1996
Ca2+ stimulates both the respiratory and phosphorylation subsystems in rat heart mitochondria
MILDAZIENE V, BANIENE R, NAUCIENE Z, MARCINKEVICIUTE A, MORKUNIENE R, BORUTAITE V, KHOLODENKO B, BROWN G. Ca2+ stimulates both the respiratory and phosphorylation subsystems in rat heart mitochondria. Biochemical Journal 1996, 320: 329-334. PMID: 8947505, PMCID: PMC1217935, DOI: 10.1042/bj3200329.Peer-Reviewed Original ResearchConceptsPhosphorylation systemPhosphorylation subsystemProton leakRat heart mitochondriaMitochondrial membrane potentialHeart mitochondriaIsolated rat heart mitochondriaOxidative phosphorylationRespiratory chainMitochondrial respirationStimulation of respirationSuccinate oxidationMembrane potentialPhosphorylationMitochondriaRespiration rateRespirationPhysiological concentrationsRespiratory subsystemState 3Ca2Free Ca2
1991
Regulation of the heart mitochondrial respiration rate. Comparison of oxidation of succinate and NAD-dependent substrates.
Kholodenko B, Millazhane V, Borutaĭte V, Ivanovene L, Iuodkaĭte R, Katiliute Z, Toleĭkis A. Regulation of the heart mitochondrial respiration rate. Comparison of oxidation of succinate and NAD-dependent substrates. Биохимия 1991, 56: 1420-8. PMID: 1782265.Peer-Reviewed Original ResearchConceptsAdenine nucleotide translocatorNAD-dependent substratesSame relative rateInner mitochondrial membraneProton leakageMitochondrial respiration rateState 4Mitochondrial processesExtramitochondrial adenine nucleotidesMitochondrial membraneState 3Nucleotide translocatorRegulation of respirationRate of respirationSuccinate dehydrogenaseSuccinate oxidationHeart mitochondriaMembrane potentialRespirationRelative ratesRespiration rateMaximal rateRegulationControl of respirationControl coefficients