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Results: 1-7 |
Results: 7
The catalytic transition state in ATP synthase
Authors: Senior, AE Weber, J Nadanaciva, S
Citation: Ae. Senior et al., The catalytic transition state in ATP synthase, J BIOENER B, 32(5), 2000, pp. 523-529
Rate acceleration of ATP hydrolysis by F1Fo-ATP synthase
Authors: Senior, AE Nadanaciva, S Weber, J
Citation: Ae. Senior et al., Rate acceleration of ATP hydrolysis by F1Fo-ATP synthase, J EXP BIOL, 203(1), 2000, pp. 35-40
ATP-driven rotation of the gamma subunit in F-1-ATPase
Authors: Weber, J Nadanaciva, S Senior, AE
Citation: J. Weber et al., ATP-driven rotation of the gamma subunit in F-1-ATPase, FEBS LETTER, 483(1), 2000, pp. 1-5
New probes of the F-1-ATPase catalytic transition state reveal that two ofthe three catalytic sites can assume a transition state conformation simultaneously
Authors: Nadanaciva, S Weber, J Senior, AE
Citation: S. Nadanaciva et al., New probes of the F-1-ATPase catalytic transition state reveal that two ofthe three catalytic sites can assume a transition state conformation simultaneously, BIOCHEM, 39(31), 2000, pp. 9583-9590
Binding of the transition state analog MgADP-fluoroaluminate to F-1-ATPase
Authors: Nadanaciva, S Weber, J Senior, AE
Citation: S. Nadanaciva et al., Binding of the transition state analog MgADP-fluoroaluminate to F-1-ATPase, J BIOL CHEM, 274(11), 1999, pp. 7052-7058
Importance of F-1-ATPase residue alpha-Arg-376 for catalytic transition state stabilization
Authors: Nadanaciva, S Weber, J Wilke-Mounts, S Senior, AE
Citation: S. Nadanaciva et al., Importance of F-1-ATPase residue alpha-Arg-376 for catalytic transition state stabilization, BIOCHEM, 38(47), 1999, pp. 15493-15499
The role of beta-Arg-182, an essential catalytic site residue in Escherichia coli F-1-ATPase
Authors: Nadanaciva, S Weber, J Senior, AE
Citation: S. Nadanaciva et al., The role of beta-Arg-182, an essential catalytic site residue in Escherichia coli F-1-ATPase, BIOCHEM, 38(24), 1999, pp. 7670-7677
Risultati: 1-7 |