Distance measurements in the borderline region of applicability of CW EPR and DEER: a model study on a homologous series of spin-labelled peptides.

Inter-spin distances between 1 nm and 4.5 nm are measured by continuous wave (CW) and pulsed electron paramagnetic resonance (EPR) methods for a series of nitroxide-spin-labelled peptides. The upper distance limit for measuring dipolar coupling by the broadening of the CW spectrum and the lower distance limit for the present optimally-adjusted double electron electron resonance (DEER) set-up are determined and found to be both around 1.6-1.9 nm. The methods for determining distances and corresponding distributions from CW spectral line broadening are reviewed and further developed. Also, the work shows that a correction factor is required for the analysis of inter-spin distances below approximately 2 nm for DEER measurements and this is calculated using the density matrix formalism.

Theoretical descriptors for the quantitative rationalisation of plastocyanin mutant functional propertiess.

A quantitative rationalisation of the effect of specific amino acids on the recognition process and redox characteristics of plastocyanin towards cytochrome f, as determined by point mutation experiments, has been attempted in this study. To achieve this goal we derived theoretical descriptors directly from the three-dimensional structure of the plastocyanin mutants, in the same manner as it is usually done for small drug-like molecules. The protein descriptors computed can be related to: (a) the electrostatic and dipole-dipole interactions, effective at long distance; (b) polar interactions whose features are encoded by charged partial surface area descriptors; (c) the propensity of the surface residues to form hydrogen bonding interactions; and (d) dispersion and repulsive interactions. Moreover, an estimation of mutation-dependent variation of redox potential observed has been obtained by electrostatic free energy calculations. The quantitative structure-activity relationship (QSAR) models offer structural interpretation of the point mutation experiment responses and can be of help in the design of new protein engineering experiments.

Similarity calculations using two-dimensional molecular representations.

Molecular similarity calculations are important for rational drug design. Time constraints prevent these techniques being used on large data sets or on large molecules. By reducing the molecular representation to a two-dimensional form, the alignment of the molecules can be greatly speeded up. The accuracy of the resulting similarity values can be improved by using a neural network.

Computer modelling of the receptor-binding domains of VEGF and PIGF.

Models of the platelet-derived growth factor (PDGF)-like domains of vascular endothelial growth factor (VEGF) and placenta growth factor (PIGF) were built based on their homology to PDGF. These domains contain most of the determinants for receptor binding. The sequences of these proteins exhibit limited but significant homology to that of platelet-derived growth factor (PDGF), a member of the cystine knot growth factor family. The eight cysteine residues that are involved in intra- and interchain disulphide bonds are conserved. Two high affinity receptors for VEGF have been identified, only one of which binds PIGF. The models presented here are consistent with results that show that VEGF receptor binding is mediated by charged residues in the loops. A comparison of the models suggests that the difference in receptor-binding specificity between VEGF and PIGF may be due to differences in the distribution of positively charged residues and the exposure of hydrophobic residues in the loops.

Structural basis of p21H-ras molecular switch inhibition by a neutralizing antibody.

The ras oncogene product p21 functions as a molecular switch in the early section of the signal transduction pathway that is involved in cell growth and differentiation. When the protein is in its GTP-complexed form it is active in signal transduction, whereas it is inactive in its GDP-complexed form. The transforming activity of p21ras is neutralized by the mouse monoclonal antibody Y13-259, possibly by preventing GDP-GTP exchange. A molecular model of the variable fragment of Y13-259 has been derived using a knowledge-based prediction approach and computer-assisted modeling techniques. An analysis of this model while complexed with p21ras/(GDP) indicated that the two molecular switch regions are constrained by complex formation. Antibody binding inhibits GDP-GTP exchange through a mechanism of steric hindrance. Having identified necessary bound sites for inhibition, and explored their electrostatic properties, it should be possible to proceed with the design of antibody mimics as therapeutic agents in cancer control.

Modeling cytochrome P450 14 alpha demethylase (Candida albicans) from P450cam.

The tertiary structure of cytochrome P450 14 alpha demethylase--Candida albicans (P450 CA) is modeled on the basis of sequence alignment with two closely related proteins and the crystallographic structure of Pseudomonas putida P450cam. The secondary structure prediction system used combines the information from several algorithms and trains the data to offer an optimized prediction of the known P450cam. The trained algorithm was then used to predict the secondary structure of the other P450 sequences. The prediction of the surface coil regions was aided by an alignment between P450 CA and the homologous sequences P450 14 alpha demethylase--Saccharomyces cerevisiae (66 SD) and P450 14 alpha demethylase--Candida tropicalis (72 SD). The prediction and alignment information was combined to establish an alignment between P450 CA and P450cam, and to assign full secondary structure to the target protein. This secondary structure was folded from the template of P450cam and the predicted structure was relaxed by molecular dynamics. Model checking highlighted minor adjustments in the alignment, correctly orienting hydrophobic and hydrophilic side chains. The model offers explanations for several known experimental results and suggests further investigations that may prove fruitful in understanding the structure and mechanisms of the P450 family (Porter, T.D. and Coon, M.J. Minireview cytochrome P450. J. Biol. Chem. 1991, 266, 13469-13472. Waterman, M.R. Cytochrome P450 cellular distribution and structural considerations. Current Opinion in Structural Biology 1992, 2, 384-387. Aoyama, Y., Yoshida, Y., Sonohdo, Y. and Sato, Y. Structural analysis of the interaction between the side-chain of substrates and the active site of lanosterol 14 alpha demethylase (P450 14DM) of yeast. Biochim. Biophys. Acta 1992, 1122, 251-255.).

A computer model of the interleukin-4/receptor complex.

Interleukin-4 is a member of the cytokine family, a group of related messenger proteins which collectively help to moderate and control the immune response. It is believed that the folding topology of the beta-sheets of the interleukin-4 receptor (IL4R) is the same as that seen in the crystal structure of CD4. Although the sequence identity is low, homology modeling techniques have been used to model the IL4R structure from CD4. Refinement by molecular dynamics leads to a suggested structure which has been docked to interleukin-4 (IL4). Several residues of apparent importance for binding are identified.

Charge calculations in molecular mechanics. IX. A general parameterisation of the scheme for saturated halogen, oxygen and nitrogen compounds.

The CHARGE2 program for the calculation of partial atomic charges has been amended to include bond parameters for a number of organic functional groups, including halogens, nitrogen and oxygen. These minor amendments to the original scheme produce dipole moments for the fluoro and chloro compounds which are in complete agreement with the observed values. The less complete data sets for the bromo and iodo compounds are also well reproduced, and the dipole moments of a variety of mixed halo compounds are now in better agreement with experiment than previously. The calculated dipole moments of the saturated nitrogen and oxygen compounds are now in much better agreement than in the original scheme, thus the revised parameterisation may be employed with confidence to predict the electrostatic energies of these compounds. Furthermore, the revised scheme now gives a precise proportionality between the charge on the proton in a CH group and the 1H chemical shift of the corresponding proton, allowing the general prediction, in principle, of 1H chemical shifts. In addition, attempts to include variable electronegativity in the alpha effect are described for fluoro compounds.

Charge calculations in molecular mechanics. Part 8. Partial atomic charges from classical calculations.

The CHARGE2 programme, which involves the classical calculation of both the inductive and resonance contributions to the partial atomic charges in molecules is described, and the charges and electrostatic potentials obtained presented for some illustrative examples. In substituted methanes (CH3X, CF3X, CCl3X) the effects of varying the electronegativity of the substituents and the alpha- and beta-substituent contributions are clearly illustrated for a variety of substituent groups X. The problems involved in the inclusion of silicon into this scheme are detailed, together with the methods of overcoming them. The partial atomic charges (sigma and pi contributions) and electrostatic potentials for some silicon oxygen compounds are presented and discussed. The partial atomic charges from CHARGE2 for all the natural amino acids as their N-acetyl, N'-methylamides are given and compared with those obtained from the AMBER and ECEPP/2 force fields. Considerable differences in these figures are observed, with the AMBER charges consistently much larger than those from the other two methods. The CHARGE2 partial atomic charges and electrostatic potentials for the four common nucleic acids, adenine, cytosine, guanine and thymine, are given and compared with those derived from other calculations. Again there is general similarity but also there are considerable differences, with those from the AMBER force field somewhat larger than the other methods.

A theoretical study of the Si-O bond in disiloxane and related molecules.

A comparison of semi-empirical (MNDO) and ab initio (GAUSSIAN) calculations for disiloxane and related molecules is given. The STO-3G* basis set well produced the observed geometries of disiloxane (less than SiOSi observed 144 degrees, calculated 140 degrees), dimethoxy-dimethylsilane (less than OSiO obsd tetrahedral, calc 102 degrees), methyl silyl ether (less than COSi obsd 121 degrees, calc 118 degrees) and correctly predicted the planar geometry found for cyclotrisiloxane. In contrast, more complex basis sets (3-21G(*), DZP, TZVP) gave much poorer agreement with the observed geometries. Comparison of the STO-3G* and the STO-3G basis sets demonstrates the necessity of including d-orbitals on the silicon. However, the semi-empirical MNDO program gave, despite the absence of d-orbitals, a better approximation to the molecular geometry than the complex ab initio basis sets. Force field parameters have been calculated for kSiOSi, kOSiO, 0.089 and 0.73 mdyneA/rad2, and the SiOSiO torsion which has a V1 potential of -0.68 kcal/mol. In addition, the HSiOH torsion is shown to have a three-fold potential of 0.78 kcal/mol. These are profoundly different from the analogous carbon-oxygen force constants, demonstrating that C-O parameters cannot be transferred to the corresponding Si-O systems.

Tuberculoid lymphadenitis due to Mycobacterium chelonei.

An 8-year-old boy developed cervical lymphadenitis four months after an injection of dental anaesthetic. Histology of the lymphatic tissue showed a tuberculoid granulomatous reaction with scanty acid-fast bacilli. Mycobacterium chelonei was isolated in pure culture (NCTC 10882). The patient showed specific skin hypersensitivity to an extract of M. chelonei, but not to that of M. ranae. This is thought to be the first recorded case of lymphadenitis in man caused by M. chelonei; it adds another possibility to be considered in the differential diagnosis of ;a lump in the neck'.