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ANOLEA (Atomic Non-Local Environment Assessment) is a www server that performs energy calculations at the atomic level in protein structures. The calculations involve the non-local interactions between all the heavy atoms of the twenty standard amino acids in the molecule. The input of the server is a PDB file containing one or more protein chains. The output is an energy profile, which gives an energy value for each amino acid of the protein. High energy zones (HEZs) in the profile correlate with errors or with potential interacting zones of proteins. The output of the server also displays the structure in three dimensions, pointing out the high energy amino acids in the protein. This option requires the CHIME plug-in, which is freely available on Internet and makes possible, in real time, to rotate, translate and change the point of view and presentation of the molecule in three dimensions. Thus, a fast analysis of a protein structure can be done using a personal computer connected to Internet. The server is available at: http:@www.fundp.ac.be/pub/ANOLEA.html.
Proc Int Conf Intell Syst Mol Biol 1997
PMID:ANOLEA: a www server to assess protein structures. 932 34

We propose a novel set of 'representative' protein chains in PDB, where not only sequential but also structural similarities are taken into account. Hobohm et al. have already proposed "PDB_SELECT", which eliminates redundant chains based solely on sequence similarity. "PDB_SELECT" is frequently updated and the latest version is available at EMBL WWW server. In our set of entries "PDB-REPRDB," however, structural similarities are also considered, in order not to overlook local conformation diversity within a group of sequentially similar chains. Our set guarantees that every representative is the best among that similar protein group, regarding experimental or structure-determination quality (i.e. resolution and R-value). The first version (based on PDB Release 70) of PDB-REPRDB was released in 1995 and the second version (PDB Release 78) will be available by April 1997.
Proc Int Conf Intell Syst Mol Biol 1997
PMID:PDB-REPRDB: a database of representative protein chains in PDB (Protein Data Bank). 932 39

A statistical analysis is reported of experimental data and coordinates of a set of 97 NMR structures deposited in the PDB. The aim is to assess the quality of these structures in relation to the amount of experimental information. Experimental restraints were analysed using the program AQUA. Many nomenclature inconsistencies between deposited restraint and coordinate files were observed. The experimental restraint files were found to contain a high proportion of redundant restraints. Procedures for analysing and correcting the inconsistencies and restraint counts are described. The analysis of NOE restraint violations (using AQUA) and of a wide variety of geometrical quality indicators (using PROCHECK-NMR and WHAT IF) provides a reference for other NMR structure determinations. The extent of NOE violations is anti-correlated with the quality of the Ramachandran map. The precision as measured by the circular variance of backbone dihedral angles, does increase with the amount of experimental data, as expected, but is sometimes overestimated. Bond lengths, bond angles and planarity of groups can deviate considerably from ideal values. Outliers appear to cluster per laboratory, indicating that the results depend on particulars of refinement protocols and/or software. We have identified a problem of atom overlap in a number of refined structures.We recommend adhering to the standard nomenclature as put forward by an IUPAC Task Group, to ensure consistency between restraints and coordinates, and to omit redundant restraints from the deposition. The results obtained from this analysis and the AQUA program are available through the World Wide Web.
J Mol Biol 1998 Aug 07
PMID:Quality assessment of NMR structures: a statistical survey. 968 Apr 82

The structure and hydration of the DNA duplex d-(AGCGTACTAGTACGCT)2 corresponding to the trp operator fragment used in the crystal structure of the half site complex (PDB entry 1TRR) was studied by a 1.4 ns molecular dynamics simulation in water. The simulation, starting from a B-DNA conformation, used a non-bonded cutoff of 1.4 nm with a reaction field correction and resulted in a stable trajectory. The average DNA conformation obtained was closer to the ones found in the crystal structures of the complexes (PDB entries 1TRO and 1TRR) than to the crystal structure of unbound trp operator (Nucleic Acid Database entry BDJ061). The DNA hydration was characterized in terms of hydrogen bond percentages and corresponding residence times. The residence times of water molecules within 0.35 nm of the DNA non-exchangeable protons were calculated for comparison with NMR measurements of intermolecular water-DNA NOEs and nuclear magnetic relaxation dispersion measurements. No significant difference was found between major and minor groove hydration. The DNA donors and acceptors were hydrogen bonded to water molecules for 77(+/-19)% of the time on average. The average residence time of the hydrogen bonded water molecules was 11(+/-11) ps with a maximum of 223 ps. When all water molecules within NOE distance (0.35 nm) of non-exchangeable protons were considered, the average residence times increased to an average of 100(+/-4) ps and a maximum of 608 ps. These results agree with the experimental NMR results of Sunnerhagen et al. which did not show any evidence for water molecules bound with more than 1 ns residence time on the DNA surface. The exchange of hydration water from the DNA occurred in the major groove primarily through direct exchange with the bulk solvent, while access to and from the minor groove frequently proceeded via pathways involving ribose O3' and O4' and phosphate O2P oxygen atoms. The most common water diffusion pathways in the minor groove were perpendicular to the groove direction. In general, water molecules visited only a limited number of sites in the DNA grooves before exiting. The hydrogen bonding sites, where hydrogen bonds could be formed with donor and acceptor groups of the DNA, were filled with water molecules with an average B-factor value of 0.58 mn2. No special values were observed at any of the sites, where water molecules were observed both in the trp repressor/operator co-crystals and in the crystal structure of unbound DNA.
J Mol Biol 1998 Oct 02
PMID:Water molecules in DNA recognition II: a molecular dynamics view of the structure and hydration of the trp operator. 974 32

The two-dimensional contact map of interresidue distances is a visual analysis technique for protein structures. We present two standalone software tools designed to be used in combination to increase the versatility of this simple yet powerful technique. First, the program Structer calculates contact maps from three-dimensional molecular structural data. The contact map matrix can then be viewed in the graphical matrix-visualization program Dotter. Instead of using a predefined distance cutoff, we exploit Dotter's dynamic rendering control, allowing interactive exploration at varying distance cutoffs after calculating the matrix once. Structer can use a number of distance measures, can incorporate multiple chains in one contact map, and allows masking of user-defined residue sets. It works either directly with PDB files, or can use the MMDB network API for reading structures.
J Mol Graph Model 1998 Feb
PMID:Dynamic contact maps of protein structures. 978 53

An analysis has been performed on the first example of a non-proline cis- peptide bond found within a complementarity determining region (CDR) of an antibody. The bond is located in CDR 3 of the heavy chain (H3) and makes substantial interactions to a peptide from a breast tumour-associated antigen. The antibody-peptide complex is compared, both in H3 length (six residues) and peptide conformation, to a number of other such complexes in the Brookhaven Data Bank (PDB). There is only one other H3 loop of the same length. Analysis of loop searches of the PDB, taken over the H3 framework of SM3, suggest that there is a limited repertoire of conformations for loops of length 6 compared to loops of length 5 and 7. It is argued that the cis-peptide bond is present because of the limited number of loop conformations of length 6, plus, the requirement of the H3 loop to contact the bound peptide. Modelling suggests that an all-trans-peptide loop conformation can replace the H3 loop and this raises the question of whether there is a trans- to cis-peptide bond isomerization upon peptide binding.
J Mol Biol 1998 Dec 04
PMID:Conformational analysis of the first observed non-proline cis-peptide bond occurring within the complementarity determining region (CDR) of an antibody. 982 97

The homo-dimeric structure of a vanadium-dependent haloperoxidase (V-BPO) from the brown alga Ascophyllum nodosum (EC 1.1.11.X) has been solved by single isomorphous replacement anomalous scattering (SIRAS) X-ray crystallography at 2.0 A resolution (PDB accession code 1QI9), using two heavy-atom datasets of a tungstate derivative measured at two different wavelengths. The protein sequence (SwissProt entry code P81701) of V-BPO was established by combining results from protein and DNA sequencing, and electron density interpretation. The enzyme has nearly an all-helical structure, with two four-helix bundles and only three small beta-sheets. The holoenzyme contains trigonal-bipyramidal coordinated vanadium atoms at its two active centres. Structural similarity to the only other structurally characterized vanadium-dependent chloroperoxidase (V-CPO) from Curvularia inaequalis exists in the vicinity of the active site and to a lesser extent in the central four-helix bundle. Despite the low sequence and structural similarity between V-BPO and V-CPO, the vanadium binding centres are highly conserved on the N-terminal side of an alpha-helix and include the proposed catalytic histidine residue (His418(V-BPO)/His404(V-CPO)). The V-BPO structure contains, in addition, a second histidine near the active site (His411(V-BPO)), which can alter the redox potential of the catalytically active VO2-O2 species by protonation/deprotonation reactions. Specific binding sites for the organic substrates, like indoles and monochlordimedone, or for halide ions are not visible in the V-BPO structure. A reaction mechanism for the enzymatic oxidation of halides is discussed, based on the present structural, spectroscopic and biochemical knowledge of vanadium-dependent haloperoxidases, explaining the observed enzymatic differences between both enzymes.
J Mol Biol 1999 Oct 29
PMID:X-ray structure determination of a vanadium-dependent haloperoxidase from Ascophyllum nodosum at 2.0 A resolution. 1054 53

We report the crystal structure at 1.59 A and the proposed amino acid sequence of an endo-1,4-beta-xylanase (PVX) from the thermophilic fungus Paecilomyces varioti Bainier (PvB), stable up to 75 degrees C. This fungus is attracting clinical attention as a pathogen causing post-surgical infections. Its xylanase, known as a skin-contact allergen, is the first protein from this fungus whose three-dimensional structure has been elucidated. The crystals of PVX conform to the space group P2(1)2(1)2(1 )with a=38.76 A, b=54.06 A and c=90.06 A. The structure was solved by molecular replacement techniques using polyalanine coordinates of the Thermomyces lanuginosus xylanase (PDB code 1YNA) and a careful model building based on the amino acid sequence known for two trypsin-digested peptide fragments (17 residues), the sequence and structural alignment of family-11 xylanases and electron density maps. The final refined model has 194 amino acid residues and 128 water molecules, with a crystallographic R-factor of 19.07 % and a free R-factor of 21.94 %. The structure belongs to an all-beta fold, with two curved beta-sheets, forming the cylindrical active-site cleft, and a lone alpha-helix, as present in other family-11 xylanases. We have carried out a quantitative comparison of the structure and sequence of the present thermophilic xylanase (PVX) with other available native structures of mesophiles and thermophiles, the first such detailed analysis to be carried out on family-11 xylanases. The analysis provides a basis for the rationalisation of the idea that the "hinge" region is made more compact in thermophiles by the addition of a disulphide bridge between Cys110 and Cys154 and a N-H.O hydrogen bond between Trp159 near the extremity of the lone alpha-helix and Trp138 on beta-strand B8. This work brings out explicitly the presence of the C-H.O and the C-H.pi type interactions in these enzymes. A complete description of structural stability of these enzymes needs to take account of these weaker interactions.
J Mol Biol 2000 Jan 21
PMID:The tertiary structure at 1.59 A resolution and the proposed amino acid sequence of a family-11 xylanase from the thermophilic fungus Paecilomyces varioti bainier. 1062 48

The stability and (un)folding of the 19-residue peptide, SCVTLYQSWRYSQADNGCA, corresponding to the first beta-hairpin (residues 10 to 28) of the alpha-amylase inhibitor tendamistat (PDB entry 3AIT) has been studied by molecular dynamics simulations in explicit water under periodic boundary conditions at several temperatures (300 K, 360 K and 400 K), starting from various conformations for simulation lengths, ranging from 10 to 30 ns. Comparison of trajectories of the reduced and oxidized native peptides reveals the importance of the disulphide bridge closing the beta-hairpin in maintaining a proper turn conformation, thereby insuring a proper side-chain arrangement of the conserved turn residues. This allows rationalization of the conservation of those cysteine residues among the family of alpha-amylase inhibitors. High temperature simulations starting from widely different initial configurations (native beta-hairpin, alpha and left-handed helical and extended conformations) begin sampling similar regions of the conformational space within tens of nanoseconds, and both native and non-native beta-hairpin conformations are recovered. Transitions between conformational clusters are accompanied by an increase in energy fluctuations, which is consistent with the increase in heat capacity measured experimentally upon protein folding. The folding events observed in the various simulations support a model for beta-hairpin formation in which the turn is formed first, followed by hydrogen bond formation closing the hairpin, and subsequent stabilization by side-chain hydrophobic interactions.
J Mol Biol 2000 Feb 11
PMID:beta-hairpin stability and folding: molecular dynamics studies of the first beta-hairpin of tendamistat. 1065 30

PASS (Putative Active Sites with Spheres) is a simple computational tool that uses geometry to characterize regions of buried volume in proteins and to identify positions likely to represent binding sites based upon the size, shape, and burial extent of these volumes. Its utility as a predictive tool for binding site identification is tested by predicting known binding sites of proteins in the PDB using both complexed macromolecules and their corresponding apoprotein structures. The results indicate that PASS can serve as a front-end to fast docking. The main utility of PASS lies in the fact that it can analyze a moderate-size protein (approximately 30 kDa) in under 20 s, which makes it suitable for interactive molecular modeling, protein database analysis, and aggressive virtual screening efforts. As a modeling tool, PASS (i) rapidly identifies favorable regions of the protein surface, (ii) simplifies visualization of residues modulating binding in these regions, and (iii) provides a means of directly visualizing buried volume, which is often inferred indirectly from curvature in a surface representation. PASS produces output in the form of standard PDB files, which are suitable for any modeling package, and provides script files to simplify visualization in Cerius2, InsightII, MOE, Quanta, RasMol, and Sybyl. PASS is freely available to all.
J Comput Aided Mol Des 2000 May
PMID:Fast prediction and visualization of protein binding pockets with PASS. 1081 74


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