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Results: 1-9 |
Results: 9
Differences in in vitro plant regeneration ability among four Arabidopsis thaliana ecotypes
Authors: Candela, M Velazquez, I De la Cruz, R Sendino, AM De la Pena, A
Citation: M. Candela et al., Differences in in vitro plant regeneration ability among four Arabidopsis thaliana ecotypes, IN VITRO-PL, 37(5), 2001, pp. 638-643
Kinetic characterization of the rotenone-insensitive internal NADH: Ubiquinone oxidoreductase of mitochondria from Saccharomyces cerevisiae
Authors: Velazquez, I Pardo, JP
Citation: I. Velazquez et Jp. Pardo, Kinetic characterization of the rotenone-insensitive internal NADH: Ubiquinone oxidoreductase of mitochondria from Saccharomyces cerevisiae, ARCH BIOCH, 389(1), 2001, pp. 7-14
Proteins in vacuo. Denaturation of highly charged disulfide-reduced lysozyme studied by molecular dynamics simulations
Authors: Velazquez, I Reimann, CT Tapia, O
Citation: I. Velazquez et al., Proteins in vacuo. Denaturation of highly charged disulfide-reduced lysozyme studied by molecular dynamics simulations, J PHYS CH B, 104(11), 2000, pp. 2546-2558
Molecular shape analysis of simulated in vacuo unfolding of charged lysozyme: transitions in chain entanglement and anisometry
Authors: Arteca, GA Velazquez, I Reimann, CT Tapia, O
Citation: Ga. Arteca et al., Molecular shape analysis of simulated in vacuo unfolding of charged lysozyme: transitions in chain entanglement and anisometry, CHEM P LETT, 327(3-4), 2000, pp. 245-252
Proteins in vacuo: A molecular dynamics study of the unfolding behavior ofhighly charged disulfide-bond-intact lysozyme subjected to a temperature pulse
Authors: Reimann, CT Velazquez, I Bittner, M Tapia, O
Citation: Ct. Reimann et al., Proteins in vacuo: A molecular dynamics study of the unfolding behavior ofhighly charged disulfide-bond-intact lysozyme subjected to a temperature pulse, PHYS REV E, 60(6), 1999, pp. 7277-7284
Unfolded in vacuo lysozyme folds into native, quasinative, and compact structures
Authors: Arteca, GA Velazquez, I Reimann, CT Tapia, O
Citation: Ga. Arteca et al., Unfolded in vacuo lysozyme folds into native, quasinative, and compact structures, PHYS REV E, 59(5), 1999, pp. 5981-5986
An alternative model for the transmembrane segments of the yeast H+-ATPase
Authors: Pardo, JP Martinez, F Guerra, G Velazquez, I Rendon, JL Mendoza, G
Citation: Jp. Pardo et al., An alternative model for the transmembrane segments of the yeast H+-ATPase, YEAST, 15(15), 1999, pp. 1585-1593
Variations in chain compactness and topological complexity uncover foldingprocesses in the relaxation dynamics of unfolded in vacuo lysozyme
Authors: Arteca, GA Velazquez, I Reimann, CT Tapia, O
Citation: Ga. Arteca et al., Variations in chain compactness and topological complexity uncover foldingprocesses in the relaxation dynamics of unfolded in vacuo lysozyme, J CHEM PHYS, 111(10), 1999, pp. 4774-4779
Proteins in vacuo: Relaxation of unfolded lysozyme leads to folding into native and non-native structures. A molecular dynamics study
Authors: Velazquez, I Reimann, CT Tapia, O
Citation: I. Velazquez et al., Proteins in vacuo: Relaxation of unfolded lysozyme leads to folding into native and non-native structures. A molecular dynamics study, J AM CHEM S, 121(49), 1999, pp. 11468-11477
Risultati: 1-9 |