The Q-cycle reviewed: How well does a monomeric mechanism of the bc(1) complex account for the function of a dimeric complex?
about
Protective effects and potential mechanisms of Pien Tze Huang on cerebral chronic ischemia and hypertensive strokeA map of dielectric heterogeneity in a membrane protein: the hetero-oligomeric cytochrome b6f complexUse of electron paramagnetic resonance to solve biochemical problemsBinding of imidazole to the heme of cytochrome c1 and inhibition of the bc1 complex from Rhodobacter sphaeroides: I. Equilibrium and modeling studiesIdentification of novel imidazo[1,2-a]pyridine inhibitors targeting M. tuberculosis QcrBLYRM7/MZM1L is a UQCRFS1 chaperone involved in the last steps of mitochondrial Complex III assembly in human cells.Direct demonstration of half-of-the-sites reactivity in the dimeric cytochrome bc1 complex: enzyme with one inactive monomer is fully active but unable to activate the second ubiquinol oxidation site in response to ligand binding at the ubiquinone rVisualizing changes in electron distribution in coupled chains of cytochrome bc(1) by modifying barrier for electron transfer between the FeS cluster and heme c(1).Modifications of protein environment of the [2Fe-2S] cluster of the bc1 complex: effects on the biophysical properties of the rieske iron-sulfur protein and on the kinetics of the complex.An electronic bus bar lies in the core of cytochrome bc1NMR investigations of the Rieske protein from Thermus thermophilus support a coupled proton and electron transfer mechanism.The binding interface of cytochrome c and cytochrome c₁ in the bc₁ complex: rationalizing the role of key residuesThe Q cycle of cytochrome bc complexes: a structure perspective.Teaching the fundamentals of electron transfer reactions in mitochondria and the production and detection of reactive oxygen species.Conservation of lipid functions in cytochrome bc complexes.A robust genetic system for producing heterodimeric native and mutant cytochrome bc(1)pH and Potential Transients of the bc1 Complex Co-Reconstituted in Proteo-Lipobeads with the Reaction Center from Rb. sphaeroides.Effect of mutations of arginine 94 on proton pumping, electron transfer, and superoxide anion generation in cytochrome b of the bc1 complex from Rhodobacter sphaeroides.Electron transfer mechanism of the Rieske protein from Thermus thermophilus from solution nuclear magnetic resonance investigations.Analysis of the kinetics and bistability of ubiquinol:cytochrome c oxidoreductaseDimer interface of bovine cytochrome c oxidase is influenced by local posttranslational modifications and lipid binding.A caged, destabilized, free radical intermediate in the q-cycle.Recent advances in cytochrome bc(1): inter monomer electronic communication?New developments on the functions of coenzyme Q in mitochondria.Back-reactions, short-circuits, leaks and other energy wasteful reactions in biological electron transfer: redox tuning to survive life in O(2).The mechanism of ubihydroquinone oxidation at the Qo-site of the cytochrome bc1 complex.Mitochondrial oxidative metabolism and uncoupling proteins in the failing heart.Nuclear gene mutations as the cause of mitochondrial complex III deficiencyTeaching the Z-Scheme of electron transport in photosynthesis: a perspective.Intermonomer electron transfer between the low-potential b hemes of cytochrome bc₁.Mycobacterial Interspersed Repetitive Unit Can Predict Drug Resistance of Mycobacterium tuberculosis in China.Enzymatic activities of isolated cytochrome bc₁-like complexes containing fused cytochrome b subunits with asymmetrically inactivated segments of electron transfer chains.Role of the -PEWY-glutamate in catalysis at the Q(o)-site of the Cyt bc(1) complex.Fusing two cytochromes b of Rhodobacter capsulatus cytochrome bc1 using various linkers defines a set of protein templates for asymmetric mutagenesis.Inter-monomer electron transfer is too slow to compete with monomeric turnover in bc(1) complex.Ilicicolin Inhibition and Binding at Center N of the Dimeric Cytochrome bc1 Complex Reveal Electron Transfer and Regulatory Interactions between Monomers.Electronic connection between the quinone and cytochrome C redox pools and its role in regulation of mitochondrial electron transport and redox signalingOn the mechanism of quinol oxidation at the QP site in the cytochrome bc1 complex: studied using mutants lacking cytochrome bL or bH.Across membrane communication between the Q(o) and Q(i) active sites of cytochrome bc(1).Quinone and non-quinone redox couples in Complex III.
P2860
Q21203063-13A4838F-837D-43A9-A1AA-274B7313E575Q24563812-C275FBA9-BB01-41D9-B498-ED08D3A87666Q26825447-1D944FE9-BD66-4800-990E-43C6C8E453D3Q28397006-E9F7C9F0-9F6A-43E4-B993-6AF6D591139AQ28484670-D18A5D1C-34C7-4B93-9F34-CE54B77588E0Q32884553-A8A17F1A-AD12-40EB-ABF5-7AA0A2D6F21BQ33581364-E4BD5CBA-C104-4CC6-B841-6195957D83CFQ33594599-AC0B3A3B-C0F1-4A4E-B7AC-88E86FE5E42CQ33726653-EC2170AF-0456-47D7-8ED8-008324E4C40DQ33816149-FC1BC010-C870-4CF0-BA00-B4A7E71FE8FBQ33902099-726DD9B1-A6B7-4735-A368-F66177467C9AQ34144539-C4AC67E0-0A9E-491E-B48D-4B0EEE12585FQ35006069-C6C96D65-F3F1-4AB0-85E5-ACFEF748166CQ35143664-C64E1919-9F96-4051-95D4-2AA496E8E1BFQ35549335-7C7EF7FE-2781-4406-AB6D-5081DAEC50AFQ35671277-C0CCABE4-45E8-410C-BA01-BF06F8F0082EQ36227924-06D747D6-F2D6-4B47-AED5-C4111E6AE1E9Q36526226-31F43507-AAC7-4A54-8B32-CE38DBD7984AQ36940263-8D998D3F-612A-4055-BE0F-864BE4C2B41DQ37023383-35B1D926-608C-4BE6-A278-8E5D3E891DFCQ37126703-CEF70639-387B-4B76-BDDF-DF46FB1CA5BAQ37632683-CCDA6EA0-DEC7-4DD9-9781-917012F25004Q37924011-6A823163-439F-400A-96D4-8D3DFF247290Q37944537-12D20291-A054-4D70-834B-B76E7D0819A0Q37976515-CDA724B2-18D2-46A8-B260-12F1C858682DQ38080373-6D86D606-63B0-47A5-93D7-845C73539B62Q38246367-CA845884-4372-4286-AF73-A26B2C3ADCAEQ38443565-3B86DF26-2408-49D4-9C6E-91B55E2ADA99Q38547524-1BCEE06F-6D78-45F5-A0CF-A3A09BD7C56CQ38607951-FE849316-557A-4FE6-9BCD-8CE66570BF77Q39362491-1D708C10-5B64-49F9-A971-1CF53118A121Q40757350-5C7B8971-9A6E-4C1E-B776-8473351C45AFQ40768134-275C4627-D26F-4369-A8FC-078587A6593BQ40982699-1A077AEC-E26F-49B2-9A03-127A38780387Q41787842-DC639BBF-0436-4E54-A1A1-4761E80A1AD6Q41820337-9D212C69-43FB-4A74-831B-BB4FE495BE0EQ41831113-98E0C2B3-9720-402C-B3B6-C299204B0840Q41833778-13D82ED3-D642-4CA5-B52A-E7CC6014E7E1Q41871787-51BCC26C-9827-471F-8A2D-678B9DD2953DQ42047002-C38F2617-0FE3-46F4-874B-5F3791640126
P2860
The Q-cycle reviewed: How well does a monomeric mechanism of the bc(1) complex account for the function of a dimeric complex?
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on May 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The Q-cycle reviewed: How well does a monomeric mechanism of the bc
@nl
The Q-cycle reviewed: How well ...... function of a dimeric complex?
@en
type
label
The Q-cycle reviewed: How well does a monomeric mechanism of the bc
@nl
The Q-cycle reviewed: How well ...... function of a dimeric complex?
@en
prefLabel
The Q-cycle reviewed: How well does a monomeric mechanism of the bc
@nl
The Q-cycle reviewed: How well ...... function of a dimeric complex?
@en
P2093
P2860
P1476
The Q-cycle reviewed: How well ...... function of a dimeric complex?
@en
P2093
Antony R Crofts
Derrick R J Kolling
Doreen Victoria
J Todd Holland
Mariana Guergova Kuras
Richard Kuras
Ryan Gilbreth
Sangmoon Lhee
Sergei A Dikanov
P2860
P304
P356
10.1016/J.BBABIO.2008.04.037
P407
P577
2008-05-01T00:00:00Z