AAAAAA
Results:
1-14
|
Results: 14
Authors:
Shinkarev, VP
Crofts, AR
Wraight, CA
Citation: Vp. Shinkarev et al., The electric field generated by photosynthetic reaction center induces rapid reversed electron transfer in the bc(1) complex, BIOCHEM, 40(42), 2001, pp. 12584-12590
Authors:
Berry, EA
Guergova-Kuras, M
Huang, LS
Crofts, AR
Citation: Ea. Berry et al., Structure and function of cytochrome bc complexes, ANN R BIOCH, 69, 2000, pp. 1005-1075
Authors:
Shinkarev, VP
Ugulava, NB
Crofts, AR
Wraight, CA
Citation: Vp. Shinkarev et al., DCCD inhibits the reactions of the iron-sulfur protein in Rhodobacter sphaeroides chromatophores, BIOCHEM, 39(51), 2000, pp. 16206-16212
Authors:
Shinkarev, VP
Ugulava, NB
Takahashi, E
Crofts, AR
Wraight, CA
Citation: Vp. Shinkarev et al., Aspartate-187 of cytochrome b is not needed for DCCD inhibition of ubiquinol: Cytochrome c oxidoreductase in Rhodobacter sphaeroides chromatophores, BIOCHEM, 39(46), 2000, pp. 14232-14237
Authors:
Guergova-Kuras, M
Kuras, R
Ugulava, N
Hadad, I
Crofts, AR
Citation: M. Guergova-kuras et al., Specific mutagenesis of the Rieske iron-sulfur protein in Rhodobacter sphaeroides shows that both the thermodynamic gradient and the pK of the oxidized form determine the rate of quinol oxidation by the bc(1) complex, BIOCHEM, 39(25), 2000, pp. 7436-7444
Authors:
Crofts, AR
Guergova-Kuras, M
Kuras, R
Ugulava, N
Li, JY
Hong, SJ
Citation: Ar. Crofts et al., Proton-coupled electron transfer at the Q(o) site: what type of mechanism can account for the high activation barrier?, BBA-BIOENER, 1459(2-3), 2000, pp. 456-466
Authors:
Guergova-Kuras, M
Salcedo-Hernandez, R
Bechmann, G
Kuras, R
Gennis, RB
Crofts, AR
Citation: M. Guergova-kuras et al., Expression and one-step purification of a fully active polyhistidine-tagged cytochrome bc(1) complex from Rhodobacter sphaeroides, PROT EX PUR, 15(3), 1999, pp. 370-380
Authors:
Crofts, AR
Hong, SJ
Ugulava, N
Barquera, B
Gennis, R
Guergova-Kuras, M
Berry, EA
Citation: Ar. Crofts et al., Pathways for proton release during ubihydroquinone oxidation by the bc(1) complex, P NAS US, 96(18), 1999, pp. 10021-10026
Authors:
Hong, SJ
Ugulava, N
Guergova-Kuras, M
Crofts, AR
Citation: Sj. Hong et al., The energy landscape for ubihydroquinone oxidation at the Q(o) site of thebc(1) complex in Rhodobacter sphaeroides, J BIOL CHEM, 274(48), 1999, pp. 33931-33944
Authors:
Izrailev, S
Crofts, AR
Berry, EA
Schulten, K
Citation: S. Izrailev et al., Steered molecular dynamics simulation of the rieske subunit motion in the cytochrome bc(1) complex, BIOPHYS J, 77(4), 1999, pp. 1753-1768
Authors:
Crofts, AR
Guergova-Kuras, M
Huang, LS
Kuras, R
Zhang, ZL
Berry, EA
Citation: Ar. Crofts et al., Mechanism of ubiquinol oxidation by the bc(1) complex: Role of the iron sulfur protein and its mobility, BIOCHEM, 38(48), 1999, pp. 15791-15806
Authors:
Crofts, AR
Barquera, B
Gennis, RB
Kuras, R
Guergova-Kuras, M
Berry, EA
Citation: Ar. Crofts et al., Mechanism of ubiquinol oxidation by the bc(1) complex: Different domains of the quinol binding pocket and their role in the mechanism and binding of inhibitors, BIOCHEM, 38(48), 1999, pp. 15807-15826
Authors:
Crofts, AR
Hong, SJ
Zhang, ZL
Berry, EA
Citation: Ar. Crofts et al., Physicochemical aspects of the movement of the rieske iron sulfur protein during quinol oxidation by the bc(1) complex from mitochondria and photosynthetic bacteria, BIOCHEM, 38(48), 1999, pp. 15827-15839
Authors:
Ugulava, NB
Crofts, AR
Citation: Nb. Ugulava et Ar. Crofts, CD-monitored redox titration of the Rieske Fe-S protein of Rhodobacter sphaeroides: pH dependence of the midpoint potential in isolated bc(1) complexand in membranes, FEBS LETTER, 440(3), 1998, pp. 409-413
Risultati:
1-14
|