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51. Whole genome searching with shotgun proteomic data: applications for genome annotation.

Author

Sevinsky JR, Cargile BJ, Bunger MK, Meng F, Yates NA, Hendrickson RC, and Stephenson JL Jr

Subjects
Cell Line, Tumor, Genome, Human, Genomics methods, Humans, Isoelectric Focusing, Databases, Protein trends, Documentation methods, Proteomics methods, Tandem Mass Spectrometry methods
Abstract

High-throughput genome sequencing continues to accelerate the rate at which complete genomes are available for biological research. Many of these new genome sequences have little or no genome annotation currently available and hence rely upon computational predictions of protein coding genes. Evidence of translation from proteomic techniques could facilitate experimental validation of protein coding genes, but the techniques for whole genome searching with MS/MS data have not been adequately developed to date. Here we describe GENQUEST, a novel method using peptide isoelectric focusing and accurate mass to greatly reduce the peptide search space, making fast, accurate, and sensitive whole human genome searching possible on common desktop computers. In an initial experiment, almost all exonic peptides identified in a protein database search were identified when searching genomic sequence. Many peptides identified exclusively in the genome searches were incorrectly identified or could not be experimentally validated, highlighting the importance of orthogonal validation. Experimentally validated peptides exclusive to the genomic searches can be used to reannotate protein coding genes. GENQUEST represents an experimental tool that can be used by the proteomics community at large for validating computational approaches to genome annotation. more...

Published
2008
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53. On the detection of functionally coherent groups of protein domains with an extension to protein annotation.

Author

McLaughlin WA, Chen K, Hou T, and Wang W

Subjects
Algorithms, Amino Acid Motifs physiology, Databases, Genetic, Databases, Protein trends, Forecasting, Protein Binding, Protein Conformation, Proteins chemistry, Proteomics methods, Saccharomyces cerevisiae chemistry, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae ultrastructure, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins classification, Saccharomyces cerevisiae Proteins ultrastructure, Sequence Alignment, Sequence Analysis, Protein, Structural Homology, Protein, Structure-Activity Relationship, Terminology as Topic, Pattern Recognition, Automated methods, Protein Interaction Mapping methods, Protein Structure, Tertiary physiology, Proteins classification, Proteins ultrastructure
Abstract

Background: Protein domains coordinate to perform multifaceted cellular functions, and domain combinations serve as the functional building blocks of the cell. The available methods to identify functional domain combinations are limited in their scope, e.g. to the identification of combinations falling within individual proteins or within specific regions in a translated genome. Further effort is needed to identify groups of domains that span across two or more proteins and are linked by a cooperative function. Such functional domain combinations can be useful for protein annotation., Results: Using a new computational method, we have identified 114 groups of domains, referred to as domain assembly units (DASSEM units), in the proteome of budding yeast Saccharomyces cerevisiae. The units participate in many important cellular processes such as transcription regulation, translation initiation, and mRNA splicing. Within the units the domains were found to function in a cooperative manner; and each domain contributed to a different aspect of the unit's overall function. The member domains of DASSEM units were found to be significantly enriched among proteins contained in transcription modules, defined as genes sharing similar expression profiles and presumably similar functions. The observation further confirmed the functional coherence of DASSEM units. The functional linkages of units were found in both functionally characterized and uncharacterized proteins, which enabled the assessment of protein function based on domain composition., Conclusion: A new computational method was developed to identify groups of domains that are linked by a common function in the proteome of Saccharomyces cerevisiae. These groups can either lie within individual proteins or span across different proteins. We propose that the functional linkages among the domains within the DASSEM units can be used as a non-homology based tool to annotate uncharacterized proteins. more...

Published
2007
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54. Current progress in computational metabolomics.

Author

Wishart DS

Subjects
Combinatorial Chemistry Techniques trends, Computational Biology trends, Databases, Protein trends, Gene Expression Profiling methods, Metabolism, Protein Interaction Mapping trends, Proteome metabolism, Proteomics trends
Abstract

Being a relatively new addition to the 'omics' field, metabolomics is still evolving its own computational infrastructure and assessing its own computational needs. Due to its strong emphasis on chemical information and because of the importance of linking that chemical data to biological consequences, metabolomics must combine elements of traditional bioinformatics with traditional cheminformatics. This is a significant challenge as these two fields have evolved quite separately and require very different computational tools and skill sets. This review is intended to familiarize readers with the field of metabolomics and to outline the needs, the challenges and the recent progress being made in four areas of computational metabolomics: (i) metabolomics databases; (ii) metabolomics LIMS; (iii) spectral analysis tools for metabolomics and (iv) metabolic modeling. more...

Published
2007
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55. Predicting active site residue annotations in the Pfam database.

Author

Mistry J, Bateman A, and Finn RD

Subjects
Amino Acid Sequence, Binding Sites, Molecular Sequence Data, Predictive Value of Tests, Sequence Alignment methods, Sequence Alignment trends, Sequence Homology, Amino Acid, Software Design, Databases, Protein trends
Abstract

Background: Approximately 5% of Pfam families are enzymatic, but only a small fraction of the sequences within these families (<0.5%) have had the residues responsible for catalysis determined. To increase the active site annotations in the Pfam database, we have developed a strict set of rules, chosen to reduce the rate of false positives, which enable the transfer of experimentally determined active site residue data to other sequences within the same Pfam family., Description: We have created a large database of predicted active site residues. On comparing our active site predictions to those found in UniProtKB, Catalytic Site Atlas, PROSITE and MEROPS we find that we make many novel predictions. On investigating the small subset of predictions made by these databases that are not predicted by us, we found these sequences did not meet our strict criteria for prediction. We assessed the sensitivity and specificity of our methodology and estimate that only 3% of our predicted sequences are false positives., Conclusion: We have predicted 606110 active site residues, of which 94% are not found in UniProtKB, and have increased the active site annotations in Pfam by more than 200 fold. Although implemented for Pfam, the tool we have developed for transferring the data can be applied to any alignment with associated experimental active site data and is available for download. Our active site predictions are re-calculated at each Pfam release to ensure they are comprehensive and up to date. They provide one of the largest available databases of active site annotation. more...

Published
2007
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56. Realism about PDB.

Author

Berman HM, Henrick K, Nakamura H, Markley J, Bourne PE, and Westbrook J

Subjects
Models, Theoretical, Quality Control, Database Management Systems, Databases, Protein trends, Information Dissemination methods, Information Storage and Retrieval methods
Published
2007
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57. Clustered sequence representation for fast homology search.

Author

Cameron M, Bernstein Y, and Williams HE

Subjects
Amino Acid Sequence, Animals, Humans, Molecular Sequence Data, Sequence Alignment trends, Sequence Analysis, Protein trends, Databases, Protein trends, Sequence Alignment methods, Sequence Analysis, Protein methods, Sequence Homology, Amino Acid
Abstract

We present a novel approach to managing redundancy in sequence databanks such as GenBank. We store clusters of near-identical sequences as a representative union-sequence and a set of corresponding edits to that sequence. During search, the query is compared to only the union-sequences representing each cluster; cluster members are then only reconstructed and aligned if the union-sequence achieves a sufficiently high score. Using this approach with BLAST results in a 27% reduction in collection size and a corresponding 22% decrease in search time with no significant change in accuracy. We also describe our method for clustering that uses fingerprinting, an approach that has been successfully applied to collections of text and web documents in Information Retrieval. Our clustering approach is ten times faster on the GenBank nonredundant protein database than the fastest existing approach, CD-HIT. We have integrated our approach into FSA-BLAST, our new Open Source version of BLAST (available from http://www.fsa-blast.org/). As a result, FSA-BLAST is twice as fast as NCBI-BLAST with no significant change in accuracy. more...

Published
2007
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58. Walking through the protein sequence space: towards new generation of the homology modeling.

Author

Frenkel ZM and Trifonov EN

Subjects
Amino Acid Sequence, Databases, Protein trends, Models, Genetic, Models, Molecular, Proteomics methods, Proteomics trends, Evolution, Molecular, Proteins chemistry, Structural Homology, Protein
Abstract

A new method is proposed to reveal apparent evolutionary relationships between protein fragments with similar 3D structures by finding "intermediate" sequences in the proteomic database. Instead of looking for homologies and intermediates for a whole protein domain, we build a chain of intermediate short sequences, which allows one to link similar structural modules of proteins belonging to the same or different families. Several such chains of intermediates can be combined into an evolutionary tree of structural protein modules. All calculations were made for protein fragments of 20 aa residues. Three evolutionary trees for different module structures are described. The aim of the paper is to introduce the new method and to demonstrate its potential for protein structural predictions. The approach also opens new perspectives for protein evolution studies., ((c) 2007 Wiley-Liss, Inc.) more...

Published
2007
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60. Growth of novel protein structural data.

Author

Levitt M

Subjects
Amino Acid Sequence, Cluster Analysis, Proteins classification, Sequence Homology, Databases, Protein statistics & numerical data, Databases, Protein trends, Proteins chemistry, Proteomics trends
Abstract

Contrary to popular assumption, the rate of growth of structural data has slowed, and the Protein Data Bank (PDB) has not been growing exponentially since 1995. Reaching such a dramatic conclusion requires careful measurement of growth of novel structures, which can be achieved by clustering entry sequences, or by using a novel index to down-weight entries with a higher number of sequence neighbors. These measures agree, and growth rates are very similar for entire PDB files, clusters, and weighted chains. The overall sizes of Structural Classification of Proteins (SCOP) categories (number of families, superfamilies, and folds) appear to be directly proportional to the number of deposited PDB files. Using our weighted chain count, which is most correlated to the change in the size of each SCOP category in any time period, shows that the rate of increase of SCOP categories is actually slowing down. This enables the final size of each of these SCOP categories to be predicted without examining or comparing protein structures. In the last 3 years, structures solved by structural genomics (SG) initiatives, especially the United States National Institutes of Health Protein Structure Initiative, have begun to redress the slowing growth of the PDB. Structures solved by SG are 3.8 times less sequence-redundant than typical PDB structures. Since mid-2004, SG programs have contributed half the novel structures measured by weighted chain counts. Our analysis does not rely on visual inspection of coordinate sets: it is done automatically, providing an accurate, up-to-date measure of the growth of novel protein structural data. more...

Published
2007
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61. New friendly tools for users of ESTHER, the database of the alpha/beta-hydrolase fold superfamily of proteins.

Author

Renault L, Nègre V, Hotelier T, Cousin X, Marchot P, and Chatonnet A

Subjects
Cholinesterases chemistry, Cholinesterases classification, Cholinesterases genetics, Cholinesterases metabolism, Humans, Hydrolases genetics, Hydrolases metabolism, Internet, Markov Chains, Protein Conformation, Protein Folding, Computational Biology methods, Databases, Protein trends, Hydrolases chemistry, Hydrolases classification
Abstract

The structural alpha/beta-hydrolase fold is characterized by a beta-sheet core of five to eight strands connected by alpha-helices to form a alpha/beta/alpha sandwich. The superfamily members, exemplified by the cholinesterases, diverged from a common ancestor into a number of hydrolytic enzymes displaying a wide range of substrate specificities, along with proteins with no recognized hydrolytic activity. In the enzymes, the catalytic triad residues are presented on loops of which one, the nucleophile elbow, is the most conserved feature of the fold. Of the other proteins, which all lack from one to all of the catalytic residues, some may simply be 'inactive' enzymes while others have been shown to be involved in heterologous surface recognition functions. The ESTHER (for esterases, alpha/beta-hydrolase enzymes and relatives) database (http://bioweb.ensam.inra.fr.esther) gathers and annotates all the published pieces of information (gene and protein sequences; biochemical, pharmacological, and structural data) related to the superfamily, and connects them together to provide the bases for studying structure-function relationships within the superfamily. The most recent developments of the database are presented. more...

Published
2005
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63. Databases in peril.

Subjects
Canada, Data Collection economics, Databases, Factual trends, Databases, Protein economics, Databases, Protein trends, Europe, National Institutes of Health (U.S.) economics, Singapore, United States, Databases, Factual economics
Published
2005
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64. A bioinformatics perspective on proteomics: data storage, analysis, and integration.

Author

Kremer A, Schneider R, and Terstappen GC

Subjects
Computational Biology trends, Databases, Protein trends, Proteomics trends, Computational Biology methods, Information Storage and Retrieval methods, Proteomics methods, Statistics as Topic methods
Abstract

The field of proteomics is advancing rapidly as a result of powerful new technologies and proteomics experiments yield a vast and increasing amount of information. Data regarding protein occurrence, abundance, identity, sequence, structure, properties, and interactions need to be stored. Currently, a common standard has not yet been established and open access to results is needed for further development of robust analysis algorithms. Databases for proteomics will evolve from pure storage into knowledge resources, providing a repository for information (meta-data) which is mainly not stored in simple flat files. This review will shed light on recent steps towards the generation of a common standard in proteomics data storage and integration, but is not meant to be a comprehensive overview of all available databases and tools in the proteomics community. more...

Published
2005
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65. InterPro, progress and status in 2005.

Author

Mulder NJ, Apweiler R, Attwood TK, Bairoch A, Bateman A, Binns D, Bradley P, Bork P, Bucher P, Cerutti L, Copley R, Courcelle E, Das U, Durbin R, Fleischmann W, Gough J, Haft D, Harte N, Hulo N, Kahn D, Kanapin A, Krestyaninova M, Lonsdale D, Lopez R, Letunic I, Madera M, Maslen J, McDowall J, Mitchell A, Nikolskaya AN, Orchard S, Pagni M, Ponting CP, Quevillon E, Selengut J, Sigrist CJ, Silventoinen V, Studholme DJ, Vaughan R, and Wu CH more...

Subjects
Humans, Protein Structure, Tertiary, Sequence Alignment, Systems Integration, Databases, Protein trends, Proteins chemistry, Proteins classification, Sequence Analysis, Protein
Abstract

InterPro, an integrated documentation resource of protein families, domains and functional sites, was created to integrate the major protein signature databases. Currently, it includes PROSITE, Pfam, PRINTS, ProDom, SMART, TIGRFAMs, PIRSF and SUPERFAMILY. Signatures are manually integrated into InterPro entries that are curated to provide biological and functional information. Annotation is provided in an abstract, Gene Ontology mapping and links to specialized databases. New features of InterPro include extended protein match views, taxonomic range information and protein 3D structure data. One of the new match views is the InterPro Domain Architecture view, which shows the domain composition of protein matches. Two new entry types were introduced to better describe InterPro entries: these are active site and binding site. PIRSF and the structure-based SUPERFAMILY are the latest member databases to join InterPro, and CATH and PANTHER are soon to be integrated. InterPro release 8.0 contains 11 007 entries, representing 2573 domains, 8166 families, 201 repeats, 26 active sites, 21 binding sites and 20 post-translational modification sites. InterPro covers over 78% of all proteins in the Swiss-Prot and TrEMBL components of UniProt. The database is available for text- and sequence-based searches via a webserver (http://www.ebi.ac.uk/interpro), and for download by anonymous FTP (ftp://ftp.ebi.ac.uk/pub/databases/interpro). more...

Published
2005
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66. PRECISE: a Database of Predicted and Consensus Interaction Sites in Enzymes.

Author

Sheu SH, Lancia DR Jr, Clodfelter KH, Landon MR, and Vajda S

Subjects
Amino Acid Sequence, Binding Sites, Catalytic Domain, Consensus Sequence, Enzymes metabolism, Internet, Ligands, Sequence Homology, Amino Acid, User-Computer Interface, Databases, Protein trends, Enzymes chemistry
Abstract

PRECISE (Predicted and Consensus Interaction Sites in Enzymes) is a database of interactions between the amino acid residues of an enzyme and its ligands (substrate and transition state analogs, cofactors, inhibitors and products). It is available online at http://precise.bu.edu/. In the current version, all information on interactions is extracted from the enzyme-ligand complexes in the Protein Data Bank (PDB) by performing the following steps: (i) clustering homologous enzyme chains such that, in each cluster, the proteins have the same EC number and all sequences are similar; (ii) selecting a representative chain for each cluster; (iii) selecting ligand types; (iv) finding non-bonded interactions and hydrogen bonds; and (v) summing the interactions for all chains within the cluster. The output of the search is the color-coded sequence of the representative. The colors indicate the total number of interactions found at each amino acid position in all chains of the cluster. Clicking on a residue displays a detailed list of interactions for that residue. Optional filters allow restricting the output to selected chains in the cluster, to non-bonded or hydrogen bonding interactions, and to selected ligand types. The binding site information is essential for understanding and altering substrate specificity and for the design of enzyme inhibitors. more...

Published
2005
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67. The Swiss-Prot protein knowledgebase and ExPASy: providing the plant community with high quality proteomic data and tools.

Author

Schneider M, Tognolli M, and Bairoch A

Subjects
Computational Biology methods, Genome, Plant, Arabidopsis genetics, Arabidopsis Proteins genetics, Databases, Protein trends, Online Systems trends, Software
Abstract

The Swiss-Prot protein knowledgebase provides manually annotated entries for all species, but concentrates on the annotation of entries from model organisms to ensure the presence of high quality annotation of representative members of all protein families. A specific Plant Protein Annotation Program (PPAP) was started to cope with the increasing amount of data produced by the complete sequencing of plant genomes. Its main goal is the annotation of proteins from the model plant organism Arabidopsis thaliana. In addition to bibliographic references, experimental results, computed features and sometimes even contradictory conclusions, direct links to specialized databases connect amino acid sequences with the current knowledge in plant sciences. As protein families and groups of plant-specific proteins are regularly reviewed to keep up with current scientific findings, we hope that the wealth of information of Arabidopsis origin accumulated in our knowledgebase, and the numerous software tools provided on the Expert Protein Analysis System (ExPASy) web site might help to identify and reveal the function of proteins originating from other plants. Recently, a single, centralized, authoritative resource for protein sequences and functional information, UniProt, was created by joining the information contained in Swiss-Prot, Translation of the EMBL nucleotide sequence (TrEMBL), and the Protein Information Resource-Protein Sequence Database (PIR-PSD). A rising problem is that an increasing number of nucleotide sequences are not being submitted to the public databases, and thus the proteins inferred from such sequences will have difficulties finding their way to the Swiss-Prot or TrEMBL databases. more...

Published
2004
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68. PEDRo: a database for storing, searching and disseminating experimental proteomics data.

Author

Garwood K, McLaughlin T, Garwood C, Joens S, Morrison N, Taylor CF, Carroll K, Evans C, Whetton AD, Hart S, Stead D, Yin Z, Brown AJ, Hesketh A, Chater K, Hansson L, Mewissen M, Ghazal P, Howard J, Lilley KS, Gaskell SJ, Brass A, Hubbard SJ, Oliver SG, and Paton NW more...

Subjects
Animals, Arabidopsis Proteins chemistry, Bacterial Proteins chemistry, Candida albicans chemistry, Candida albicans pathogenicity, Candida glabrata chemistry, Candida glabrata pathogenicity, Computational Biology methods, Fungal Proteins chemistry, Helminth Proteins chemistry, Jejunal Diseases parasitology, Mice, Proteins chemistry, Saccharomyces cerevisiae Proteins chemistry, Software Design, Streptomyces coelicolor chemistry, Trichinella spiralis pathogenicity, Trichinellosis pathology, Database Management Systems trends, Databases, Protein trends, Proteomics
Abstract

Background: Proteomics is rapidly evolving into a high-throughput technology, in which substantial and systematic studies are conducted on samples from a wide range of physiological, developmental, or pathological conditions. Reference maps from 2D gels are widely circulated. However, there is, as yet, no formally accepted standard representation to support the sharing of proteomics data, and little systematic dissemination of comprehensive proteomic data sets., Results: This paper describes the design, implementation and use of a Proteome Experimental Data Repository (PEDRo), which makes comprehensive proteomics data sets available for browsing, searching and downloading. It is also serves to extend the debate on the level of detail at which proteomics data should be captured, the sorts of facilities that should be provided by proteome data management systems, and the techniques by which such facilities can be made available., Conclusions: The PEDRo database provides access to a collection of comprehensive descriptions of experimental data sets in proteomics. Not only are these data sets interesting in and of themselves, they also provide a useful early validation of the PEDRo data model, which has served as a starting point for the ongoing standardisation activity through the Proteome Standards Initiative of the Human Proteome Organisation. more...

Published
2004
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69. Protein Data Bank depositions from synchrotron sources.

Author

Jiang J and Sweet RM

Subjects
Crystallography, X-Ray trends, Databases, Protein trends, Information Storage and Retrieval trends, Internationality, Protein Conformation, Proteins analysis, Proteins classification, Crystallography, X-Ray methods, Crystallography, X-Ray statistics & numerical data, Databases, Protein statistics & numerical data, Information Storage and Retrieval statistics & numerical data, Proteins chemistry, Synchrotrons statistics & numerical data
Abstract

A survey and analysis of Protein Data Bank (PDB) depositions from international synchrotron radiation facilities, based on the latest released PDB entries, are reported. The results (http://asdp.bnl.gov/asda/Libraries/) show that worldwide, every year since 1999, more than 50% of the deposited X-ray structures have used synchrotron facilities, reaching 75% by 2003. In this web-based database, all PDB entries among individual synchrotron beamlines are archived, synchronized with the weekly PDB release. Statistics regarding the quality of experimental data and the refined model for all structures are presented, and these are analysed to reflect the impact of synchrotron sources. The results confirm the common impression that synchrotron sources extend the size of structures that can be solved with equivalent or better quality than home sources. more...

Published
2004
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70. Automated protein structure homology modeling: a progress report.

Author

Kopp J and Schwede T

Subjects
Animals, Databases, Protein statistics & numerical data, Humans, Models, Chemical, Computer Simulation, Databases, Protein trends, Models, Molecular, Program Development, Structural Homology, Protein
Abstract

Understanding the molecular function of proteins is greatly enhanced by insights gained from their three-dimensional structures. Since experimental structures are only available for a small fraction of proteins, computational methods for protein structure modeling play an increasingly important role. Comparative protein structure modeling is currently the most accurate method, yielding models suitable for a wide spectrum of applications, such as structure-guided drug development or virtual screening. Stable and reliable automated prediction pipelines have been developed to apply large-scale comparative modeling to whole genomes or entire sequence databases. Model repositories give access to these annotated and evaluated models. In this review, we will discuss recent developments in automated comparative modeling and provide selected examples illustrating the use of homology models. more...

Published
2004
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71. The Swiss-Prot variant page and the ModSNP database: a resource for sequence and structure information on human protein variants.

Author

Yip YL, Scheib H, Diemand AV, Gattiker A, Famiglietti LM, Gasteiger E, and Bairoch A

Subjects
Genetic Variation, Humans, Internet, Polymorphism, Genetic, Proteins chemistry, Proteins genetics, Sequence Analysis, Protein, Amino Acid Substitution, Databases, Protein statistics & numerical data, Databases, Protein trends, Mutation, Missense, Structural Homology, Protein
Abstract

Missense mutation leading to single amino acid polymorphism (SAP) is the type of mutation most frequently related to human diseases. The Swiss-Prot protein knowledgebase records information on such mutations in various sections of a protein entry, namely in the "feature," "comment," and "reference" fields. To facilitate users in obtaining the most relevant information about each human SAP recorded in the knowledgebase, the Swiss-Prot Variant web pages were created to provide a summary of available sequence information, as well as additional structural information on each variant. In particular, the ModSNP database was set up to store information related to SAPs and to manage the modeling of SAPs onto protein structures via an automatic homology modeling pipeline. Currently, among the 16,566 human SAPs recorded in the Swiss-Prot knowledgebase (release 42.5, 21 November 2003), more than 25% have corresponding 3D-models. Of these variants, 47% are related to disease, 26% are polymorphisms, and 27% are not yet clearly classified. The ModSNP database is updated and the subsequent model construction pipeline is launched with each weekly Swiss-Prot release. Thus, the ModSNP database represents a valuable resource for the structural analysis of protein variation. The Swiss-Prot variant pages are accessible from the NiceProt view of a Swiss-Prot entry on the ExPASy server (www.expasy.org/), via a hyperlink created for the stable and unique identifier FTId of each human SAP., (Copyright 2004 Wiley-Liss, Inc.) more...

Published
2004
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72. SUPFAM: a database of sequence superfamilies of protein domains.

Author

Pandit SB, Bhadra R, Gowri VS, Balaji S, Anand B, and Srinivasan N

Subjects
Computational Biology methods, Protein Structure, Tertiary, Amino Acid Sequence, Databases, Protein trends, Peptides chemistry, Proteins chemistry
Abstract

Background: SUPFAM database is a compilation of superfamily relationships between protein domain families of either known or unknown 3-D structure. In SUPFAM, sequence families from Pfam and structural families from SCOP are associated, using profile matching, to result in sequence superfamilies of known structure. Subsequently all-against-all family profile matches are made to deduce a list of new potential superfamilies of yet unknown structure., Description: The current version of SUPFAM (release 1.4) corresponds to significant enhancements and major developments compared to the earlier and basic version. In the present version we have used RPS-BLAST, which is robust and sensitive, for profile matching. The reliability of connections between protein families is ensured better than before by use of benchmarked criteria involving strict e-value cut-off and a minimal alignment length condition. An e-value based indication of reliability of connections is now presented in the database. Web access to a RPS-BLAST-based tool to associate a query sequence to one of the family profiles in SUPFAM is available with the current release. In terms of the scientific content the present release of SUPFAM is entirely reorganized with the use of 6190 Pfam families and 2317 structural families derived from SCOP. Due to a steep increase in the number of sequence and structural families used in SUPFAM the details of scientific content in the present release are almost entirely complementary to previous basic version. Of the 2286 families, we could relate 245 Pfam families with apparently no structural information to families of known 3-D structures, thus resulting in the identification of new families in the existing superfamilies. Using the profiles of 3904 Pfam families of yet unknown structure, an all-against-all comparison involving sequence-profile match resulted in clustering of 96 Pfam families into 39 new potential superfamilies., Conclusion: SUPFAM presents many non-trivial superfamily relationships of sequence families involved in a variety of functions and hence the information content is of interest to a wide scientific community. The grouping of related proteins without a known structure in SUPFAM is useful in identifying priority targets for structural genomics initiatives and in the assignment of putative functions. Database URL: http://pauling.mbu.iisc.ernet.in/~supfam. more...

Published
2004
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73. The state of the Protein Structure Initiative.

Author

Lattman E

Subjects
Advisory Committees, Animals, Computational Biology trends, Genomics education, Humans, Pilot Projects, Proteomics education, Proteomics trends, Research education, Structure-Activity Relationship, Databases, Protein trends, Genomics trends, Protein Conformation, Proteins chemistry, Proteins metabolism, Research trends
Published
2004
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74. Call for an enzyme genomics initiative.

Author

Karp PD

Subjects
Animals, Cloning, Molecular, Databases, Protein trends, Enzymes classification, Enzymes metabolism, Sequence Analysis trends, Enzymes chemistry, Enzymes genetics, Genomics trends
Abstract

I propose an Enzyme Genomics Initiative, the goal of which is to obtain at least one protein sequence for each enzyme that has previously been characterized biochemically. There are 1,437 enzyme activities for which Enzyme Commission (EC) numbers have been assigned but no sequence can be found in public protein-sequence databases. more...

Published
2004
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75. A first-draft human protein-interaction map.

Author

Lehner B and Fraser AG

Subjects
Databases, Protein trends, Genes physiology, Humans, Predictive Value of Tests, Reproducibility of Results, Sensitivity and Specificity, Protein Interaction Mapping methods
Abstract

Background: Protein-interaction maps are powerful tools for suggesting the cellular functions of genes. Although large-scale protein-interaction maps have been generated for several invertebrate species, projects of a similar scale have not yet been described for any mammal. Because many physical interactions are conserved between species, it should be possible to infer information about human protein interactions (and hence protein function) using model organism protein-interaction datasets., Results: Here we describe a network of over 70,000 predicted physical interactions between around 6,200 human proteins generated using the data from lower eukaryotic protein-interaction maps. The physiological relevance of this network is supported by its ability to preferentially connect human proteins that share the same functional annotations, and we show how the network can be used to successfully predict the functions of human proteins. We find that combining interaction datasets from a single organism (but generated using independent assays) and combining interaction datasets from two organisms (but generated using the same assay) are both very effective ways of further improving the accuracy of protein-interaction maps., Conclusions: The complete network predicts interactions for a third of human genes, including 448 human disease genes and 1,482 genes of unknown function, and so provides a rich framework for biomedical research. more...

Published
2004
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77. Development of human protein reference database as an initial platform for approaching systems biology in humans.

Author

Peri S, Navarro JD, Amanchy R, Kristiansen TZ, Jonnalagadda CK, Surendranath V, Niranjan V, Muthusamy B, Gandhi TK, Gronborg M, Ibarrola N, Deshpande N, Shanker K, Shivashankar HN, Rashmi BP, Ramya MA, Zhao Z, Chandrika KN, Padma N, Harsha HC, Yatish AJ, Kavitha MP, Menezes M, Choudhury DR, Suresh S, Ghosh N, Saravana R, Chandran S, Krishna S, Joy M, Anand SK, Madavan V, Joseph A, Wong GW, Schiemann WP, Constantinescu SN, Huang L, Khosravi-Far R, Steen H, Tewari M, Ghaffari S, Blobe GC, Dang CV, Garcia JG, Pevsner J, Jensen ON, Roepstorff P, Deshpande KS, Chinnaiyan AM, Hamosh A, Chakravarti A, and Pandey A more...

Subjects
BRCA1 Protein physiology, Computational Biology methods, Genetics, Medical methods, Humans, Macromolecular Substances, Protein Interaction Mapping trends, Protein Processing, Post-Translational physiology, Protein Structure, Quaternary physiology, Protein Structure, Tertiary physiology, Substrate Specificity physiology, Databases, Protein trends
Abstract

Human Protein Reference Database (HPRD) is an object database that integrates a wealth of information relevant to the function of human proteins in health and disease. Data pertaining to thousands of protein-protein interactions, posttranslational modifications, enzyme/substrate relationships, disease associations, tissue expression, and subcellular localization were extracted from the literature for a nonredundant set of 2750 human proteins. Almost all the information was obtained manually by biologists who read and interpreted >300,000 published articles during the annotation process. This database, which has an intuitive query interface allowing easy access to all the features of proteins, was built by using open source technologies and will be freely available at http://www.hprd.org to the academic community. This unified bioinformatics platform will be useful in cataloging and mining the large number of proteomic interactions and alterations that will be discovered in the postgenomic era. more...

Published
2003
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78. The COG database: an updated version includes eukaryotes.

Author

Tatusov RL, Fedorova ND, Jackson JD, Jacobs AR, Kiryutin B, Koonin EV, Krylov DM, Mazumder R, Mekhedov SL, Nikolskaya AN, Rao BS, Smirnov S, Sverdlov AV, Vasudevan S, Wolf YI, Yin JJ, and Natale DA

Subjects
Animals, Databases, Nucleic Acid trends, Evolution, Molecular, Humans, National Institutes of Health (U.S.), Proteins physiology, Terminology as Topic, United States, Databases, Protein trends, Eukaryotic Cells chemistry, Eukaryotic Cells physiology, Proteins classification, Proteins genetics
Abstract

Background: The availability of multiple, essentially complete genome sequences of prokaryotes and eukaryotes spurred both the demand and the opportunity for the construction of an evolutionary classification of genes from these genomes. Such a classification system based on orthologous relationships between genes appears to be a natural framework for comparative genomics and should facilitate both functional annotation of genomes and large-scale evolutionary studies., Results: We describe here a major update of the previously developed system for delineation of Clusters of Orthologous Groups of proteins (COGs) from the sequenced genomes of prokaryotes and unicellular eukaryotes and the construction of clusters of predicted orthologs for 7 eukaryotic genomes, which we named KOGs after eukaryotic orthologous groups. The COG collection currently consists of 138,458 proteins, which form 4873 COGs and comprise 75% of the 185,505 (predicted) proteins encoded in 66 genomes of unicellular organisms. The eukaryotic orthologous groups (KOGs) include proteins from 7 eukaryotic genomes: three animals (the nematode Caenorhabditis elegans, the fruit fly Drosophila melanogaster and Homo sapiens), one plant, Arabidopsis thaliana, two fungi (Saccharomyces cerevisiae and Schizosaccharomyces pombe), and the intracellular microsporidian parasite Encephalitozoon cuniculi. The current KOG set consists of 4852 clusters of orthologs, which include 59,838 proteins, or approximately 54% of the analyzed eukaryotic 110,655 gene products. Compared to the coverage of the prokaryotic genomes with COGs, a considerably smaller fraction of eukaryotic genes could be included into the KOGs; addition of new eukaryotic genomes is expected to result in substantial increase in the coverage of eukaryotic genomes with KOGs. Examination of the phyletic patterns of KOGs reveals a conserved core represented in all analyzed species and consisting of approximately 20% of the KOG set. This conserved portion of the KOG set is much greater than the ubiquitous portion of the COG set (approximately 1% of the COGs). In part, this difference is probably due to the small number of included eukaryotic genomes, but it could also reflect the relative compactness of eukaryotes as a clade and the greater evolutionary stability of eukaryotic genomes., Conclusion: The updated collection of orthologous protein sets for prokaryotes and eukaryotes is expected to be a useful platform for functional annotation of newly sequenced genomes, including those of complex eukaryotes, and genome-wide evolutionary studies. more...

Published
2003
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79. Inferring higher functional information for RIKEN mouse full-length cDNA clones with FACTS.

Author

Nagashima T, Silva DG, Petrovsky N, Socha LA, Suzuki H, Saito R, Kasukawa T, Kurochkin IV, Konagaya A, and Schönbach C

Subjects
Animals, DNA, Complementary genetics, Databases, Protein trends, Information Storage and Retrieval methods, Information Storage and Retrieval trends, MEDLINE trends, Mice, Protein Interaction Mapping methods, Protein Interaction Mapping trends, DNA, Complementary physiology, Databases, Genetic trends, Information Management methods, Information Management trends, Software trends
Abstract

FACTS (Functional Association/Annotation of cDNA Clones from Text/Sequence Sources) is a semiautomated knowledge discovery and annotation system that integrates molecular function information derived from sequence analysis results (sequence inferred) with functional information extracted from text. Text-inferred information was extracted from keyword-based retrievals of MEDLINE abstracts and by matching of gene or protein names to OMIM, BIND, and DIP database entries. Using FACTS, we found that 47.5% of the 60,770 RIKEN mouse cDNA FANTOM2 clone annotations were informative for text searches. MEDLINE queries yielded molecular interaction-containing sentences for 23.1% of the clones. When disease MeSH and GO terms were matched with retrieved abstracts, 22.7% of clones were associated with potential diseases, and 32.5% with GO identifiers. A significant number (23.5%) of disease MeSH-associated clones were also found to have a hereditary disease association (OMIM Morbidmap). Inferred neoplastic and nervous system disease represented 49.6% and 36.0% of disease MeSH-associated clones, respectively. A comparison of sequence-based GO assignments with informative text-based GO assignments revealed that for 78.2% of clones, identical GO assignments were provided for that clone by either method, whereas for 21.8% of clones, the assignments differed. In contrast, for OMIM assignments, only 28.5% of clones had identical sequence-based and text-based OMIM assignments. Sequence, sentence, and term-based functional associations are included in the FACTS database (http://facts.gsc.riken.go.jp/), which permits results to be annotated and explored through web-accessible keyword and sequence search interfaces. The FACTS database will be a critical tool for investigating the functional complexity of the mouse transcriptome, cDNA-inferred interactome (molecular interactions), and pathome (pathologies). more...

Published
2003
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80. The apoptosis database.

Author

Doctor KS, Reed JC, Godzik A, and Bourne PE

Subjects
Animals, Computational Biology methods, Computational Biology trends, Humans, Phylogeny, Protein Structure, Tertiary physiology, Proteins chemistry, Proteins physiology, Sequence Homology, Nucleic Acid, Software trends, Apoptosis physiology, Databases, Protein trends, Proteins classification
Abstract

The apoptosis database is a public resource for researchers and students interested in the molecular biology of apoptosis. The resource provides functional annotation, literature references, diagrams/images, and alternative nomenclatures on a set of proteins having 'apoptotic domains'. These are the distinctive domains that are often, if not exclusively, found in proteins involved in apoptosis. The initial choice of proteins to be included is defined by apoptosis experts and bioinformatics tools. Users can browse through the web accessible lists of domains, proteins containing these domains and their associated homologs. The database can also be searched by sequence homology using basic local alignment search tool, text word matches of the annotation, and identifiers for specific records. The resource is available at http://www.apoptosis-db.org and is updated on a regular basis. more...

Published
2003
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81. Modern proteomic strategies in the study of complex neuropsychiatric disorders.

Author

Rohlff C and Hollis K

Subjects
Databases, Protein trends, Genotype, Humans, Mental Disorders diagnosis, Mental Disorders therapy, Phenotype, Signal Transduction, Central Nervous System metabolism, Mental Disorders metabolism, Proteomics trends
Abstract

An insight into protein mechanisms involved in disease is critical to the discovery and design of new therapeutic tools. Direct protein analysis provides a method for studying the proteome of a tissue irrespective of an in-depth knowledge of its transcriptome. The development of a human central nervous system (CNS) proteome database ultimately will serve to accelerate the development of specific diagnostic and prognostic markers, neuropsychiatric disease markers, and the corresponding therapeutic tools. It may also reduce the uncertainties in in silico gene predictions by direct open reading frame verification and the ambiguities that experimental models of disease may provide. Advances in gel independent proteomic analyses by solid phase isotope tagging provide greater scope for the characterization of previously elusive membrane proteins; approximately half of all drug targets are key CNS membrane proteins. These advances hold great promise for improvements in the understanding, diagnosis, and therapy of central nervous system disorders. more...

Published
2003
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82. A comparison of Pfam and MEROPS: two databases, one comprehensive, and one specialised.

Author

Studholme DJ, Rawlings ND, Barrett AJ, and Bateman A

Subjects
Animals, Bacterial Proteins genetics, Caenorhabditis elegans Proteins genetics, Cysteine Endopeptidases genetics, Databases, Protein standards, Databases, Protein statistics & numerical data, Drosophila Proteins genetics, Multienzyme Complexes genetics, Mycobacterium tuberculosis genetics, Peptide Hydrolases genetics, Proteasome Endopeptidase Complex, Retroviridae genetics, Sensitivity and Specificity, Viral Proteins genetics, Databases, Protein trends
Abstract

Background: We wished to compare two databases based on sequence similarity: one that aims to be comprehensive in its coverage of known sequences, and one that specialises in a relatively small subset of known sequences. One of the motivations behind this study was quality control. Pfam is a comprehensive collection of alignments and hidden Markov models representing families of proteins and domains. MEROPS is a catalogue and classification of enzymes with proteolytic activity (peptidases or proteases). These secondary databases are used by researchers worldwide, yet their contents are not peer reviewed. Therefore, we hoped that a systematic comparison of the contents of Pfam and MEROPS would highlight missing members and false-positives leading to improvements in quality of both databases. An additional reason for carrying out this study was to explore the extent of consensus in the definition of a protein family., Results: About half (89 out of 174) of the peptidase families in MEROPS overlapped single Pfam families. A further 32 MEROPS families overlapped multiple Pfam families. Where possible, new Pfam families were built to represent most of the MEROPS families that did not overlap Pfam. When comparing the numbers of sequences found in the overlap between a MEROPS family and its corresponding Pfam family, in most cases the overlap was substantial (52 pairs of MEROPS and Pfam families had an intersection size of greater than 75% of the union) but there were some differences in the sets of sequences included in the MEROPS families versus the overlapping Pfam families., Conclusions: A number of the discrepancies between MEROPS families and their corresponding Pfam families arose from differences in the aims and philosophies of the two databases. Examination of some of the discrepancies highlighted additional members of families, which have subsequently been added in both Pfam and MEROPS. This has led to improvements in the quality of both databases. Overall there was a great deal of consensus between the databases in definitions of a protein family. more...

Published
2003
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83. The Gene Ontology Annotation (GOA) project: implementation of GO in SWISS-PROT, TrEMBL, and InterPro.

Author

Camon E, Magrane M, Barrell D, Binns D, Fleischmann W, Kersey P, Mulder N, Oinn T, Maslen J, Cox A, and Apweiler R

Subjects
Computational Biology trends, Database Management Systems trends, Databases, Protein trends, Genome, Human, Humans, Proteome classification, Proteome genetics, Computational Biology methods, Databases, Protein classification, Genomics trends, Proteomics trends, Vocabulary, Controlled
Abstract

Gene Ontology Annotation (GOA) is a project run by the European Bioinformatics Institute (EBI) that aims to provide assignments of terms from the Gene Ontology (GO) resource to gene products in a number of its databases (http://www.ebi.ac.uk/GOA). In the first stage of this project, GO assignments have been applied to a data set representing the complete human proteome by a combination of electronic mappings and manual curation. This vocabulary has also been applied to the nonredundant proteome sets for all other completely sequenced organisms as well as to proteins from a wide range of organisms where the proteome is not yet complete. more...

Published
2003
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84. PreBIND and Textomy--mining the biomedical literature for protein-protein interactions using a support vector machine.

Author

Donaldson I, Martin J, de Bruijn B, Wolting C, Lay V, Tuekam B, Zhang S, Baskin B, Bader GD, Michalickova K, Pawson T, and Hogue CW

Subjects
Algorithms, Computational Biology methods, Computational Biology statistics & numerical data, Databases, Factual trends, Databases, Protein trends, Genome, Fungal, Protein Interaction Mapping classification, Protein Interaction Mapping statistics & numerical data, PubMed classification, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins chemistry, Artificial Intelligence, Information Storage and Retrieval trends, Protein Interaction Mapping methods
Abstract

Background: The majority of experimentally verified molecular interaction and biological pathway data are present in the unstructured text of biomedical journal articles where they are inaccessible to computational methods. The Biomolecular interaction network database (BIND) seeks to capture these data in a machine-readable format. We hypothesized that the formidable task-size of backfilling the database could be reduced by using Support Vector Machine technology to first locate interaction information in the literature. We present an information extraction system that was designed to locate protein-protein interaction data in the literature and present these data to curators and the public for review and entry into BIND., Results: Cross-validation estimated the support vector machine's test-set precision, accuracy and recall for classifying abstracts describing interaction information was 92%, 90% and 92% respectively. We estimated that the system would be able to recall up to 60% of all non-high throughput interactions present in another yeast-protein interaction database. Finally, this system was applied to a real-world curation problem and its use was found to reduce the task duration by 70% thus saving 176 days., Conclusions: Machine learning methods are useful as tools to direct interaction and pathway database back-filling; however, this potential can only be realized if these techniques are coupled with human review and entry into a factual database such as BIND. The PreBIND system described here is available to the public at http://bind.ca. Current capabilities allow searching for human, mouse and yeast protein-interaction information. more...

Published
2003
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85. The Protein Data Bank.

Subjects
Computational Biology, Crystallography, X-Ray, Electronic Data Processing, History, 20th Century, History, 21st Century, Internet, Nuclear Magnetic Resonance, Biomolecular, Proteins chemistry, Databases, Protein history, Databases, Protein trends
Published
2003

86. Structural genomics.

Author

Burley SK and Bonanno JB

Subjects
Amino Acid Sequence, Animals, Carboxy-Lyases chemistry, Carboxy-Lyases genetics, Computational Biology trends, Computer Simulation, Databases, Protein trends, Evolution, Molecular, Humans, Models, Molecular, Molecular Sequence Data, Pilot Projects, Proteomics trends, Saccharomyces cerevisiae enzymology, Saccharomyces cerevisiae genetics, Sequence Alignment, Software Design, Proteins chemistry, Proteins genetics
Published
2003

87. Other structure-based databases.

Author

Weissig H and Bourne PE

Subjects
Computational Biology, Crystallography, X-Ray, Genomics, Molecular Structure, Proteins chemistry, Databases, Nucleic Acid trends, Databases, Protein trends
Published
2003

88. The evolution of structural databases.

Author

Carugo O and Pongor S

Subjects
Database Management Systems, Databases, Genetic classification, Databases, Genetic trends, International Cooperation, Proteins physiology, Computer Communication Networks trends, Databases, Protein classification, Databases, Protein trends, Information Storage and Retrieval methods, Information Storage and Retrieval trends, Proteins chemistry
Abstract

Starting with the Protein Data Bank (PDB) as a common ancestor, the evolution of structural databases has been driven by the rapprochement of the structural world and the practical applications. The result is an impressive number of secondary structural databases that is welcomed by structural biologists and bioinformaticians but runs the risk of producing an embarrassment of riches among non-specialist users. Given that any profit depends on the number of customers, efficient interfaces between many structural data banks must be available to make their contents easily accessible. Increasing the information content of central structural repositories might be the best way to guide users through the many, sometimes overlapping databases. more...

Published
2002
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89. Datamining protein structure databanks for crystallization patterns of proteins.

Author

Valafar H, Prestegard JH, and Valafar F

Subjects
Bayes Theorem, Crystallography, X-Ray, Escherichia coli Proteins chemistry, Magnetic Resonance Spectroscopy, Protein Conformation, Protein Structure, Secondary, Databases, Protein trends, Proteins chemistry
Abstract

A study of 345 protein structures selected among 1,500 structures determined by nuclear magnetic resonance (NMR) methods, revealed useful correlations between crystallization properties and several parameters for the studied proteins. NMR methods of structure determination do not require the growth of protein crystals, and hence allow comparison of properties of proteins that have or have not been the subject of crystallographic approaches. One- and two-dimensional statistical analyses of the data confirmed a hypothesized relation between the size of the molecule and its crystallization potential. Furthermore, two-dimensional Bayesian analysis revealed a significant relationship between relative ratio of different secondary structures and the likelihood of success for crystallization trials. The most immediate result is an apparent correlation of crystallization potential with protein size. Further analysis of the data revealed a relationship between the unstructured fraction of proteins and the success of its crystallization. Utilization of Bayesian analysis on the latter correlation resulted in a prediction performance of about 64%, whereas a two-dimensional Bayesian analysis succeeded with a performance of about 75%. more...

Published
2002
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90. SPINS: standardized protein NMR storage. A data dictionary and object-oriented relational database for archiving protein NMR spectra.

Author

Baran MC, Moseley HN, Sahota G, and Montelione GT

Subjects
Nuclear Magnetic Resonance, Biomolecular methods, Proteins standards, Archives, Databases, Protein standards, Databases, Protein statistics & numerical data, Databases, Protein trends, Proteins chemistry
Abstract

Modern protein NMR spectroscopy laboratories have a rapidly growing need for an easily queried local archival system of raw experimental NMR datasets. SPINS (Standardized ProteIn Nmr Storage) is an object-oriented relational database that provides facilities for high-volume NMR data archival, organization of analyses, and dissemination of results to the public domain by automatic preparation of the header files required for submission of data to the BioMagResBank (BMRB). The current version of SPINS coordinates the process from data collection to BMRB deposition of raw NMR data by standardizing and integrating the storage and retrieval of these data in a local laboratory file system. Additional facilities include a data mining query tool, graphical database administration tools, and a NMRStar v2. 1.1 file generator. SPINS also includes a user-friendly internet-based graphical user interface, which is optionally integrated with Varian VNMR NMR data collection software. This paper provides an overview of the data model underlying the SPINS database system, a description of its implementation in Oracle, and an outline of future plans for the SPINS project. more...

Published
2002
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91. NIH pledges cash for global protein database.

Author

Butler D

Subjects
Computational Biology trends, Databases, Protein trends, European Union, Switzerland, United Kingdom, United States, Computational Biology economics, Databases, Protein economics, Financing, Organized economics, National Institutes of Health (U.S.) economics
Published
2002
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92. Alignments grow, secondary structure prediction improves.

Author

Przybylski D and Rost B

Subjects
Databases, Protein trends, Protein Structure, Secondary, Sequence Alignment methods
Abstract

Using information from sequence alignments significantly improves protein secondary structure prediction. Typically, more divergent profiles yield better predictions. Recently, various groups have shown that accuracy can be improved significantly by using PSI-BLAST profiles to develop new prediction methods. Here, we focused on the influences of various alignment strategies on two 8-year-old PHD methods. The following results stood out. (i) PHD using pairwise alignments predicts about 72% of all residues correctly in one of the three states: helix, strand, and other. Using larger databases and PSI-BLAST raised accuracy to 75%. (ii) More than 60% of the improvement originated from the growth of current sequence databases; about 20% resulted from detailed changes in the alignment procedure (substitution matrix, thresholds, and gap penalties). Another 20% of the improvement resulted from carefully using iterated PSI-BLAST searches. (iii) It is of interest that we failed to improve prediction accuracy further when attempting to refine the alignment by dynamic programming (MaxHom and ClustalW). (iv) Improvement through family growth appears to saturate at some point. However, most families have not reached this saturation. Hence, we anticipate that prediction accuracy will continue to rise with database growth., (Copyright 2001 Wiley-Liss, Inc.) more...

Published
2002
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93. The past, present and future of genome-wide re-annotation.

Author

Ouzounis CA and Karp PD

Subjects
Computational Biology standards, Databases, Genetic standards, Databases, Genetic trends, Databases, Protein standards, Databases, Protein trends, Quality Control, Computational Biology trends, Genome
Abstract

Annotation, the process by which structural or functional information is inferred for genes or proteins, is crucial for obtaining value from genome sequences. We define the process of annotating a previously annotated genome sequence as 're-annotation', and examine the strengths and weaknesses of current manual and automatic genome-wide re-annotation approaches. more...

Published
2002
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94. The GRID: The General Repository for Interaction Datasets.

Author

Breitkreutz BJ, Stark C, and Tyers M

Subjects
Genes, Fungal genetics, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism, Software, User-Computer Interface, Databases, Genetic trends, Databases, Protein trends, Protein Interaction Mapping trends
Abstract

We have developed a relational database, called the General Repository for Interaction Datasets (The GRID; http://biodata.mshri.on.ca/grid) to archive and display physical, genetic and functional interactions. The GRID displays data-rich interaction tables for any protein of interest, combines literature-derived and high throughput interaction datasets, and is readily accessible via the World Wide Web. Interactions parsed in the GRID can be viewed in graphical form with a versatile visualization tool called Osprey. more...

Published
2002

95. Exploiting big biology: integrating large-scale biological data for function inference.

Author

Marcotte E and Date S

Subjects
Data Collection, Databases, Nucleic Acid trends, Databases, Protein trends, Information Storage and Retrieval, Sequence Analysis, DNA, Data Interpretation, Statistical, Genomics trends
Abstract

The amount of data produced by molecular biologists is growing at an exponential rate. Some of the fastest growing sets of data are measurements of gene expression, comparable in quantity only to gene sequences and the vast biological literature. Both gene expression data and sequence data offer hints as to the functions of thousands of newly discovered genes, but neither give complete answers. Therefore, much effort is being focused on integrating these large data sets and combining them with all available functional data to draw inferences about the functions of uncharacterised genes. This review discusses the most pertinent functional data for genome-wide functional inference and describes several methods by which these disparate data types are being integrated. more...

Published
2001
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96. VISTRAJ: exploring protein conformational space.

Author

Salama JJ, Feldman HJ, and Hogue CW

Subjects
Amino Acid Substitution genetics, Computer Simulation trends, Databases, Protein trends, Internet, Sequence Homology, Amino Acid, Protein Conformation, Software
Abstract

Unlabelled: VISTRAJ is an application which allows 3D visualization, manipulation and editing of protein conformational space using probabilistic maps of this space called 'trajectory distributions'. Trajectory distributions serve as input to FOLDTRAJ which samples protein structures based on the represented conformational space. VISTRAJ also allows FOLDTRAJ to be used as a tool for homology model creation, and structures may be generated containing post-translationally modified amino acids., Availability: Binaries are freely available for non-profit use as part of the FOLDTRAJ package at ftp://ftp.mshri.on.ca/pub/TraDES/foldtraj/. more...

Published
2001
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97. BioLayout--an automatic graph layout algorithm for similarity visualization.

Author

Enright AJ and Ouzounis CA

Subjects
Amino Acid Sequence, Databases, Protein statistics & numerical data, Databases, Protein trends, Image Processing, Computer-Assisted statistics & numerical data, Image Processing, Computer-Assisted trends, Imaging, Three-Dimensional statistics & numerical data, Imaging, Three-Dimensional trends, Software statistics & numerical data, Software trends, Algorithms, Computer Graphics statistics & numerical data, Computer Graphics trends
Abstract

Unlabelled: Graph layout is extensively used in the field of mathematics and computer science, however these ideas and methods have not been extended in a general fashion to the construction of graphs for biological data. To this end, we have implemented a version of the Fruchterman Rheingold graph layout algorithm, extensively modified for the purpose of similarity analysis in biology. This algorithm rapidly and effectively generates clear two (2D) or three-dimensional (3D) graphs representing similarity relationships such as protein sequence similarity. The implementation of the algorithm is general and applicable to most types of similarity information for biological data., Availability: BioLayout is available for most UNIX platforms at the following web-site: http://www.ebi.ac.uk/research/cgg/services/layout. more...

Published
2001
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