomegaly and peroxisome proliferation in the rat.
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PMID:Specificity in the action of hypolipidemic drugs: increase of peroxisomal beta-oxidation largely dissociated from hepatomegaly and peroxisome proliferation in the rat. 707 46


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