Laura Masgrau
Masgrau i Fontanet, Laura
VIAF ID: 311585368 (Personal)
Permalink: http://viaf.org/viaf/311585368
Preferred Forms
- 100 0 _ ‡a Laura Masgrau
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4xx's: Alternate Name Forms (5)
Works
Title | Sources |
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Atomistic insight into the origin of the temperature-dependence of kinetic isotope effects and H-tunnelling in enzyme systems is revealed through combined experimental studies and biomolecular simulation. | |
Comparing Hydrolysis and Transglycosylation Reactions Catalyzed by β-Glycosidase. A Combined MD and QM/MM Study | |
A computational and experimental study of O-glycosylation. Catalysis by human UDP-GalNAc polypeptide:GalNAc transferase-T2 | |
Computational insight into the catalytic implication of head/tail-first orientation of arachidonic acid in human 5-lipoxygenase: consequences for the positional specificity of oxygenation. | |
Computational insights into active site shaping for substrate specificity and reaction regioselectivity in the EXTL2 retaining glycosyltransferase. | |
Dependence of the rate constants on the treatment of internal rotation modes: the reaction OH + CH3SH --> CH3S + H2O as an example. | |
Determinació teòrica de constants de velocitat : el radical hidroxil com a iniciador de processos d'oxidació atmosfèrica | |
Discovery of processive catalysis by an exo-hydrolase with a pocket-shaped active site | |
Essential role of glutamate 317 in galactosyl transfer by α3GalT: a computational study. | |
Estudio teórico de los complejos de Michaelis que forma la enzima Lipoxigenasa 15 de mamíferos con el ácido araquidónico y el ácido linoleico | |
Estudios teóricos y computacionales para la síntesis enzimática del enlace glicosídico | |
Evolutionary alteration of ALOX15 specificity optimizes the biosynthesis of antiinflammatory and proresolving lipoxins | |
How Can Linoleic Acid Be the Preferential Substrate of the Enzyme 15-Lipoxygenase-1? A QM/MM Approach | |
Hydrogen tunnelling in enzyme-catalysed H-transfer reactions: flavoprotein and quinoprotein systems. | |
The importance of ensemble averaging in enzyme kinetics | |
Influence of the enzyme phosphorylation state and the substrate on PKA enzyme dynamics. | |
Natural mutations of the anti-Mullerian hormone type II receptor found in persistent Mullerian duct syndrome affect ligand binding, signal transduction and cellular transport | |
New insights into the reductive half-reaction mechanism of aromatic amine dehydrogenase revealed by reaction with carbinolamine substrates | |
Regio- and Stereospecificity in the Oxygenation of Arachidonic Acid Catalyzed by Leu597 Mutants of Rabbit 15-Lipoxygenase: A QM/MM Study | |
Retaining Glycosyltransferase Mechanism Studied by QM/MM Methods: Lipopolysaccharyl-α-1,4-galactosyltransferase C Transfers α-Galactose via an Oxocarbenium Ion-like Transition State | |
The sp2-iminosugar glycolipid 1-dodecylsulfonyl-5N,6O-oxomethylidenenojirimycin (DSO2-ONJ) as selective anti-inflammatory agent by modulation of hemeoxygenase-1 in Bv.2 microglial cells and retinal explants. | |
Substrate binding to mammalian 15-lipoxygenase | |
Teoria variacional de l'estat de transició : càlcul de les constants de velocitat de la reacció HOH + OH --> HO + HOH i de reaccions associades isotòpicament substituïdes | |
Theoretical study of the catalytic mechanism of retaining glycosyltransferases | |
Tunneling and classical paths for proton transfer in an enzyme reaction dominated by tunneling: oxidation of tryptamine by aromatic amine dehydrogenase. | |
Understanding the Mechanism of the Hydrogen Abstraction from Arachidonic Acid Catalyzed by the Human Enzyme 15-Lipoxygenase-2. A Quantum Mechanics/Molecular Mechanics Free Energy Simulation |