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Publications indexed to the term Electron Transport

1Reverse Electron Transfer is a More Dominant Source of Mitochondrial ROS Production in the Heart and Kidney Outer Medulla than in the Kidney Cortex. (Sadri S, Tomar N, Zhang X, Yang C, Audi SH, Cowley AW Jr, Dash RK) FASEB J 2022 May;36 Suppl 1    
2Modulation of peroxynitrite produced via mitochondrial nitric oxide synthesis during Ca2+ and succinate-induced oxidative stress in cardiac isolated mitochondria. (Gerdes HJ, Yang M, Heisner JS, Camara AKS, Stowe DF) Biochim Biophys Acta Bioenerg 2020 Dec 01;1861(12):148290       9 Citations
1Substrate recognition induces sequential electron transfer across subunits in the nitrogenase-like DPOR complex. (Corless EI, Bennett B, Antony E) J Biol Chem 2020 Sep 25;295(39):13630-13639       6 Citations
3AMP-Kinase Dysfunction Alters Notch Ligands to Impair Angiogenesis in Neonatal Pulmonary Hypertension. (Rana U, Callan E, Entringer B, Michalkiewicz T, Joshi A, Parchur AK, Teng RJ, Konduri GG) Am J Respir Cell Mol Biol 2020 Jun;62(6):719-731       17 Citations
1Structural and Functional Studies of the Membrane-Binding Domain of NADPH-Cytochrome P450 Oxidoreductase. (Xia C, Shen AL, Duangkaew P, Kotewong R, Rongnoparut P, Feix J, Kim JP) Biochemistry 2019 May 14;58(19):2408-2418       9 Citations
3A thermodynamically-constrained mathematical model for the kinetics and regulation of NADPH oxidase 2 complex-mediated electron transfer and superoxide production. (Tomar N, Sadri S, Cowley AW Jr, Yang C, Quryshi N, Pannala VR, Audi SH, Dash RK) Free Radic Biol Med 2019 Apr;134:581-597       12 Citations
1Oxygenic photosynthesis: EPR study of photosynthetic electron transport and oxygen-exchange, an overview. (Tikhonov AN, Subczynski WK) Cell Biochem Biophys 2019 Mar;77(1):47-59       6 Citations
1Upon further analysis, neither cytochrome c554 from Nitrosomonas europaea nor its F156A variant display NO reductase activity, though both proteins bind nitric oxide reversibly. (McGarry JM, Pacheco AA) J Biol Inorg Chem 2018 Aug;23(6):861-878       4 Citations
1Negative cooperativity in the nitrogenase Fe protein electron delivery cycle. (Danyal K, Shaw S, Page TR, Duval S, Horitani M, Marts AR, Lukoyanov D, Dean DR, Raugei S, Hoffman BM, Seefeldt LC, Antony E) Proc Natl Acad Sci U S A 2016 Oct 04;113(40):E5783-E5791       37 Citations
2Modeling the detailed kinetics of mitochondrial cytochrome c oxidase: Catalytic mechanism and nitric oxide inhibition. (Pannala VR, Camara AK, Dash RK) J Appl Physiol (1985) 2016 Nov 01;121(5):1196-1207       20 Citations
1Evidence That the Pi Release Event Is the Rate-Limiting Step in the Nitrogenase Catalytic Cycle. (Yang ZY, Ledbetter R, Shaw S, Pence N, Tokmina-Lukaszewska M, Eilers B, Guo Q, Pokhrel N, Cash VL, Dean DR, Antony E, Bothner B, Peters JW, Seefeldt LC) Biochemistry 2016 Jul 05;55(26):3625-35       85 Citations
4Potentially diagnostic electron paramagnetic resonance spectra elucidate the underlying mechanism of mitochondrial dysfunction in the deoxyguanosine kinase deficient rat model of a genetic mitochondrial DNA depletion syndrome. (Bennett B, Helbling D, Meng H, Jarzembowski J, Geurts AM, Friederich MW, Van Hove JLK, Lawlor MW, Dimmock DP) Free Radic Biol Med 2016 Mar;92:141-151       15 Citations
2Reversible blockade of complex I or inhibition of PKCβ reduces activation and mitochondria translocation of p66Shc to preserve cardiac function after ischemia. (Yang M, Stowe DF, Udoh KB, Heisner JS, Camara AK) PLoS One 2014;9(12):e113534       23 Citations
1Hydrogen bonding networks tune proton-coupled redox steps during the enzymatic six-electron conversion of nitrite to ammonia. (Judd ET, Stein N, Pacheco AA, Elliott SJ) Biochemistry 2014 Sep 09;53(35):5638-46       21 Citations
1Altering O-linked β-N-acetylglucosamine cycling disrupts mitochondrial function. (Tan EP, Villar MT, E L, Lu J, Selfridge JE, Artigues A, Swerdlow RH, Slawson C) J Biol Chem 2014 May 23;289(21):14719-30       78 Citations
3Isoflurane modulates cardiac mitochondrial bioenergetics by selectively attenuating respiratory complexes. (Agarwal B, Dash RK, Stowe DF, Bosnjak ZJ, Camara AK) Biochim Biophys Acta 2014 Mar;1837(3):354-65       32 Citations
1Nitric oxide synthase domain interfaces regulate electron transfer and calmodulin activation. (Smith BC, Underbakke ES, Kulp DW, Schief WR, Marletta MA) Proc Natl Acad Sci U S A 2013 Sep 17;110(38):E3577-86       80 Citations
1Direct electrochemistry of Shewanella oneidensis cytochrome c nitrite reductase: evidence of interactions across the dimeric interface. (Judd ET, Youngblut M, Pacheco AA, Elliott SJ) Biochemistry 2012 Dec 21;51(51):10175-85       19 Citations
1Peroxynitrite formation in nitric oxide-exposed submitochondrial particles: detection, oxidative damage and catalytic removal by Mn-porphyrins. (Valez V, Cassina A, Batinic-Haberle I, Kalyanaraman B, Ferrer-Sueta G, Radi R) Arch Biochem Biophys 2013 Jan 01;529(1):45-54       34 Citations
1Molecular basis of intramolecular electron transfer in proteins during radical-mediated oxidations: computer simulation studies in model tyrosine-cysteine peptides in solution. (Petruk AA, Bartesaghi S, Trujillo M, Estrin DA, Murgida D, Kalyanaraman B, Marti MA, Radi R) Arch Biochem Biophys 2012 Sep 01;525(1):82-91       30 Citations
1Additive effects of mitochondrion-targeted cytochrome CYP2E1 and alcohol toxicity on cytochrome c oxidase function and stability of respirosome complexes. (Bansal S, Srinivasan S, Anandasadagopan S, Chowdhury AR, Selvaraj V, Kalyanaraman B, Joseph J, Avadhani NG) J Biol Chem 2012 May 04;287(19):15284-97       28 Citations
2Damage to mitochondrial complex I during cardiac ischemia reperfusion injury is reduced indirectly by anti-anginal drug ranolazine. (Gadicherla AK, Stowe DF, Antholine WE, Yang M, Camara AK) Biochim Biophys Acta 2012 Mar;1817(3):419-29       78 Citations
1Increase of sodium delivery stimulates the mitochondrial respiratory chain H2O2 production in rat renal medullary thick ascending limb. (Ohsaki Y, O'Connor P, Mori T, Ryan RP, Dickinson BC, Chang CJ, Lu Y, Ito S, Cowley AW Jr) Am J Physiol Renal Physiol 2012 Jan 01;302(1):F95-F102       42 Citations
1Isoflurane differentially modulates mitochondrial reactive oxygen species production via forward versus reverse electron transport flow: implications for preconditioning. (Hirata N, Shim YH, Pravdic D, Lohr NL, Pratt PF Jr, Weihrauch D, Kersten JR, Warltier DC, Bosnjak ZJ, Bienengraeber M) Anesthesiology 2011 Sep;115(3):531-40       64 Citations
1High resolution structure of the ba3 cytochrome c oxidase from Thermus thermophilus in a lipidic environment. (Tiefenbrunn T, Liu W, Chen Y, Katritch V, Stout CD, Fee JA, Cherezov V) PLoS One 2011;6(7):e22348       101 Citations
1Mitochondria-targeted ubiquinone (MitoQ) decreases ethanol-dependent micro and macro hepatosteatosis. (Chacko BK, Srivastava A, Johnson MS, Benavides GA, Chang MJ, Ye Y, Jhala N, Murphy MP, Kalyanaraman B, Darley-Usmar VM) Hepatology 2011 Jul;54(1):153-63       102 Citations
1Monitoring mitochondrial electron fluxes using NAD(P)H-flavoprotein fluorometry reveals complex action of isoflurane on cardiomyocytes. (Sedlic F, Pravdic D, Hirata N, Mio Y, Sepac A, Camara AK, Wakatsuki T, Bosnjak ZJ, Bienengraeber M) Biochim Biophys Acta 2010 Oct;1797(10):1749-58       23 Citations
2Potential therapeutic benefits of strategies directed to mitochondria. (Camara AK, Lesnefsky EJ, Stowe DF) Antioxid Redox Signal 2010 Aug 01;13(3):279-347       154 Citations
1Role of nuclear-encoded subunit Vb in the assembly and stability of cytochrome c oxidase complex: implications in mitochondrial dysfunction and ROS production. (Galati D, Srinivasan S, Raza H, Prabu SK, Hardy M, Chandran K, Lopez M, Kalyanaraman B, Avadhani NG) Biochem J 2009 May 27;420(3):439-49       74 Citations
2The effect of neighboring methionine residue on tyrosine nitration and oxidation in peptides treated with MPO, H2O2, and NO2(-) or peroxynitrite and bicarbonate: role of intramolecular electron transfer mechanism? (Zhang H, Zielonka J, Sikora A, Joseph J, Xu Y, Kalyanaraman B) Arch Biochem Biophys 2009 Apr 15;484(2):134-45       21 Citations
1Influence of intramolecular electron transfer mechanism in biological nitration, nitrosation, and oxidation of redox-sensitive amino acids. (Zhang H, Xu Y, Joseph J, Kalyanaraman B) Methods Enzymol 2008;440:65-94       12 Citations
1Mitochondrial biogenesis: is an old dog still teaching us new tricks? Meeting on the Assembly of the Mitochondrial Respiratory Chain. (Stuart RA, Rehling P) EMBO Rep 2008 Jan;9(1):33-8    
1C-reactive protein decreases endothelial nitric oxide synthase activity via uncoupling. (Singh U, Devaraj S, Vasquez-Vivar J, Jialal I) J Mol Cell Cardiol 2007 Dec;43(6):780-91       111 Citations
2Modulation of electron transport protects cardiac mitochondria and decreases myocardial injury during ischemia and reperfusion. (Chen Q, Camara AK, Stowe DF, Hoppel CL, Lesnefsky EJ) Am J Physiol Cell Physiol 2007 Jan;292(1):C137-47       217 Citations
1Intramolecular electron transfer between tyrosyl radical and cysteine residue inhibits tyrosine nitration and induces thiyl radical formation in model peptides treated with myeloperoxidase, H2O2, and NO2-: EPR SPIN trapping studies. (Zhang H, Xu Y, Joseph J, Kalyanaraman B) J Biol Chem 2005 Dec 09;280(49):40684-98       69 Citations
2Death-associated protein kinase as a sensor of mitochondrial membrane potential: role of lysosome in mitochondrial toxin-induced cell death. (Shang T, Joseph J, Hillard CJ, Kalyanaraman B) J Biol Chem 2005 Oct 14;280(41):34644-53       36 Citations
1Redox equilibria in hydroxylamine oxidoreductase. Electrostatic control of electron redistribution in multielectron oxidative processes. (Kurnikov IV, Ratner MA, Pacheco AA) Biochemistry 2005 Feb 15;44(6):1856-63       34 Citations
1Laser photoinitiated nitrosylation of 3-electron reduced Nm europaea hydroxylamine oxidoreductase: kinetic and thermodynamic properties of the nitrosylated enzyme. (Cabail MZ, Kostera J, Pacheco AA) Inorg Chem 2005 Jan 24;44(2):225-31       15 Citations
1Anesthetic preconditioning: the role of free radicals in sevoflurane-induced attenuation of mitochondrial electron transport in Guinea pig isolated hearts. (Riess ML, Kevin LG, McCormick J, Jiang MT, Rhodes SS, Stowe DF) Anesth Analg 2005 Jan;100(1):46-53       63 Citations
1Photobiomodulation directly benefits primary neurons functionally inactivated by toxins: role of cytochrome c oxidase. (Wong-Riley MT, Liang HL, Eells JT, Chance B, Henry MM, Buchmann E, Kane M, Whelan HT) J Biol Chem 2005 Feb 11;280(6):4761-71       481 Citations
2Preconditioning by isoflurane is mediated by reactive oxygen species generated from mitochondrial electron transport chain complex III. (Ludwig LM, Tanaka K, Eells JT, Weihrauch D, Pagel PS, Kersten JR, Warltier DC) Anesth Analg 2004 Nov;99(5):1308-1315       62 Citations
3Attenuation of mitochondrial respiration by sevoflurane in isolated cardiac mitochondria is mediated in part by reactive oxygen species. (Riess ML, Eells JT, Kevin LG, Camara AK, Henry MM, Stowe DF) Anesthesiology 2004 Mar;100(3):498-505       57 Citations
2Hypothermia augments reactive oxygen species detected in the guinea pig isolated perfused heart. (Camara AK, Riess ML, Kevin LG, Novalija E, Stowe DF) Am J Physiol Heart Circ Physiol 2004 Apr;286(4):H1289-99       77 Citations
1Mitochondrial sources of H2O2 generation play a key role in flow-mediated dilation in human coronary resistance arteries. (Liu Y, Zhao H, Li H, Kalyanaraman B, Nicolosi AC, Gutterman DD) Circ Res 2003 Sep 19;93(6):573-80       283 Citations
1Selective one-electron reduction of Nitrosomonas europaea hydroxylamine oxidoreductase with nitric oxide. (Cabail MZ, Pacheco AA) Inorg Chem 2003 Jan 27;42(2):270-2       27 Citations
2Sevoflurane exposure generates superoxide but leads to decreased superoxide during ischemia and reperfusion in isolated hearts. (Kevin LG, Novalija E, Riess ML, Camara AKS, Rhodes SS, Stowe DF) Anesth Analg 2003 Apr;96(4):949-955       114 Citations
1A Bax-induced pro-oxidant state is critical for cytochrome c release during programmed neuronal death. (Kirkland RA, Windelborn JA, Kasprzak JM, Franklin JL) J Neurosci 2002 Aug 01;22(15):6480-90       159 Citations
1Anesthetic effects on mitochondrial ATP-sensitive K channel. (Kohro S, Hogan QH, Nakae Y, Yamakage M, Bosnjak ZJ) Anesthesiology 2001 Dec;95(6):1435-340       114 Citations
1Production and actions of superoxide in the renal medulla. (Zou AP, Li N, Cowley AW Jr) Hypertension 2001 Feb;37(2 Pt 2):547-53       274 Citations
1Transport and reaction at endothelial plasmalemma: distinguishing intra- from extracellular events. (Dawson CA, Audi SH, Bongard RD, Okamoto Y, Olson L, Merker MP) Ann Biomed Eng 2000 Aug;28(8):1010-8       6 Citations
1Kinetics of plasma membrane electron transport in a pulmonary endothelial cell-column. (Olson LE, Merker MP, Bongard RD, Brantmeier BM, Audi SH, Linehan JH, Dawson CA) Ann Biomed Eng 1998;26(1):117-27       5 Citations
1NMR solution structure of plastocyanin from the photosynthetic prokaryote, Prochlorothrix hollandica. (Babu CR, Volkman BF, Bullerjahn GS) Biochemistry 1999 Apr 20;38(16):4988-95       33 Citations
1Electron transfer by domain movement in cytochrome bc1. (Zhang Z, Huang L, Shulmeister VM, Chi YI, Kim KK, Hung LW, Crofts AR, Berry EA, Kim SH) Nature 1998 Apr 16;392(6677):677-84       967 Citations
1Further studies on redox-related activation and deactivation of E. coli nitrate reductase: a possible physiologically relevant role for the low potential [4Fe-4S] centres. (Bennett B, Bray RC) Biochem Soc Trans 1994 Aug;22(3):283S       3 Citations
1Oxygen production and consumption by chloroplasts in situ and in vitro as studied with microscopic spin label probes. (Ligeza A, Wisniewska A, Subczynski WK, Tikhonov AN) Biochim Biophys Acta 1994 Jul 29;1186(3):201-8       14 Citations
1Identification and quantitation of electron-transport components in human polymorphonuclear neutrophils. (Cunningham CC, DeChatelet LR, Spach PI, Parce JW, Thomas MJ, Lees CJ, Shirley PS) Biochim Biophys Acta 1982 Dec 15;682(3):430-5       21 Citations