Your search keyword '"J. de Groot"' showing total 7 results

1. The Mulatto Myth

Author

J. de Groot Fernandes, Andrew

Published

2001

2. Surface-Integral QSPR Models:  Local Energy Properties

Author

Ehresmann, Bernd, J. de Groot, Marcel, and Clark, Timothy

Abstract

Surface-integral models based on AM1 semiempirical molecular orbital calculations are presented for the free energies of solvation in water, n-octanol, and chloroform and for the enthalpy of solvation in water. A parametrized function of four local properties calculated at the isodensity surface (the molecular electrostatic potential, local ionization energy, electron affinity, and polarizability) is integrated over the triangulated surface area to obtain the target quantity. The resulting models give results only slightly less accurate than those reported for parametrized generalized Born/polar surface area models despite relying only on gas-phase calculations. The water and octanol free-energy models were validated by calculating the water−octanol partition coefficient for a test set of organic compounds with moderate success. The models lead to a local solvation energy, which can be projected onto the molecular isodensity surface and provides insight into “hot” areas for solvation in water or the other solvents.

Published

2005

3. Structural determinants of HERG channel block by clofilium and ibutilide.

Author

Matthew, Perry, J, de Groot Marcel, Ray, Helliwell, Derek, Leishman, Martin, Tristani-Firouzi, C, Sanguinetti Michael, and John, Mitcheson

Abstract

Block of human ether-a-go-go related gene (HERG) K(+) channels by a variety of medications has been linked to acquired long QT syndrome, a disorder of cardiac repolarization that predisposes to lethal arrhythmias. The drug-binding site is composed of residues that face into the central cavity of the channel. Two aromatic residues located on the S6 domain (Tyr652 and Phe656) are particularly important structural determinants of drug block. The role of pore helix residues (Thr623, Ser624, Val625) is less clear. In this study, we compared the pharmacological properties of two structurally related compounds, ibutilide and clofilium. Both compounds are charged amines with a single phenyl ring. Clofilium, a chlorobenzene derivative, is a potent blocker of HERG channels, but has a remarkably slower time course for recovery from block than ibutilide, a methanesulfonanilide. The difference in the rate of recovery from block can be explained simply by variation in drug trapping. There is little recovery from clofilium block with D540K HERG channels that permit untrapping at hyperpolarized potentials. Alanine-scanning mutagenesis of the S6 domain and a portion of the pore helix revealed that the binding site residues were the same for both compounds. However, S624A, located at the base of the pore helix, was the only HERG mutation that enabled rapid recovery from clofilium block. In summary, the pore helix residues are important components of the HERG drug binding site, and may be particularly important for drugs with polar substituents, such as a halogen (e.g., clofilium) or a methanesulfonamide (e.g., ibutilide).

Published

2004

4. New Molecular Descriptors Based on Local Properties at the Molecular Surface and a Boiling-Point Model Derived from Them

Author

Ehresmann, Bernd, J. de Groot, Marcel, Alex, Alexander, and Clark, Timothy

Abstract

New molecular descriptors based on statistical descriptions of the local ionization potential, local electron affinity, and the local polarizability at the surface of the molecule are proposed. The significance of these descriptors has been tested by calculating them for the Maybridge database in addition to our set of 26 descriptors reported previously. The new descriptors show little correlation with those already in use. Furthermore, the principal components of the extended set of descriptors for the Maybridge data show that especially the descriptors based on the local electron affinity extend the variance in our set of descriptors, which we have previously shown to be relevant to physical properties. The first nine principal components are shown to be most significant. As an example of the usefulness of the new descriptors, we have set up a QSPR model for boiling points using both the old and new descriptors.

Published

2004

5. Pharmacophore and three-dimensional quantitative structure activity relationship methods for modeling cytochrome p450 active sites.

Author

S, Ekins, J, de Groot M, and P, Jones J

Abstract

Structure activity relationships (SAR), three-dimensional structure activity relationships (3D-QSAR), and pharmacophores represent useful tools in understanding cytochrome P450 (CYP) active sites in the absence of crystal structures for these human enzymes. These approaches have developed over the last 30 years such that they are now being applied in numerous industrial and academic laboratories solely for this purpose. Such computational approaches have helped in understanding substrate and inhibitor binding to the major human CYPs 1A2, 2B6, 2C9, 2D6, 3A4 as well as other CYPs and additionally complement homology models for these enzymes. Similarly, these approaches may assist in our understanding of CYP induction. This review describes in detail the development of pharmacophores and 3D-QSAR techniques, which are now being more widely used for modeling CYPs; the review will also describe how such approaches are likely to further impact our active site knowledge of these omnipresent and important enzymes.

Published

2001

6. The Mulatto Myth.

Author

Fernandes, Andrew J. de Groot

Subjects

*MULTIRACIAL people, *RACIAL identity of Black people, *RACE relations

Abstract

Reports on the criticism by Afro-Brazilians of the practice by mulattos of auto-embranquecimento or self-whitening. Encouragement of people classified as mulatto to identify themselves as negro instead; Status held by lighter-skinned blacks between the pretos and the privileged whites; Development of the 'mulatto myth' as a key component of Brazilian racial identity.

Published

2001

7. A Genomic Approach for the Identification and Classification of Genes Involved in Cell Wall Formation and Its Regulation in Saccharomyces cerevisiae

Author

W. J. de Groot, Piet, Ruiz, Cristina, R. Vázquez de Aldana, Carlos, Dueňas, Encarnación, J. Cid, Víctor, Del Rey, Francisco, M. Rodríquez-Peña, José, Pérez, Pilar, Andel, Annemiek, Caubín, Julio, Arroyo, Javier, C. García, Juan, Gil, Concha, Molina, María, J. García, Luis, Nombela, César, and M. Klis, Frans

Abstract

Using a hierarchical approach, 620 non-essential single-gene yeast deletants generated by EUROFAN I were systematically screened for cell-wall-related phenotypes. By analyzing for altered sensitivity to the presence of Calcofluor white or SDS in the growth medium, altered sensitivity to sonication, or abnormal morphology, 145 (23%) mutants showing at least one cell wall-related phenotype were selected. These were screened further to identify genes potentially involved in either the biosynthesis, remodeling or coupling of cell wall macromolecules or genes involved in the overall regulation of cell wall construction and to eliminate those genes with a more general, pleiotropic effect. Ninety percent of the mutants selected from the primary tests showed additional cell wall-related phenotypes. When extrapolated to the entire yeast genome, these data indicate that over 1200 genes may directly or indirectly affect cell wall formation and its regulation. Twenty-one mutants with altered levels of β1,3-glucan synthase activity and five Calcofluor white-resistant mutants with altered levels of chitin synthase activities were found, indicating that the corresponding genes affect β1,3-glucan or chitin synthesis. By selecting for increased levels of specific cell wall components in the growth medium, we identified 13 genes that are possibly implicated in different steps of cell wall assembly. Furthermore, 14 mutants showed a constitutive activation of the cell wall integrity pathway, suggesting that they participate in the modulation of the pathway either directly acting as signaling components or by triggering the Slt2-dependent compensatory mechanism. In conclusion, our screening approach represents a comprehensive functional analysis on a genomic scale of gene products involved in various aspects of fungal cell wall formation.

Published

2001