2006
TCDD decreases ATP levels and increases reactive oxygen production through changes in mitochondrial F0F1-ATP synthase and ubiquinone
Shertzer HG, Genter MB, Shen D, Nebert DW, Chen Y, Dalton TP. TCDD decreases ATP levels and increases reactive oxygen production through changes in mitochondrial F0F1-ATP synthase and ubiquinone. Toxicology And Applied Pharmacology 2006, 217: 363-374. PMID: 17109908, PMCID: PMC1783833, DOI: 10.1016/j.taap.2006.09.014.Peer-Reviewed Original ResearchConceptsReactive oxygen productionATP levelsMitochondria generate ATPMitochondrial glutathione redox stateMitochondrial oxidative DNA damageF0F1-ATP synthaseATP/O ratioGlutathione redox stateOxygen productionATP synthaseGenerate ATPSignal transductionMitochondrial targetsOxidative DNA damageGreater respiratory rateOxidoreductase activityATP synthesisCell deathDNA damageFutile cycleRedox stateCellular pathologyRespiratory control ratioTCDD treatmentATP
1987
Mitochondrial Respiratory and Calcium Studies
SUMPIO B, BAUE A, CHAUDRY I. Mitochondrial Respiratory and Calcium Studies. Annals Of Surgery 1987, 206: 655-660. PMID: 3499878, PMCID: PMC1493310, DOI: 10.1097/00000658-198711000-00017.Peer-Reviewed Original ResearchConceptsRespiratory control ratioVerapamil pretreatmentTotal tissue Ca2Tissue ATP levelsCyA-induced nephrotoxicityCyA treatmentPharmacologic regimenRenal functionMitochondrial respiratory functionSimultaneous administrationCalcium studiesRespiratory functionKrebs bufferCortical mitochondriaMumol/Tissue Ca2Rat kidneyADP/O ratioCyANephrotoxicityATP levelsControl ratioVerapamilMitochondrial respiratoryCa2
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