Synthesis of a new pyranoanthocyanin dimer linked through a methyl-methine bridge,
Oliveira, Joana, Mateus Nuno, Rodriguez-borges Jose E., Cabrita Eurico J., Silva Artur M. S., and de Freitas Victor
, Tetrahedron Letters, JUN 8 2011, Volume 52, Number 23, p.2957-2960, (2011)
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Analysis of nucleotides binding to chromatography supports provided by nuclear magnetic resonance spectroscopy,
Cruz, Carla, Cabrita Eurico J., and Queiroz Joao A.
, Journal of Chromatography a, JUN 3 2011, Volume 1218, Number 22, p.3559-3564, (2011)
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Saturation-Transfer Difference (STD) NMR: A Simple and Fast Method for Ligand Screening and Characterization of Protein Binding,
Viegas, Aldino, Manso Joao, Nobrega Franklin L., and Cabrita Eurico J.
, Journal of Chemical Education, JUL 2011, Volume 88, Number 7, p.990-994, (2011)
AbstractSaturation transfer difference (STD) NMR has emerged as one of the most popular ligand-based NMR techniques for the study of protein−ligand interactions. The success of this technique is a consequence of its robustness and the fact that it is focused on the signals of the ligand, without any need of processing NMR information about the receptor and only using small quantities of nonlabeled macromolecule. Moreover, the attractiveness of this experiment is also extendable to the classroom. In the context of a practical NMR class, this experiment is ideal to illustrate some fundamental NMR concepts, such as the nuclear Overhauser effect and relaxation in a multidisciplinary context, bridging chemistry and biochemistry with a taste of medicinal chemistry.
We use the readily available human serum albumin (HSA), 6-d,l-methyl-tryptophan (6-CH3-Trp), and 7- d,l-methyl-tryptophan (7-CH3-Trp) to introduce the STD-NMR experiment and to illustrate its applicability for ligand screening, mapping of binding moieties, and determination of the dissociation constant, in a context that can be explored or adapted to the student’s course level and topic (chemistry or biochemistry). We also cover the most important theoretical aspects of the STD experiment, calling attention to some of its limitations and drawbacks without a complex theoretical approach.
NMR Insight into the Supramolecular Structure of Daunorubicin Loaded Polymer Nanoparticles,
Ivanova, Galya, Simeonova Margarita, Cabrita Eurico J., and Rangel Maria
, Journal of Physical Chemistry B, FEB 10 2011, Volume 115, Number 5, p.902-909, (2011)
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Development of molecularly imprinted co-polymeric devices for controlled delivery of flufenamic acid using supercritical fluid technology,
da Silva, Mara Soares, Nobrega Franklin L., Aguiar-Ricardo Ana, Cabrita Eurico J., and Casimiro Teresa
, Journal of Supercritical Fluids, AUG 2011, Volume 58, Number 1, p.150-157, (2011)
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Screening nucleotide binding to amino acid-coated supports by surface plasmon resonance and nuclear magnetic resonance,
Cruz, Carla, Cabrita Eurico J., and Queiroz Joao A.
, Analytical and Bioanalytical Chemistry, AUG 2011, Volume 401, Number 3, p.983-993, (2011)
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Binding of ibuprofen, ketorolac and diclofenac to COX-1 and COX-2 studied by saturation transfer difference NMR,
Viegas, Aldino, Manso Joao, Corvo Marta C., Marques Manuel M. B., and Cabrita Eurico J.
, Journal of Medicinal Chemistry, Volume 54, Issue 24, p.8555-8562, (2011)
AbstractSaturation Transfer Difference-NMR (STD-NMR) spectroscopy has emerged as a powerful screening tool and a straightforward way to study the binding epitopes of active compounds in early stage lead discovery in pharmaceutical research. Here we report the application of STD NMR to characterize the binding of the anti-inflammatory drugs ibuprofen, diclofenac and ketorolac to COX-1 and COX-2. Using well-studied COX inhibitors and by comparing STD signals with crystallographic structures we show that there is a relation between the orientations of ibuprofen and diclofenac in the COX-2 active site and the relative STD responses detected in the NMR experiments. Based on this analysis we propose that ketorolac should bind to the COX-2 active site in similar orientation as that of diclofenac. We also show that the combination of STD NMR with competition experiments constitutes a valuable tool to address the recently proposed behavior of COX-2 as functional heterodimers and complement enzyme activity studies in the effort to rationalize COX inhibition mechanisms.
Lewis Acid Catalyzed Reactions of Chiral Imidazolidinones and Oxazolidinones: Insights on the Role of the Catalyst,
Duarte, Filipe J. S., Bakalova Snezhana M., Cabrita Eurico J., and Santos Gil A.
, Journal of Organic Chemistry, Volume 76, Issue 17, p.6997-7004, (2011)
AbstractThe mechanism proposed by Evans to justify the selectivity obtained in Lewis acid catalyzed Diels-Alder reactions of cyclopentadiene with acyloxazolidinones has been generalized and used in the rationalization of selectivities obtained in many other systems. However, we recently proposed an alternative mechanism, on the basis of open-chain mono- and bicomplexes, that avoids the need for chelates and explains the selectivity obtained by Evans. In this manuscript we apply our proposal to the catalyzed conjugated addition of amines to acylimidazolidinones, reported by Cardillo, and we clearly show that aluminum chelates are not involved in the reaction, as they induce no selectivity, while Cardillo observed high experimental selectivities. Our data equally show that bicomplexes with carbonyl parallel orientation, proposed by Cardillo to justify the experimental selectivity with nonchelating Lewis acids, indeed induce the opposite selectivity and have also to be dismissed. On the other hand, our mechanistic proposal allows for the full rationalization of the data obtained by Cardillo with aluminum, boron, or zinc Lewis acids and supports our previous proposal on DA cycloadditions of dienes to Evans chiral auxiliary derivatives.