ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

11

Electronic Resource

Molecular dynamics simulations of phenylimidazole inhibitor complexes of cytochrome P450 cam (1995)

Harris, Dan L. ; Chang, Yan-Tyng ; Loew, Gilda H.

Springer

Molecular engineering 5 (1995), S. 143-156

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ISSN: 1572-8951

Keywords: P450 cam ; phenylimidazole inhibitor ; molecular dynamics simulation

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Molecular dynamics simulations have been performed on three phenylimidazole inhibitor complexes ofP450 cam, utilizing the X-ray structures and the AMBER suite of programs. Compared to their corresponding optimized X-ray structures, very similar features were observed for the 1-phenylimidazole (1-PI) and 2-phenylimidazole (2-PI) complexes during a 100 ps MD simulation. The 1-PI inhibitor binds as a Type II complex with the imidazole nitrogen as a ligand of the heme iron. Analysis of the inhibitor-enzyme interctions during the MD simulations reveals that electrostatic interactions of the imidazole with the heme and van der Waals interactions of the phenyl ring with nearby hydrophobic residues are dominant. By contrast, 2-PI binds as a Type I inhibitor in the substrate binding pocket, but not as a ligand of the iron. The interactions of this inhibitor are qualitatively different from that of the Type II 1-PI, being mainly electrostatic/H-bonding interactions with a bound water and polar residues. Although the third compound, 4-PI, in common with 1-PI, also binds as a Type II inhibitor, with one nitrogen of the imidazole as a ligand to the iron, the MD average binding orientation deviates significantly from the X-ray structure. The most important changes observed include: (1) the rotation of the imidazole ring of this inhibitor by about 90° to enhance electrostatic interactions of the imidazole NH group with the carbonyl group of LEU244, and (2) the rotation of the carbonyl group of ASP251 to form a H-bond with VAL254. An analysis of the H-bonding network surrounding this substrate in the optimized crystal structure revealed that there is no H-bonding partner either for the free polar NH group in the imidazole ring of 4-phenylimidazole or for the polar carbonyl group of the nearby ASP251 residue. The deviation of the dynamically averaged inhibitor-enzyme structure of the 4-PI complex from the optimized crystal structure can therefore be rationalized as a consequence of the optimization of the electrostatic interactions among the polar groups.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00999585

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12

Electronic Resource

Development of a common 3D pharmacophore for δ-opioid recognition from peptides and non-peptides using a novel computer program (1997)

Huang, Ping ; Kim, Susan ; Loew, Gilda

Springer

Journal of computer aided molecular design 11 (1997), S. 21-28

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ISSN: 1573-4951

Keywords: Molecular determinants ; 3D pharmacophore ; δ-Opioid recognition

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract A unified three-dimensional (3D) pharmacophore for recognition of the δ-opioid receptorby families of structurally diverse δ-opioid ligands, including peptides and non-peptides,has been determined. An additional structural feature required for δ-selectivity was alsocharacterized using a subset of these ligands that are highly selective for the δ-opioidreceptor. To obtain these pharmacophores, we have used a recently developed computerprogram that performs systematic and automated comparisons of molecules to determinewhether any common 3D relationships exist among candidate recognition moieties in high-affinity analogs. All the low-energy conformations of each ligand are included in thesecomparisons. The program developed should be applicable in general to molecular super-imposition problems in rational drug design and to develop both 3D recognition and activationpharmacophores for any receptor for which high- and low-affinity analogs and agonists andantagonists have been identified.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008067209563

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13

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Development of a conformational search strategy for flexible ligands: A study of the potent μ-selective opioid analgesic fentanyl (1991)

Cometta-Morini, Chiara ; Loew, Gilda H.

Springer

Journal of computer aided molecular design 5 (1991), S. 335-356

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ISSN: 1573-4951

Keywords: Fentanyl ; AM1 ; CHARMm ; Molecular dynamics

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary An extensive conformational search of the potent opioid analgesic, fentanyl, was performed using the semiempirical quantum mechanical method AM1 and the CHARMm potential energy function. A combination of two procedures was used to search the conformational space for fentanyl, which included nested dihedral scans, geometry optimization and molecular dynamics simulation at different temperatures. In addition, the effect of a continuum solvent environment was taken into account by use of appropriate values for the dielectric constant in the CHARMm computations. The results of the conformational search allowed the determination of the probable conformation of fentanyl in polar and nonpolar solvents and of three candidate conformers for its bioactive form.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00126667

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14

Electronic Resource

Characterization of low-energy conformational domains for Met-enkephalin (1992)

Perez, Juan J. ; Villar, Hugo O. ; Loew, Gilda H.

Springer

Journal of computer aided molecular design 6 (1992), S. 175-190

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ISSN: 1573-4951

Keywords: Met-enkephalin ; Conformation ; Solvent effects ; Conformational search

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary An extensive exploration of the conformational hypersurface of Met-enkephalin has been carried out, in order to characterize different low-energy conformational domains accessible to this pentapeptide. The search strategy used consisted of two steps. First, systematic nested rotations were performed using the ECEPP potential. Ninety-two low-energy structures were found and minimized using the CHARMm potential. High and low-temperature molecular dynamics trajectories were then computed for the lowest energy structures in an iterative fashion until no lower energy conformers could be found. The same search strategy was used in these studies simulating three different environments, a distance-dependent dielectric ɛ=r, and two constant dielectrics ɛ=10 and ɛ=80. The lowest energy structure found in a distance-dependent dielectric is a Gly-Gly β-II′-type turn. All other structures found for ɛ=r within 10 kcal/mol of this lowest energy structure are also bends. In the more polar environments, the density of conformational states is significantly larger compared to the apolar media. Moreover, fewer hydrogen bonds are formed in the more polar environments, which increases the flexibility of the peptide and results in less structured conformers. Comparisons are made with previous calculations and experimental results.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00129427

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15

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Calculated properties of the active site of oxidized rubredoxins (1974)

Loew, Gilda H. ; Chadwick, Michael ; Lo, David

Springer

Theoretical chemistry accounts 33 (1974), S. 147-156

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ISSN: 1432-2234

Keywords: Zero field splittings ; Magnetic moments ; Electron spin resonance spectra ; Rubredoxins (oxidized)

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract For a molecular model of the Fe-S active site complex in oxidized rubredoxin, we have calculated the spin-orbit coupling between the ground sextet state and excited quartet and doublet states which gives rise to the observed zero field splitting of the sextet ground state into three spin-mixed Kramers doublets. Additionally, we have used the six spin-mixed sextet state components to calculate effective magnetic moments, magnetic field energies and nine g values corresponding to transitions between the three pairs of Kramers doublets in applied magnetic fields along three perpendicular axes. We have calculated these properties for eight conformational variations of the ligands around the Fe at the active site. The results of these calculations clearly show the origin of the observed g=4.3 signal previously described only in terms of the phenomenological spin-Hamiltonian formalism. For the eight conformations considered, five have this characteristic signal. Zero field splitting comparable to the observed values could be obtained for all symmetries studied. In addition, the calculated values of magnetic moment in all symmetries correspond to that of high spin ferric ion and do not vary appreciably with temperature above 77° K, in agreement with experimental results. From comparison of all our calculated results with experiment, it appears that the active site in oxidized rubredoxins could have small conformational variations in different rubredoxins and under the various experimental conditions used.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00526620

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16

Electronic Resource

Strategies for Indirect Computer-Aided Drug Design (1993)

Loew, Gilda H. ; Villar, Hugo O. ; Alkorta, Ibon

Springer

Pharmaceutical research 10 (1993), S. 475-486

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ISSN: 1573-904X

Keywords: drug design ; pharmacophore development ; QSAR ; molecular mechanics ; quantum mechanics

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract This review is intended to describe some of the methods and procedures used for computer-aided drug design when the structure of the macromolecular target is unknown, as is the case for CNS active drugs. Strategies and methods used in computer-aided design of drugs in such instances must be "indirect,” i.e., focusing on the characterization of the ligands themselves. This situation is different from one in which the three-dimensional structure of the macromolecular target for a drug is known, for example, for drugs that are enzyme inhibitors, allowing "direct” characterization of ligand-receptor interactions. Two qualitatively different "indirect” approaches are described here. One, called 2D-QSAR, is briefly reviewed. It is based on delineating regression relationships between a specified biological end point and properties of the compounds eliciting it. The other, based on pharmacophore development, constitutes the main part of this review. Several levels of pharmacophore development are described, which differ in the extent to which they encompass fundamental molecular properties that are determinants of receptor recognition and activation. The strengths and limitations of each procedure are discussed and illustrated by examples. Two methods for obtaining model receptor structures are then briefly described. Both rely on the prior success of the indirect methods in obtaining ligand properties that modulate receptor recognition and activation. These emerging capabilities have the potential to bridge the gap between indirect and direct methods of drug design, since, if successful, the design process can continue in a direct mode using explicit characterization of drug–receptor interactions. Strategies for hypothesis validation and use of hypothesis for drug design and discovery are also briefly reviewed. The final sections of this review describe specific computational tools such as molecular mechanics and quantum mechanical methods used to characterize and identify relevant molecular properties and indicate some areas for future development of computational chemistry methods that could increase its effectiveness in the design of novel drugs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018977414572

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