EC:1.1.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.1.1.1 (alcohol dehydrogenase)
9,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Morphological and isozyme variation was observed among plants regenerated from callus cultures of Cereus peruvianus. Different morphological types of shoots (68%) were observed in 4-year-old regenerated plants, while no distinct morphological variants were observed in plants grown from germinated seeds. Isozyme patterns of 633 plants regenerated from calli and of 261 plants grown from germinated seeds showed no variation in isocitrate dehydrogenase isozyme, and the differential sorbitol dehydrogenase, alcohol dehydrogenase, malate dehydrogenase, acid phosphatase, and peroxidase isozyme patterns observed in regenerated plants were attributed to nonallelic variation. Allelic variation was detected at three isoesterase loci. The proportion of polymorphic loci for both populations was 13.6% and the deviation from Hardy-Weinberg equilibrium for the Est-1 and Est-7 loci observed in somaclones was attributed to the manner in which the regenerant population was established. The high values for genetic identity among regenerant and seed-grown plant populations are in accordance with the low levels of interpopulation genetic divergence. In somaclones of C. peruvianus, morphological divergence was achieved within a short time but was not associated with any isozyme changes and also was not accompanied by biochemical genetic divergence.
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PMID:Isozyme variability in plants regenerated from calli of Cereus peruvianus (Cactaceae). 933 13

To evaluate the potential contribution of extracellular enzymes to the pathogenicity of mycobacteria, the presence of selected enzyme activities was investigated in the culture filtrates of the obligate human pathogen Mycobacterium tuberculosis, M. bovis BCG, the opportunistic pathogens M. kansasii and M. fortuitum, and the non-pathogenic species M. phlei and M. smegmatis. For M. tuberculosis and M. bovis, 22 enzyme activities were detected in the culture filtrates and/or cell surfaces, of which eight were absent from the culture fluids of non-pathogens: alanine dehydrogenase, glutamine synthetase, nicotinamidase, isonicotinamidase, superoxide dismutase, catalase, peroxidase and alcohol dehydrogenase. These activities, which correspond to secreted enzymes, formed a significant part (up to 92%) of the total enzyme activities of the bacteria and were absent from the culture fluids and the cell surfaces of the non-pathogenic species M. smegmatis and M. phlei. The extracellular location of superoxide dismutase and glutamine synthetase seemed to be restricted to the obligate pathogens examined. The difference in the enzyme profiles was not attributable to the growth rates of the two groups of bacteria. The presence of the eight enzyme activities in the outermost compartments of obligate pathogens and their absence in those of non-pathogens provides further evidence that these enzymes may be involved in the pathogenicity of mycobacteria. In addition, the eight enzyme activities were demonstrated in the cell extract of M. smegmatis. Stepwise erosion of the cell surface of M. smegmatis to expose internal capsular constituents showed that the various enzyme activities, with the possible exception of superoxide dismutase, were located more deeply in the cell envelope of this bacterium. This suggests that the molecular architecture of the mycobacterial envelopes may play an important role in the pathogenicity of these organisms.
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PMID:Extracellular enzyme activities potentially involved in the pathogenicity of Mycobacterium tuberculosis. 949 94

An unusual phenomenon is observed for gelatin solutions (1.7-6.8%) in the microemulsion system of 0.3 M bis(2-ethylhexyl)sulfosuccinate sodium salt in isooctane and 14.5% distilled water. Highly viscous gels obtained at temperatures above 30 degreesC become free-flowing liquids at low temperatures (5-10 degreesC). This reversible temperature-dependent sol-gel transition phenomenon is used to immobilize several enzymes, such as lipase from Candida rugosa, alcohol dehydrogenase from baker's yeast, mandelonitrile lyase from Sorghum bicolor, and horseradish peroxidase in the gelatin matrix by solubilizing the enzyme in a microemulsion-based gelatin solution at low temperature (<5 degreesC) and then cross-linking with glutaraldehyde. The enzymes retain 70-80% of their activity after immobilization and can be used in biotransformations in organic solvents without any changes in enantioselectivity. This work provides a unique low-temperature technique for enzyme immobilization in a biocompatible gelatin matrix with a great flexibility of size and shape.
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PMID:An unusual reversible sol-Gel transition phenomenon in organogels and its application for enzyme immobilization in gelatin membranes 993 19

Oxidative damage of creatine kinase (CK) induced by Adriamycin((R)) (ADM) with peroxidase was investigated using horseradish peroxidase (HRP). ADM oxidatively inactivated CK during its interaction with HRP in the presence of H(2)O(2) (HRP-H(2)O(2)). The red color of ADM was lost during oxidation by HRP-H(2)O(2). Adding catalase stopped the color change of ADM induced by HRP-H(2)O(2), indicating that ADM was oxidized by HRP complex I or II. CK was inactivated readily, even when it was added to the reaction mixture containing colorless ADM. Some sulfhydryl groups of CK, which have an important role in its enzyme activity, were very sensitive to ADM activated by HRP-H(2)O(2), suggesting that inactivation of CK is due to oxidation of SH groups at the active center. Presumably, oxidative ADM quinone is involved dominantly in the inactivation of CK. Among the anthracycline drugs tested in this study, only ADM and epirubicin caused inactivation of CK and alcohol dehydrogenase and loss of the red color during oxidation by HRP-H(2)O(2).
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PMID:Inactivation of creatine kinase by Adriamycin during interaction with horseradish peroxidase. 1080 50

Creatine kinase (CK) was used as a marker molecule to examine the side effect of damage to tissues by indomethacin (IM), an effective drug to treat rheumatoid arthritis and gout, with horseradish peroxidase and hydrogen peroxide (HRP-H2O2). IM inactivated CK during its interaction with HRP-H2O2. Under aerobic conditions, inactivation of CK significantly decreased. CK in rat heart homogenate was also inactivated by IM with HRP-H2O2. When IM was incubated with HRP-H2O2, the maximum absorption of IM at 280 nm rapidly decreased and a new peak at 410 nm occurred with isosbestic points at 260 and 312 nm. In contrast, under anaerobic conditions, the spectral change of IM was almost absent, indicating IM was oxidized to the yellow substance by HRP-H2O2. Adding catalase strongly inhibited the production of yellow substance. Sodium azide also blocked the formation of yellow substance and the inactivation of CK. Electron spin resonance signals of IM carbon-centered radical were detected using 2-methyl-2-nitrosopropane during the interaction of IM with HRP-H2O2 under anaerobic conditions. Oxygen was consumed during the interaction of IM with HRP-H2O2. These results suggest that IM carbon-centered radicals may rapidly react with O2 to generate the peroxyl radicals. Sulfhydryl groups and tryptophane residues of CK decreased during the interaction of IM with HRP-H2O2. Other sulfhydryl enzymes, including alcohol dehydrogenase and glyceraldehyde-3-phosphate dehydrogenase, were also readily inactivated during the interaction with HRP-H2O2. Sulfhydryl enzymes seem to be very sensitive to IM activated by HRP-H2O2.
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PMID:Inactivation of creatine kinase during the interaction of indomethacin with horseradish peroxidase and hydrogen peroxide: involvement of indomethacin radicals. 1124 19

Creatine kinase (CK) was used as a marker molecule to examine the side effect of damage to tissues by phenylbutazone (PB), an effective drug to treat rheumatic and arthritic diseases, with horseradish peroxidase and hydrogen peroxide (HRP-H(2)O2). PB inactivated CK during its interaction with HRP-H(2) O(2), and inactivated CK in rat heart homogenate. PB carbon-centered radicals were formed during the interaction of PB with HRP-H(2)O2. The CK efficiently reduced electron spin resonance signals of the PB carbon-centered radicals. The spin trap agent 2-methyl-2-nitrosopropane strongly prevented CK inactivation. These results show that CK was inactivated through interaction with PB carbon-centered radicals. Sulfhydryl groups and tryptophan residues in CK were lost during the interaction of PB with HRP-H(2)O2, suggesting that cysteine and tryptophan residues are oxidized by PB carbon-centered radicals. Other enzymes, including alcohol dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase, but not lactate dehydrogenase, were also inactivated. Sulfhydryl enzymes seem to be sensitive to attack by PB carbon-centered radicals. Inhibition of SH enzymes may explain some of the deleterious effects induced by PB.
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PMID:Phenylbutazone radicals inactivate creatine kinase. 1126 93

Compounds acting as antioxidants to lipids often have a prooxidant effect on DNA or protein. In this study, inactivation of creatine kinase was examined as an indicator of protein damage induced by antioxidative stilbene derivatives, including diethylstilboestrol, resveratrol and tamoxifen, with horseradish peroxidase and hydrogen peroxide (horseradish peroxidase-H2O2). Diethylstilboestrol and resveratrol, but not tamoxifen, rapidly inactivated creatine kinase. Also, creatine kinase in heart homogenate was inactivated by diethylstilboestrol and resveratrol. Tamoxifen, which has no phenolic hydroxyl groups in its structure, was about 10 times less active in protecting lipids and creatine kinase than diethylstilboestrol and resveratrol, suggesting that phenolic hydroxyl groups in diethylstilboestrol and resveratrol of stilbene derivatives are anti- and pro-oxidative. Absorption spectra of these stilbene derivatives rapidly changed during the reaction with horseradish peroxidase-H202. Diethylstilboestrol and resveratrol free radicals emitted electron spin resonance signals and creatine kinase effectively diminished the electron spin resonance signals. These results suggest that free radicals of diethylstilboestrol and resveratrol formed through reaction with horseradish peroxidase-H202 inactivated creatine kinase. Presumably, oxidation of essential cysteine and tryptophan residues lead to inactivation of creatine kinase. Other enzymes, including alcohol dehydrogenase and cholinesterase, were also sharply inhibited by diethylstilboestrol and resveratrol with horseradish peroxidase-H202. Free radicals of diethylstilboestrol and resveratrol seem to mediate between anti- and prooxidative actions.
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PMID:Inactivation of creatine kinase induced by stilbene derivatives. 1207 28

The substrate-specific induction of wheat (Triticum aestivum L. cv Fenman) leaf cinnamyl alcohol dehydrogenase (CAD, EC 1.1.1.195) was examined in relation to its role in regulating the composition of defensive lignin induced at wound margins. Treatment of wounds with a partially acetylated chitosan hydrolysate or spores of the nonpathogen Botrytis cinerea elicited lignification at wound margins and invoked significant increases in phenylalanine ammonia-lyase (EC 4.3.1.5), peroxidase (EC 1.11.1.7), and CAD activities. The substrate-specific induction of CAD with time was determined in elicitor-treated leaves and in excised lignifying wounds. In whole leaf extracts no significant increases in p-cou-maryl and coniferyl alcohol dehydrogenase activities were detectable, but a significant 5-fold increase in sinapyl alcohol dehydrogenase activity was evident 32 h after elicitor treatment. Similarly, fungal challenge resulted in elevated levels of only sinapyl alcohol dehydrogenase in whole-leaf extracts. In excised lignifying tissues p-coumaryl alcohol dehydrogenase levels were similar to those observed in healthy tissue. A small yet significant increase in coniferyl alcohol dehydrogenase was apparent, but the most dramatic increase occurred in sinapyl alcohol dehydrogenase activity, which increased to values approximately 10 times higher than the untreated controls. Our results show for the first time that CAD induction in lignifying tissues of wheat is predominantly attributable to highly localized increases in sinapyl alcohol dehydrogenase activity.
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PMID:Elicitor-Induced Cinnamyl Alcohol Dehydrogenase Activity in Lignifying Wheat (Triticum aestivum L.) Leaves. 1223 5

Creatine kinase (CK) was used as a marker molecule to examine the side effects of damage to tissues by mefenamic acid, an effective drug to treat rheumatic and arthritic diseases, with horseradish peroxidase and hydrogen peroxide (HRP-H(2)O(2)). Mefenamic acid inactivated CK during its interaction with HRP-H(2)O(2). Also, diphenylamine and flufenamic acid caused a loss of CK activity, indicating the imino group, not substituent groups, in the phenyl rings have a crucial role in CK inactivation. Rapid change in mefenamic acid spectra was detected, suggesting that mefenamic acid is efficiently oxidized by HRP-H(2)O(2). Peroxidases oxidize xenobiotics to free radicals by a one-electron transfer. However, direct detection of mefenamic acid radicals by electron spin resonance (ESR) was unsuccessful. Reduced glutathione and 5,5-dimethyl-1-pyrroline-1-oxide (DMPO) in the reaction mixture containing mefenamic acid with HRP-H(2)O(2) produced ESR signals consistent with a DMPO-glutathionyl radical adduct. These results suggest that inactivation of CK is probably caused through formation of mefenamic acid radicals. Sulfhydryl groups and tryptophan residues of CK were diminished by mefenamic acid with HRP-H(2)O(2). Other SH enzymes, including alcohol dehydrogenase and glyceraldehyde-3-phosphate dehydrogenase, were very sensitive to mefenamic acid with HRP-H(2)O(2). Inactivation of SH enzymes may explain some deleterious actions of mefenamic acid.
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PMID:Inactivation of creatine kinase during the interaction of mefenamic acid with horseradish peroxidase and hydrogen peroxide: participation by the mefenamic acid radical. 1259 89

One step competitive enzyme linked immunosorbent assay (ELISA) for direct estimation of testosterone in human serum is described. Testosterone-3-O-carboxymethyl-oxime-bovine serum albumin (testosterone-3-O-CMO-BSA), was used as immunogen and testosterone-3-O-carboxymethyl-oxime-adipic-acid dihydrazide-horseradish peroxidase (testosterone-3-O-CMO-ADH-HRP) was used as tracer. To the testosterone antibody coated microtiter wells, standard or serum samples (100 microL), along with testosterone-3-O-CMO-ADH-HRP conjugate (100 microL) were incubated for 1 h at 37 degrees C. Bound enzyme activity was measured by using tetra methyl benzidine/hydrogen peroxide (TMB/H2O2) as a substrate. In this new strategy, charcoal stripped pooled human serum spiked with non-cross reactive C18, C19, C21, and C27 steroids, used for preparing the standards and blocking the sex hormone binding globulin (SHBG)/and other steroid binding globulins (SBG). The sensitivity of the assay was 0.015 ng/mL. The intra-assay and inter-assay coefficients of variation (CVs) were ranged from 7.8 to 11.8 and 4.8 to 10.4, respectively. The serum testosterone values, obtained by this method, were correlated well with those obtained by radioimmunoassay r = .98 (n = 100).
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PMID:One step enzyme linked immunosorbent assay for direct estimation of serum testosterone. 1277 72

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