Hypochlorous acid stress in Escherichia coli: resistance, DNA damage, and comparison with hydrogen peroxide stress.
about
Genome sequence of Yersinia pestis KIMAntiseptics and disinfectants: activity, action, and resistanceBleach activates a redox-regulated chaperone by oxidative protein unfoldingWhat really happens in the neutrophil phagosome?Bacterial responses to reactive chlorine speciesThe catalase activity of diiron adenine deaminaseGene expression and physiological role of Pseudomonas aeruginosa methionine sulfoxide reductases during oxidative stressAssessment of Damage to Nucleic Acids and Repair Machinery in Salmonella typhimurium Exposed to Chlorine.Transcriptional response of Burkholderia cenocepacia J2315 sessile cells to treatments with high doses of hydrogen peroxide and sodium hypochlorite.Comparative study of HOCl-inflicted damage to bacterial DNA ex vivo and within cellsThe periplasmic, group III catalase of Vibrio fischeri is required for normal symbiotic competence and is induced both by oxidative stress and by approach to stationary phaseModularity of Escherichia coli sRNA regulation revealed by sRNA-target and protein network analysis.Interplay of cellular cAMP levels, {sigma}S activity and oxidative stress resistance in Escherichia coli.Effects of Residual Hypochlorite Ion on Methane Production during the Initial Anaerobic Digestion Stage of Pig Slurry.The complete genome sequence of 'Candidatus Liberibacter solanacearum', the bacterium associated with potato zebra chip disease.Escherichia coli resistance to chlorine and glutathione synthesis in response to oxygenation and starvation.Contribution of dps to acid stress tolerance and oxidative stress tolerance in Escherichia coli O157:H7Anaerobic killing of oral streptococci by reduced, transition metal cationsMetabolic Response of Escherichia coli upon Treatment with Hypochlorite at Sub-Lethal ConcentrationsImpact of hydrogen peroxide-driven Fenton reaction on mouse oocyte quality.Identification of a hypochlorite-specific transcription factor from Escherichia coli.Characterization of predominant bacteria isolates from clean rooms in a pharmaceutical production unitDental unit waterlines disinfection using hypochlorous acid-based disinfectant.The Staphylococcus aureus SrrAB Regulatory System Modulates Hydrogen Peroxide Resistance Factors, Which Imparts Protection to Aconitase during Aerobic GrowthInvolvement of multiple stressors induced by non-thermal plasma-charged aerosols during inactivation of airborne bacteria.Development of an internal control for evaluation and standardization of a quantitative PCR assay for detection of Helicobacter pylori in drinking water.A PCR-based method for monitoring Legionella pneumophila in water samples detects viable but noncultivable legionellae that can recover their cultivabilityCryptococcus neoformans, a fungus under stressFluorescent proteins such as eGFP lead to catalytic oxidative stress in cells.Structure, function and regulation of the DNA-binding protein Dps and its role in acid and oxidative stress resistance in Escherichia coli: a review.Potential impacts of disinfection processes on elimination and deactivation of antibiotic resistance genes during water and wastewater treatment.Proteomic adaptations to starvation prepare Escherichia coli for disinfection tolerance.Hypochlorous acid activates the heat shock and soxRS systems of Escherichia coli.Effects of rice seed surface sterilization with hypochlorite on inoculated Burkholderia vietnamiensis.Thioredoxin is an essential protein induced by multiple stresses in Bacillus subtilis.Construction and physiological analysis of a Xanthomonas mutant to examine the role of the oxyR gene in oxidant-induced protection against peroxide killing.Stress-induced Hsp70 gene expression and inactivation of Cryptosporidium parvum oocysts by chlorine-based oxidants.Purification, gene cloning, gene expression, and mutants of Dps from the obligate anaerobe Porphyromonas gingivalis.Single-cell protein profiling of wastewater enterobacterial communities predicts disinfection efficiency.Recovery of culturability of an HOCl-stressed population of Escherichia coli after incubation in phosphate buffer: resuscitation or regrowth?
P2860
Q22065462-1F2C7517-2B29-4B63-B7AE-6FE63CA11D3AQ24550729-15D1D1B0-E77F-4ECC-A97C-5773D641C8B4Q24643056-C4409DDA-E695-493F-A3DE-A2B1CBADCCF8Q26995028-097134EB-89A5-4654-A36D-922E542DA253Q27023308-D4444A81-82D4-4C11-8343-58F75F816731Q27675029-DB7E4030-259E-4ECD-ACE1-4AEDF896AAB8Q28492703-C097987F-4230-4D66-B677-86C6DB070A1FQ30397182-DA80A50C-FB94-4603-AB03-4FCD365160B5Q33529865-CC58D03B-0EF6-4ED7-AB56-3E2779FA370EQ33615609-870E208D-39B3-4845-B261-8371692ECCC4Q33728733-49FED6DA-10D0-4CA4-885A-D9864E437379Q33755567-6197E24D-5E84-4F79-B9F2-F5D21D2E5F4CQ33766713-EDA64234-57DD-45C6-9F04-F333CA43EE65Q33884575-7BEA4E3D-B11D-4C04-A265-21A2280E0CFAQ33892459-E134FD54-AC11-46D4-8CD7-5D09B0D2FDE9Q33986317-1ABDAA6B-9892-46D1-A83E-BFF9AEA7A73AQ33987631-6AEF247C-4245-4372-BE1B-791FDC94BD8DQ34070587-668BEB33-B480-48C7-9507-70EA0CAD5DBBQ35620078-15AD91BE-125F-4AA9-AD49-0B3B4A6ED5BBQ35786626-F01B0F16-33CF-488A-ABD8-74CEA7FC6DF2Q35838875-DF5D0BF9-C9DF-4A20-A738-C8EC3158201EQ35968307-D4D64C4E-A5A6-47E7-BA06-F776E9E96632Q36113871-F2249990-2DA8-41F4-8945-1A243BCFC8BFQ36252696-4A94E3F1-41FA-4937-B8E0-6420F3C939A2Q36271589-719F64A2-B71C-413D-84A1-D4D8E3E1F703Q36313664-2E72E77B-6061-4C92-AA7B-1C0B6971376BQ36844991-460E217C-50B2-4A02-9B70-EE8EDC27BFF4Q36914008-D32F77FA-1EEE-4FA5-A02F-F13F0721CD7DQ37716081-82B33E8C-1FBC-456F-922C-AB8C6F5F9649Q37818491-BEEDF84A-ED8B-4187-96B1-28F63DD4C88CQ38008896-6EEBCBDA-B86C-4009-85E7-8EEEB8D20D43Q38469613-3462704B-EE2D-4F0E-800B-350F1B77841EQ38979434-A31DE049-30FD-4AC5-980C-9007F47BB2C8Q39491585-C2C8ACDB-D853-4F9D-8019-455D0A472DFFQ39565350-729419B1-7087-471B-84E9-E2B9F6AB5FDCQ39567057-3868CDB9-B2D9-4D82-9FEB-17B836DE851BQ39607184-BA4A8924-B41B-4DF1-99F2-45FDD184BA70Q39730048-EE841A79-775D-4DFA-B64E-9652F590CA9CQ39789044-9949F6F8-C493-4690-A6E4-A6C4C97B13EDQ39803328-BD01A939-E90F-4866-933F-D2DD8A58DC43
P2860
Hypochlorous acid stress in Escherichia coli: resistance, DNA damage, and comparison with hydrogen peroxide stress.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@en
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@nl
type
label
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@en
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@nl
prefLabel
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@en
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@nl
P2860
P1476
Hypochlorous acid stress in Es ...... with hydrogen peroxide stress.
@en
P2093
P2860
P304
P356
10.1128/JB.178.21.6145-6150.1996
P577
1996-11-01T00:00:00Z