Gene/Protein
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Symptom
Drug
Enzyme
Compound
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Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P04040 (
Catalase
)
3,577
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We examined the combined effects of gamma-radiation (24 degrees C) on spores of Clostridium botulinum-type Eklund strain suspended in different gas-saturated Na-phosphate buffer in absence or presence of protectors or sensitizers. Response surface methodology (RSM) was also used to ascertain the effects of radiation on the recovery of spores using a medium containing various levels of NaCl or Na-thioglycollate. The former (< 0.5%) decreased viable spore counts, but the latter (0.15%) did not. Irradiation inactivation of Eklund spores was most effective in air-saturated buffers compared to
N2O
and N2 gas. The Na2-EDTA (0.01 M) was the most efficient radioprotector of spores due to its reactivity toward hydroxy radicals, followed by t-butanol (0.1 M) in NO2 or N(2)-saturated buffers, respectively.
Catalase
(10.0 mg ml(-1)) and DL-cysteine (0.1 mM) sensitized the spores during irradiated
N2O
or N(2)-saturated buffers, and NaCl (0.01 M) only sensitized spores in N2 environment. Spores frozen at -75 degrees C for 30 days and thawed prior to use were more sensitive to radiation damage compared to freshly prepared spores. Glycerol (15%), in Na-phosphate buffer (pH 7.0, 0.06 M), protected Eklund spores and increased the number of spores from 10(6) to 10(11) colony forming unit (CFU) ml(-1), and enhanced their radiosensitivities. Seven strains of C. botulinum type E were screened for plasmids and strain BL764 had two plasmids (15.8 and 46.8 mDa), BL4028 also had two (4.4 and 13.2 mDa), BL4850 contained only one (4.9 mDa), whereas EQA, BL211, Eklund, and Beluga had none. Gamma-Radiation (10 kGy, absorbed dose) cured the 15.8-mDa plasmid in strain BL764, but its absence yielded no changes in toxigenicity.
...
PMID:Combined effects of ionizing-irradiation and different environments on Clostridium botulinum type E spores. 1462 91
The effects of hypoxic hypoxia and subsequent reoxygenation on hydrogen peroxide (H2O2) production was studied in the rat brain in vivo. Brain H2O2 production was measured by H2O2-dependent aminotriazole inactivation of endogenous brain catalase activity. Brain catalase activities of rats breathing air (0.2 ATA O2, control) were 168 +/- 5 (n = 10), 125 +/- 4 (n = 6), and 100 +/- 5 (n = 8) U/g brain (mean +/- SEM) at 0, 30, and 60 min after i.p. aminotriazole injection, respectively.
Catalase
activities after exposure to 5% O2 with N2 for 15 min, 10% O2 with N2 for 30 min, and 6% O2 with nitrous oxide (
N2O
) for 15 min were 131 +/- 4 (n = 7), 122 +/- 6 (n = 5), and 124 +/- 6 (n = 7) U/g brain, respectively, at 30 min after aminotriazole injection, and were not significantly different from each other or control. Reoxygenated on room air, 100% O2, and hyperbaric 3 ATA O2 for 30 min immediately after each period of hypoxia, brain catalase activity at 60 min after aminotriazole injection in the group of pre-exposure to 6% O2 with
N2O
was 67 +/- 3, 74 +/- 3, and 67 +/- 6 U/g brain with 0.2 ATA O2 (n = 6), 1.0 ATA O2 (n = 5), and 3.0 ATA O2 (n = 5), respectively. All of these were significantly different from control and other hypoxic pre-exposure groups with N2 (p <0.01) but not from each other. Reoxygenation of the brain after hypoxia with
N2O
could exacerbate cerebral damage by increasing oxygen free radical production.
...
PMID:Effects of hypoxic hypoxia and reoxygenation on H2O2 production in rat brain in vivo. 1581 49
