about
Metabolic rate depression in animals: transcriptional and translational controlsElevated chaperone proteins are a feature of winter freeze avoidance by larvae of the goldenrod gall moth, Epiblema scudderiana.Phosphoglycerate kinase 1 expression responds to freezing, anoxia, and dehydration stresses in the freeze tolerant wood frog, Rana sylvatica.Metabolic rate depression: the biochemistry of mammalian hibernation.Aestivation: signaling and hypometabolism.Molecular biology of freezing tolerance.Tribute to P. L. Lutz: putting life on 'pause'--molecular regulation of hypometabolism.Metabolic regulation and gene expression during aestivation.Molecular Physiology of Freeze Tolerance in Vertebrates.Hepatotoxicity of herbicide Sencor in goldfish may result from induction of mild oxidative stress.AMP-activated protein kinase and metabolic regulation in cold-hardy insects.Nickel induces hyperglycemia and glycogenolysis and affects the antioxidant system in liver and white muscle of goldfish Carassius auratus L.Goldfish exposure to cobalt enhances hemoglobin level and triggers tissue-specific elevation of antioxidant defenses in gills, heart and spleen.Cobalt-induced oxidative stress in brain, liver and kidney of goldfish Carassius auratus.Chromium effects on free radical processes in goldfish tissues: comparison of Cr(III) and Cr(VI) exposures on oxidative stress markers, glutathione status and antioxidant enzymes.Production and properties of alpha-amylase from Bacillus sp. BKL20.Low toxic herbicide Roundup induces mild oxidative stress in goldfish tissues.Chromium(III) induces oxidative stress in goldfish liver and kidney.Hypoxia and recovery perturb free radical processes and antioxidant potential in common carp (Cyprinus carpio) tissues.Acute exposure to the penconazole-containing fungicide Topas partially augments antioxidant potential in goldfish tissues.Dietary alpha-ketoglutarate promotes higher protein and lower triacylglyceride levels and induces oxidative stress in larvae and young adults but not in middle-aged Drosophila melanogaster.Oxidative stress responses in gills of goldfish, Carassius auratus, exposed to the metribuzin-containing herbicide Sencor.The mitochondrial uncoupler 2,4-dinitrophenol attenuates sodium nitroprusside-induced toxicity in Drosophila melanogaster: potential involvement of free radicals.High amylose starch consumption induces obesity in Drosophila melanogaster and metformin partially prevents accumulation of storage lipids and shortens lifespan of the insects.Diethyldithiocarbamate injection induces transient oxidative stress in goldfish tissues.Dietary L-arginine accelerates pupation and promotes high protein levels but induces oxidative stress and reduces fecundity and life span in Drosophila melanogaster.Metabolic mechanisms for anoxia tolerance and freezing survival in the intertidal gastropod, Littorina littorea.AMP-deaminase from goldfish white muscle: regulatory properties and redistribution under exposure to high environmental oxygen level.Acute exposure to copper induces variable intensity of oxidative stress in goldfish tissues.S-nitrosoglutathione-induced toxicity in Drosophila melanogaster: Delayed pupation and induced mild oxidative/nitrosative stress in eclosed flies.Sodium nitroprusside toxicity in Drosophila melanogaster: delayed pupation, reduced adult emergence, and induced oxidative/nitrosative stress in eclosed flies.Sodium chromate demonstrates some insulin-mimetic properties in the fruit fly Drosophila melanogaster.Exposure to sodium molybdate results in mild oxidative stress in Drosophila melanogaster.Chaperone proteins and winter survival by a freeze tolerant insect.Molybdate partly mimics insulin-promoted metabolic effects in Drosophila melanogaster.Alpha-ketoglutarate attenuates toxic effects of sodium nitroprusside and hydrogen peroxide in Drosophila melanogaster.Oxidative stress responses in blood and gills of Carassius auratus exposed to the mancozeb-containing carbamate fungicide TattooPrefaceChapter 1 Signal transduction and gene expression in the regulation of natural freezing survivalChapter 20 Antioxidant defenses and animal adaptation to oxygen availability during environmental stress
P50
Q21152439-9B1E14E4-1278-421E-B547-1DD8CFB06DA6Q30401285-16243101-3F7F-4204-8B66-BE3BE15E4ADAQ33368712-5CF1DAE7-C18D-4734-B582-D84370D53CA9Q34161216-951FCC2C-3716-4322-8C10-A65FAAC1B7EBQ34267613-216B3261-C412-4E66-943E-62F9AD483BA4Q34360580-AEE5CF97-9A7D-4A70-94BB-AFCD9AD7BEB3Q36815509-5AD5AEC0-745B-4248-94CE-A23C8C22331BQ37673032-5FB75011-919C-4D1A-B281-77EC842441FDQ39127082-B543F0AF-83F9-488A-81ED-CE9C652A483EQ40838544-1A450772-1094-40C1-B7C9-B0F5678A5BC5Q42016439-3BE8F224-0D45-4378-9EFD-5AEC0CBE3841Q42719914-5EB31D0A-0C50-4381-915C-A94E155DE872Q42725978-FF0D040D-16C4-4517-8406-EBA345165C5DQ42730262-FD95E7B5-DC5D-4A7A-8D39-9B97772BB866Q43024008-4232DC7A-6C1C-4E14-A052-6264C4F5841EQ43068628-FD15ECC3-FDBB-4098-A5F8-07FF1282CDBCQ46007061-B0191744-53F8-44E9-8B36-8443BEC4031EQ46036420-2620717B-5DFB-4F73-99B4-1B27C2C34B31Q46390840-0D9B2209-CF83-4FA3-85A2-70BC81C29025Q46445517-B012B145-F2E4-4FAA-AFAC-9721248AE664Q46460229-2BBD0404-2161-42D2-8DBE-010252F0E9F8Q46531673-7327209C-5C36-43DA-B98B-75098DE0B3B9Q46990856-EA2938D5-4A52-4A71-A635-A43B1071A6AFQ47751060-76F6A86C-E3F5-4216-B2DF-91AEFE324732Q48091296-664C8B68-13BF-486F-B9A1-658E96D9B28BQ48189520-7EEF0887-687A-4EEF-AF0C-A774AFE525EDQ48496400-D284C640-E5A6-4850-8D15-4CFE45292EFEQ48874121-FC1D6B59-5B4C-46B5-9239-AC57E9458923Q49722626-58A5AC2F-1395-44A9-9C1B-4577DDB817A1Q50787203-8E35BC85-B029-4DF3-A2ED-17100979C127Q50802022-4F0D2775-5291-45BB-AB13-ADCF2185011EQ51113375-F32B0308-9FF7-426A-8FF4-7568CBDDE77DQ51118430-F309257C-B9E5-41A4-A748-34AA8DBF07A6Q52716706-6A8D4FB4-D397-4AD3-A51F-3A482049CBC7Q52774839-28D4DCB6-054B-4E37-A158-2061C4D77AA8Q52818867-E089B0F3-AAD1-4BF2-9E0F-A8531DF8D857Q53058119-E7FB8BD7-20FC-4D54-86BB-98A6623C111EQ53058605-09BEE975-83FC-44FB-B40D-1F2229CC4FF3Q53058629-A43813E8-368D-4684-A47C-A0877E33FCC2Q53058633-3F7BCC33-AB86-41F4-83D0-F53EA8DCA89C
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Janet M Storey
@nl
Janet M Storey
@sl
Janet M. Storey
@en
Janet M. Storey
@es
type
label
Janet M Storey
@nl
Janet M Storey
@sl
Janet M. Storey
@en
Janet M. Storey
@es
prefLabel
Janet M Storey
@nl
Janet M Storey
@sl
Janet M. Storey
@en
Janet M. Storey
@es
P106
P1153
7102822931
P21
P31
P496
0000-0002-2096-2317