+ Site Statistics
References:
54,258,434
Abstracts:
29,560,870
PMIDs:
28,072,757
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Some implications of fixed-charge formation during electron-transport-chain activity



Some implications of fixed-charge formation during electron-transport-chain activity



Biochemical Society Transactions 12(3): 399-401




Please choose payment method:






(PDF emailed within 0-6 h: $19.90)

Accession: 044359693

Download citation: RISBibTeXText

PMID: 6734900

DOI: 10.1042/bst0120399


Related references

Phosphorylation of Cytochrome c Threonine 28 Regulates Electron Transport Chain Activity in Kidney: Implications for AMP Kinase. Journal of Biological Chemistry (): -, 2016

Initiation of electron transport chain activity in the embryonic heart coincides with the activation of mitochondrial complex 1 and the formation of supercomplexes. Plos One 9(11): E113330-E113330, 2015

Depletion of glutathione does not affect electron transport chain complex activity in brain mitochondria: Implications for Parkinson disease and postmortem studies. Free Radical Biology & Medicine 50(7): 899-902, 2011

Inhibition of rat brain mitochondrial electron transport chain activity by dopamine oxidation products during extended in vitro incubation: implications for Parkinson's disease. Biochimica et Biophysica Acta 1741(1-2): 65-74, 2005

Unequal charge separation by different coupling spans of the mitochondrial electron transport chain. Febs Letters 95(1): 125-129, 1978

Membrane-potential-dependent changes in the stoichiometry of charge translocation by the mitochondrial electron transport chain. European Journal of Biochemistry 173(3): 637-644, 1988

Production of reactive oxygen species in brain mitochondria: contribution by electron transport chain and non-electron transport chain sources. Antioxidants & Redox Signaling 7(9-10): 1140-1149, 2005

Bezafibrate induced increase in mitochondrial electron transport chain complex IV activity in human astrocytoma cells: Implications for mitochondrial cytopathies and neurodegenerative diseases. Biofactors 36(6): 468-473, 2011

Quinone and oxyradical scavenging properties of N-acetylcysteine prevent dopamine mediated inhibition of Na+, K+-ATPase and mitochondrial electron transport chain activity in rat brain: implications in the neuroprotective therapy of Parkinson's disease. Free Radical Research 42(6): 574-581, 2008

The electron transport photosynthetic chain: a similarity with electron transport chain of mitochondria in an evolutionary aspect. Fiziologiya i Biokhimiya Kul' turnykh Rastenii 17(2): 107-110, 1985

Photosynthetic electron transport chain similarity to the mitochondrial electron transport chain and the evolutionary aspect. Fiziologiya i Biokhimiya Kul'turnykh Rastenii 17(2): 107-110, 1985

The electron transport chain and its role in the formation and functioning of the photosynthetic apparatus. 1973

Defects of mitochondrial electron transport chain in bipolar disorder: implications for mood-stabilizing treatment. Canadian Journal of Psychiatry. Revue Canadienne de Psychiatrie 52(12): 753-762, 2008

Oxidative markers, electron transport chain activity, and superoxide dismutase activity in familial and sporadic amyotrophic lateral sclerosis. Society for Neuroscience Abstracts 20(1-2): 1648, 1994

Effect of lead on oxidative stress, Na+K+ATPase activity and mitochondrial electron transport chain activity of the brain of Clarias batrachus L. Bulletin of Environmental Contamination and Toxicology 84(6): 672-676, 2010