EC:1.11.1.7 - FACTA Search

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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

E. coli produces 2 catalases known as HPI and HPII. While the heme prosthetic group of the HPII catalase has been established to be a dihydroporphyrin or chlorin, the identity of the proximal ligand to the iron has not been addressed. The magnetic circular dichroism (MCD) spectrum of native ferric HPII catalase is very similar to those of a 5-coordinate phenolate-ligated ferric chlorin complex, a model for tyrosinate proximal ligation, as well as of chlorin-reconstituted ferric horseradish peroxidase, a model for 5-coordinate histidine ligation. However, further MCD comparisons of chlorin-reconstituted myoglobin with parallel ligand-bound adducts of the catalase clearly rule out histidine ligation in the latter, leaving tyrosinate as the best candidate for the proximal ligand.
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PMID:The active site structure of E. coli HPII catalase. Evidence favoring coordination of a tyrosinate proximal ligand to the chlorin iron. 166 42

The apparent sensitivity of Escherichia coli K12 to mild heat was increased by recA (def), recB and polA, but not by uvrA, uvrB or recF mutations. However, addition of catalase to the rich plating medium used to assess viability restored counts of heat-injured recA, recB and polA strains to wild-type levels. E. coli p3478 polA was sensitized by heat to a concentration of hydrogen peroxide similar to that measured in autoclaved recovery medium. The apparent heat sensitivity of DNA-repair mutants is thus due to heat-induced sensitivity to the low levels of peroxide present in rich recovery media. It is proposed that DNA damage in heated cells could occur indirectly by an oxidative mechanism. The increased peroxide sensitivity of heat-injured cells was not due to a decrease in total catalase activity but may be related specifically to inactivation of the inducible catalase/peroxidase (HPI).
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PMID:The effect of catalase on recovery of heat-injured DNA-repair mutants of Escherichia coli. 331 78

A locus unlinked to either katE or katF that affected catalase levels in Escherichia coli was identified and localized between metB and ppc at 89.2 min on the genome. The locus was named katG. Mutations in katG which prevented the formation of both isoenzyme forms of the bifunctional catalase-peroxidase HPI were created both by nitrosoguanidine and by transposon Tn10 insertions. All katG+ recombinants and transductants contained both HPI isoenzymes. Despite the common feature of little or no catalase activity in four of the catalase-deficient strains, subtle differences in the phenotypes of each strain resulted from the different katG mutations. All three mutants caused by nitrosoguanidine produced a protein with little or no catalase activity but with the same subunit molecular weight and with similar antigenic properties to HPI, implying the presence of missense mutations rather than nonsense mutations in each strain. Indeed one mutant produced an HPI-like protein that retained peroxidase activity, whereas the HPI-like protein in a second mutant exhibited no catalase or peroxidase activity. The third mutant responded to ascorbate induction with the synthesis of near normal catalase levels, suggesting a regulatory defect. The Tn10 insertion mutant produced no catalase and no protein that was antigenically similar to HPI.
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PMID:Genetic mapping of katG, a locus that affects synthesis of the bifunctional catalase-peroxidase hydroperoxidase I in Escherichia coli. 388 30

A class of catalase-deficient mutants that was unlinked to katE was localized between mutS and cys at 59.0 min on the Escherichia coli genome. This locus was named katF. Transposon Tn10 insertions were isolated that mapped in both katE and katF loci. The catalase species present in katE+ and katF+ recombinants was found to be different from the main catalase activities, HPI and HPII, in several respects. It did not have an associated peroxidase activity; it was electrophoretically slower on native polyacrylamide gels; it eluted from DEAE-Sephadex A50 at a higher salt concentration; its Km for H2O2 was 30.9 mM as compared with 3.7 mM for HPI and HPII; its synthesis was not induced by ascorbate; and it did not cross react with HPI-HPII antisera. This new catalase was labeled HPIII.
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PMID:Genetic mapping of katF, a locus that with katE affects the synthesis of a second catalase species in Escherichia coli. 609 82

It has long been known that almost all isoniazid (INH) resistant mycobacteria lose the catalase and peroxidase activities along with reduced or no virulence for guinea pigs. Recently resistance to INH has become known to be associated with mutations of katG gene encoding the HPI (Hydroperoxidase I) type catalase and peroxidase. Among these mutations, the point mutation of codon 463 of katG gene is found frequently, and is suggested as being associated with INH resistance. Therefore we performed this study in order to confirm the correlation between the point mutation of codon 463 of the katG gene and INH resistance of M. tuberculosis in Korea. Fifty isolates, 32 of which were resistant to INH, and 18 of which were sensitive to INH, were selected for this study. We used PCR-SSCP and RFLP analysis to detect the point mutation of the codon 463 of katG gene and confirmed the CGG (arginine) to CTG (leucine) mutation by direct sequencing analysis. Among 32 resistant isolates, 7 isolates (22%) had the same restriction pattern compared with that of the reference strain (H37Rv), and 25 isolates (78%) showed a different restriction pattern. Among 18 sensitive isolates, 7 isolates (39%) had the same restriction pattern compared with that of H37Rv, and 11 isolates (61%) showed a different restriction pattern. These results suggest that the CGG to CTG change of codon 463 of katG gene of M. tuberculosis may be a polymorphism not related with INH resistance.
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PMID:Isoniazid resistance and the point mutation of codon 463 of katG gene of Mycobacterium tuberculosis. 917 12

Responses to low temperature, mechanical wounding and salicylic acid (SA) treatments were studied in 3-week-old (young) and 6-week-old (senescent) Arabidopsis thaliana (L.) Heynh. plants by analyzing increases in Pal1 and Pr1 expression and superoxide dismutase (SOD; EC 1.15.1.1) and peroxidase (POX; EC 1.11.1.7) activities. Young plants showed higher Pal1 transcript accumulation after low temperature and wounding. In contrast, senescent plants presented higher accumulation of Pr1 transcripts after SA treatments. Similar results were obtained with the ethylene-insensitive etr1 mutant, suggesting that these differences are not related to increased ethylene content in senescent tissues. SOD activity and inducibility were lower, whereas POX activity and inducibility were higher in senescent plants. A possible relationship between senescence-associated changes in responses to stress and in the metabolism of active oxygen species is discussed.
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PMID:Differential leaf stress responses in young and senescent plants. 1206 Feb 87

Embryo axes isolated from germinating lupine seeds were cultivated in vitro for 24-96 h over media containing either 60 mmol/L sucrose or no sucrose. Ultrastructural studies showed that large vacuoles were accumulating in a central region of primary parenchyma cells in sucrose starved lupine embryo axes, whereas cytoplasm along with organelles were forced to a periphery of the cells. We suggest that the autolysis of cytoplasmic proteins contributes to the accumulation of the vacuoles and this suggestion is consistent with the results of the characterisation of protein content. The level of cytosolic proteins was reduced by 50% and the activity of cytosolic marker enzyme, PEP carboxylase, was reduced by 46% in starved embryos as compared to control. The mitochondria from starved tissues were not degraded. The level of mitochondrial proteins was reduced by only 10% and the activity of mitochondrial NAD-isocitrate dehydrogenase decreased by 8% as a result of starvation. As demonstrated by the results of Percoll density gradient centrifugation, sucrose starvation caused an increase of 49% in many of the higher density mitochondria fractions, whereas many of the lower density mitochondria fractions were decreased by 33%. The samples of mitochondria from starved embryo axes were determined to have higher respiration activity in the presence of glutamate and malate as compared to control samples. EPR-based analyses of free radicals showed the presence of free radicals with a signal at g = 2.0060 in embryo axes. The level of the radical was two times higher in sucrose-starved embryo axes than in control (the level of this radical increased in senescing plant tissues as well). The results of EPR-based quantitation of Mn2+ ions revealed that the level was a few times higher in starved material than in control. Starved embryo axes, however, do possess a number of adaptive mechanisms protecting them from oxidative damage. Densitometric analyses of gels revealed an increase in the activity of SOD in sugar-starved embryos, whereas CAT and POX activities were lower in axes grown without sucrose as compared to control. Superoxide dismutase, catalase and peroxidase zymogram analyses showed that synthesis of new isoforms was not induced by sugar starvation. An accumulation of phytoferritin was found in plastids of sucrose starved embryos. These results are discussed in relation to the metabolic changes observed in senescing plant tissues.
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PMID:Metabolic and ultrastructural responses of lupine embryo axes to sugar starvation. 1274 88

The relationship between soluble peroxidase (EC 1.11.1.7; POX) activity and the development of a chilling-related disorder, superficial scald, was studied in three apple fruit (Malus x domestica Borkh.) systems: a White Angel x Rome Beauty population with progeny with different scald susceptibilities; Delicious from three harvests with progressively declining scald susceptibility; and the scald-resistant Idared and the scald-susceptible Law Rome. Differences in incidence and severity of scald in progeny from White Angel x Rome Beauty progeny tended to show relationships with POX activity at harvest, but, overall, associations were not consistent. However, greater scald incidence and lower POX activity were found in less mature Delicious fruit than in later harvested fruit. Also, the scald-resistant Iotadared had a much higher POX activity compared with the scald-susceptible Law Rome. A general hypothesis that POX activity is related to scald susceptibility was generally supported, but exceptions were observed.
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PMID:Peroxidase activity and superficial scald development in apple fruit. 1461 Nov 91

Although the exact mechanisms by which grapevine cells operate to reduce disease incidence caused by the downy mildew fungus Plasmopara viticola are not fully elucidated, our cytological results obtained from infected in vitro-plants confirm that enhanced disease resistance is associated with an expression of distinct reactions in a chronological order. An increased production of reactive oxygen species (superoxide radicals, 4-6 hours post infection, hpi) was followed by a hypersensitive response (6-8 hpi), an increased activity of peroxidase in cells flanking the infection area and in the vascular tissue (10-12 hpi) and an increased production, accumulation or conversion of phenolic compounds (12-15 hpi). These mechanisms seem also to be present in susceptible varieties as shown after an inoculation with non-host oomycetic pathogens on the basis of peroxidase activity, but they do not become activated after P. viticola infection. The investigation of the peroxidase activity in leaves at several time points after an infection with P. viticola indicated that there is a strong correlation between the POX activity in leaves of in vitro-plants and the resistance of grapevine plants to P. viticola in the field.
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PMID:Characterization of Plasmopara-resistance in grapevine using in vitro plants. 1465 93

To investigate whether re-aeration after a short-term hypoxic pre-treatment (for 2, 12 or 24 h) induces oxidative stress, the temporal sequence of physiological reactions, including the level of free radicals, hydrogen peroxide production, and changes in antioxidative enzymes, was characterized in roots of hydroponically grown lupine (Lupinus luteus L., cv. Juno) seedlings. By using electron paramagnetic resonance (EPR), we found that the exposure of hypoxically grown roots (hypoxic pre-treatment for 12 and 24 h) to air caused an increase in the level of free radicals. The amount of hydrogen peroxide also tended to increase when hypoxically pre-treated roots were re-aerated, which attests to a higher production of reactive oxygen species. Re-aeration caused a higher activity of superoxide dismutase (SOD, EC 1.15.1.1) and catalase (CAT, EC 1.11.1.6), whereas the activity of peroxidase (POX, EC 1.11.1.7) was only slightly influenced. The roots were less tolerant to longer hypoxic pre-treatments, with a significant decrease in viability, associated with death of root tips immediately after hypoxic stress. Roots exposed to hypoxia for 2 h showed less pronounced responses and their viability was not affected by hypoxic stress and re-aeration. These results indicate that re-aeration following short-term hypoxia imposes a mild oxidative stress. This led us to conclude that re-oxygenation stress per se was not the key factor for cell death in root tips.
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PMID:Effect of a short-term hypoxic treatment followed by re-aeration on free radicals level and antioxidative enzymes in lupine roots. 1505 Oct 47

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