LEADER 07467oam 2200637 450 001 9910483058203321 005 20210521154302.0 010 $a3-540-75286-2 024 7 $a10.1007/978-3-540-75286-8 035 $a(CKB)1000000000490863 035 $a(SSID)ssj0000319367 035 $a(PQKBManifestationID)11236538 035 $a(PQKBTitleCode)TC0000319367 035 $a(PQKBWorkID)10337126 035 $a(PQKB)10839742 035 $a(DE-He213)978-3-540-75286-8 035 $a(MiAaPQ)EBC3063232 035 $a(MiAaPQ)EBC6414104 035 $a(PPN)123165407 035 $a(EXLCZ)991000000000490863 100 $a20210521d2007 uy 0 101 0 $aeng 135 $aurnn#008mamaa 181 $ctxt 182 $cc 183 $acr 200 00$aPattern recognition in bioinformatics $esecond IAPR international workshop, PRIB 2007, Singapore, October 1-2, 2007 : proceedings /$fJagath C. Rajapakse, Bertil Schmidt, Gwenn Volkert (eds.) 205 $a1st ed. 2007. 210 1$aBerlin, Germany ;$aNew York, New York :$cSpringer,$d[2007] 210 4$d©2007 215 $a1 online resource (XVIII, 410 p.) 225 1 $aLecture notes in computer science. Lecture notes in bioinformatics 300 $aBibliographic Level Mode of Issuance: Monograph 311 $a3-540-75285-4 320 $aIncludes bibliographical references and index. 327 $aSequence Analysis -- Automated Methods of Predicting the Function of Biological Sequences Using GO and Rough Set -- C-Based Design Methodology for FPGA Implementation of ClustalW MSA -- A Two-Phase ANN Method for Genome-Wide Detection of Hormone Response Elements -- An Expert Knowledge-Guided Mutation Operator for Genome-Wide Genetic Analysis Using Genetic Programming -- cDNA-Derived Amino Acid Sequence from Rat Brain A2aR Possesses Conserved Motifs PMNYM of  TM 5 Domain, Which May Be Involved in Dimerization of A2aR -- Strong GC and AT Skew Correlation in Chicken Genome -- Comparative Analysis of a Hierarchical Bayesian Method for Quantitative Trait Loci Analysis for the Arabidopsis Thaliana -- Prediction of Protein Structure, Interaction and Localization -- Using Decision Templates to Predict Subcellular Localization of Protein -- Generalized Schemata Theorem Incorporating Twin Removal for Protein Structure Prediction -- Using Fuzzy Support Vector Machine Network to Predict Low Homology Protein Structural Classes -- SVM-BetaPred: Prediction of Right-Handed ß-Helix Fold from Protein Sequence Using SVM -- Protein Fold Recognition Based Upon the Amino Acid Occurrence -- Using Efficient RBF Network to Identify Interface Residues Based on PSSM Profiles and Biochemical Properties -- Dynamic Outlier Exclusion Training Algorithm for Sequence Based Predictions in Proteins Using Neural Network -- Bioinformatics on ?-Barrel Membrane Proteins: Sequence and Structural Analysis, Discrimination and Prediction -- Estimation of Evolutionary Average Hydrophobicity Profile from a Family of Protein Sequences -- Gene Expression Analysis -- APMA Database for Affymetrix Target Sequences Mapping, Quality Assessment and Expression Data Mining -- Ensemble of Dissimilarity Based Classifiers for Cancerous Samples Classification -- Gene Expression Analysis of Leukemia Samples Using Visual Interpretation of Small Ensembles: A Case Study -- Ant-MST: An Ant-Based Minimum Spanning Tree for Gene Expression Data Clustering -- Integrating Gene Expression Data from Microarrays Using the Self-Organising Map and the Gene Ontology -- Order Preserving Clustering by Finding Frequent Orders in Gene Expression Data -- Correlation-Based Relevancy and Redundancy Measures for Efficient Gene Selection -- SVM-RFE with Relevancy and Redundancy Criteria for Gene Selection -- In Silico Expression Profiles of Human Endogenous Retroviruses -- Pathway Analysis -- A Framework for Path Analysis in Gene Regulatory Networks -- Transcriptional Gene Regulatory Network Reconstruction Through Cross Platform Gene Network Fusion -- Reconstruction of Protein-Protein Interaction Pathways by Mining Subject-Verb-Objects Intermediates -- Validation of Gene Regulatory Networks from Protein-Protein Interaction Data: Application to Cell-Cycle Regulation -- Medical Informatics -- Rough Sets and Fuzzy Sets Theory Applied to the Sequential Medical Diagnosis -- In silico Identification of Putative Drug Targets in Pseudomonas aeruginosa Through Metabolic Pathway Analysis -- Understanding Prediction Systems for HLA-Binding Peptides and T-Cell Epitope Identification -- Predicting Binding Peptides with Simultaneous Optimization of Entropy and Evolutionary Distance -- Bioimaging -- 3D Automated Nuclear Morphometric Analysis Using Active Meshes -- Time-Frequency Method Based Activation Detection in Functional MRI Time-Series -- High Performance Classification of Two Imagery Tasks in the Cue-Based Brain Computer Interface -- Human Brain Anatomical Connectivity Analysis Using Sequential Sampling and Resampling -- Classification of CT Brain Images of Head Trauma. 330 $aThe advancements of computational and informational techniques have enabled in silico testing of many lab-based experiments in life sciences before performing them in in vitro or in vivo. Though computational techniques are not capable of mimicking all wet-lab experiments, bioinformatics will inevitably play a major role in future medical practice. For example, in the pursuit of new drugs it can reduce the costs and complexity involved in expensive wet-lab experiments. It is expected that by 2010, sequencing of individual genomes will be affordable generating an unprecedented increase of life sciences data, in the form of sequences, expressions, networks, images, literature. Pattern recognition techniques lie at the heart of discovery of new insights into biological knowledge, as the presence of particular patterns or structure is often an indication of its function. The aim of the workshop series Pattern Recognition in Bioinformatics (PRIB) is to bring pattern recognition scientists and life scientists together to promote pattern recognition applications to solve life sciences problems. This volume presents the proceedings of the 2nd IAPR Workshop PRIB 2007 held in Singapore, October 1?2, 2007. It includes 38 technical contributions that were selected by the International Program Committee from 125 submissions. Each of these rigorously reviewed papers was presented orally at the workshop. The proceedings consists of six parts. Part 1: Sequence Analysis; Part 2: Prediction of Protein Structure, Interaction, and Localization; Part 3: Gene Expression Analysis; Part 4: Pathway Analysis; Part 5: Medical Informatics; and Part 6: Bioimaging. 410 0$aLecture notes in computer science.$pLecture notes in bioinformatics. 606 $aBioinformatics$vCongresses 606 $aComputational biology$vCongresses 606 $aComputer vision in medicine$vCongresses 615 0$aBioinformatics 615 0$aComputational biology 615 0$aComputer vision in medicine 676 $a572.80285 702 $aRajapakse$b Jagath Chandana 702 $aSchmidt$b Bertil 702 $aVolkert$b Gwenn 712 02$aInternational Association for Pattern Recognition. 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bUtOrBLW 906 $aBOOK 912 $a9910483058203321 996 $aPattern Recognition in Bioinformatics$9772456 997 $aUNINA