LEADER 00000cam a2200685Ma 4500 001 ocn648316910 003 OCoLC 005 20160711055241.1 006 m o d 007 cr cn||||||||| 008 070403s2007 enka ob 101 0 eng d 019 172987282|a722597061|a728031514 020 1860947999|q(electronic book) 020 9781860947995|q(electronic book) 020 |z9781860947834 020 |z9781860947995 020 |z1860947832 035 (OCoLC)648316910|z(OCoLC)172987282|z(OCoLC)722597061 |z(OCoLC)728031514 040 E7B|beng|epn|cE7B|dOCLCQ|dN$T|dYDXCP|dIDEBK|dOCLCQ|dFVL |dOCLCQ|dMERUC|dOCLCQ|dI9W|dOCLCO|dOCLCF|dOCLCQ|dOCLCO |dOCL|dOCLCO|dOCLCQ 049 RIDW 050 4 QH324.2|b.A85 2007eb 072 7 COM|x082000|2bisacsh 082 04 572.80285|222 090 QH324.2|b.A85 2007eb 111 2 Asia-Pacific Bioinformatics Conference|0https://id.loc.gov /authorities/names/n2005184652|n(5th :|d2007 :|cHong Kong) 245 10 Proceedings of the 5th Asia-Pacific bioinformatics conference :|bHong Kong, 15-17 January 2007 /|ceditors, David Sankoff, Lusheng Wang, Francis Chin. 264 1 London :|bImperial College Press,|c[2007] 264 4 |c©2007 300 1 online resource (xiv, 374 pages) :|billustrations. 336 text|btxt|2rdacontent 337 computer|bc|2rdamedia 338 online resource|bcr|2rdacarrier 340 |gpolychrome|2rdacc 347 text file|2rdaft 490 1 Series on advances in bioinformatics and computational biology ;|vv. 5 504 Includes bibliographical references and index. 505 00 |tExploring Genomes of Distantly Related Mammals /|rJ.A. Marshall Graves --|tBugs, Guts and Fat -- A Systems Approach to the Metabolic 'Axis of Evil' /|rJ. Nadeau -- |tProtein Identification via Spectral Networks Analysis / |rP. Pevzner --|tMetagenome Analysis using MEGAN /|rD.H. Huson, A.F. Auch, J. Qi, and S.C. Schuster --|tAlgorithmic Approaches to Selecting Control Clones in DNA Array Hybridization Experiments /|rQ. Fu, E. Bent, J. Borneman, M. Chrobak, and N. Young --|tSubtle Motif Discovery for Detection of DNA Regulatory Sites /|rM. Comin, and L. Parida --|tAn Effective Promoter Detection Method using the Adaboost Algorithm /|rX. Xze, S. Wu, K.-M. Lam, and H. Yan --|tA New Strategy of Geometrical Biclustering for Microarray Data Analysis /|rH. Zhao, A.W.C. Liew, and H. Yan --|tUsing Formal Concept Analysis for Microarray Data Comparison /|rV. Choi, Y. Huang, V. Lam, D. Potter, R. Laubenbacher, and K. Duca --|tAn Efficient Biclustering Algorithm for Finding Genes with Similar Patterns in Time- series Expression Data /|rS.C. Madeira, and A.L. Oliveira --|tSelecting Genes with Dissimilar Discrimination Strength for Sample Class Prediction /|rZ. Cai, R. Goebel, M.R. Salavatipour, Y. Shi, L. Xu, and G. Lin --|tComputing the All-Pairs Quartet Distance on a Set of Evolutionary Trees /|rM. Stissing, T. Mailund, C.N.S. Pedersen, G.S. Brodal, and R. Fagerberg --|tComputing the Quartet Distance Between Evolutionary Trees of Bounded Degree / |rM. Stissing, C.N.S. Pedersen, T. Mailund, G.S. Brodal, and R. Fagerberg --|tA Global Maximum Likelihood Super- Quartet Phylogeny Method /|rP. Wang, B.B. Zhou, M. Taraeneh, D. Chu, C. Wang, A.Y. Zomaya, and R.P. Brent -- |tA Randomized Algorithm for Comparing Sets of Phylogenetic Trees /|rS.-J. Sul, and T.L. Williams -- |tProtein Structure-Structure Alignment with Discrete Frkchet Distance /|rM. Jiang, Y. Xu, and B. Zhu -- |tDeriving Protein Structure Topology from the Helix Skeleton in Low Resolution Density Map using Rosetta /|rY. Lu, J. He, and C.E.M. Strauss --|tFitting Protein Chains to Cubic Lattice is NP-complete /|rJ. Mafiuch, and D.R. Gaur --|tInferring a Chemical Structure from a Feature Vector Based on Frequency of Labeled Paths and Small Fragments /|rT. Alcutsu, and D. Fukagawa --|tExact and Heuristic Approaches for Identifying Disease-Associated SNP Motifs /|rG. Huang, P. Jeavons, and D. Kwiatkowski -- |tGenotype-Based Case-Control Analysis, Violation of Hardy -Weinberg Equilibrium, and Phase Diagrams /|rY.J. Suh, and W. Li --|tA Probabilistic Method to Identify Compensatory Substitutions for Pathogenic Mutations /|rB.C. Easton, A.V. Isaev, G.A. Huttley, and P. Maxwell --|tExploring Genome Rearrangements using Virtual Hybridization /|rM. Belcaid, A. Bergeron, A. Chateau, C. Chauve, Y. Gingras, G. Poisson, and M. Vendette --|tTwo Plus Two Does not Equal Three: Statistical Tests for Multiple Genome Comparison /|rN. Raghupathy, R. Hoberman, and D. Durand -- |tDistance Between Randomly Constructed Genomes /|rW. Xu - -|tComputing the Breakpoint Distance between Partially Ordered Genomes /|rZ. Fu, and T. Jiang --|tInferring Gene Regulatory Networks by Machine Learning Methods /|rJ. Supper, H. Frohlich, C. Spieth, A. Drager, and A. Zell -- |tA Novel Clustering Method for Analysis of Biological Networks using Maximal Components of Graphs /|rM. Hayashida, T. Akutsu, and H. Nagamochi --|tGene Regulatory Network Inference via Regression Based Topological Refinement /|rJ. Supper, H. Frohlich, and A. Zell -- |tAlgorithm Engineering for Color-Coding to Facilitate Signaling Pathway Detection /|rF. Huffner, S. Wernicke, and T. Zichner --|tDe Novo Peptide Sequencing for Mass Spectra Based on Multi-Charge Strong Tags /|rK. Ning, K.F. Chong, and H.W. Leong --|tComplexities and Algorithms for Glycan Structure Sequencing using Tandem Mass Spectrometry /|rB. Shun, B. Ma, K. Zhang, and G. Lajoie --|tSemi- supervised Pattern Learning for Extracting Relations from Bioscience Texts /|rS. Ding, M. Huang, and X. Zhu --|tFlow Model of the Protein-protein Interaction Network for Finding Credible Interactions /|rK. Okada, K. Asai, and M. Arzta --|tAll Hits All The Time: Parameter Free Calculation of Seed Sensitivity /|rD.Y.F. Mak. and G. Benson --|tFast Structural Similarity Search Based on Topology String Matching /|rS.-H. Park, D. Gilbert, and K.H. Ryu --|tSimple and Fast Alignment of Metabolic Pathways by Exploiting Local Diversity /|rS. Wernicke, and F. Rasche --|tCombining N-grams and Alignment in G-protein Coupling Specificity Prediction /|rB.Y.M. Chen, and J.G. Carbonell. 520 High-throughput sequencing and functional genomics technologies have given us the human genome sequence as well as those of other experimentally, medically, and agriculturally important species, and have enabled large- scale genotyping and gene expression profiling of human populations. Databases containing large numbers of sequences, polymorphisms, structures, and gene expression profiles of normal and diseased tissues are being rapidly generated for human and model organisms. Bioinformatics is thus rapidly growing in importance in the annotation of genomic sequences; the understanding of the. 588 0 Print version record. 590 eBooks on EBSCOhost|bEBSCO eBook Subscription Academic Collection - North America 650 0 Bioinformatics|vCongresses.|0https://id.loc.gov/ authorities/subjects/sh2007101998 650 0 Biology|xData processing.|0https://id.loc.gov/authorities/ subjects/sh85014206 650 7 Bioinformatics.|2fast|0https://id.worldcat.org/fast/832181 650 7 Biology|xData processing.|2fast|0https://id.worldcat.org/ fast/832406 655 4 Electronic books. 655 7 Conference papers and proceedings.|2fast|0https:// id.worldcat.org/fast/1423772 655 7 Conference papers and proceedings.|2lcgft|0https:// id.loc.gov/authorities/genreForms/gf2014026068 700 1 Sankoff, David.|0https://id.loc.gov/authorities/names/ n82213230 700 1 Wang, Lusheng,|d1962-|0https://id.loc.gov/authorities/ names/no2005100159 700 1 Chin, Francis,|d1948-|0https://id.loc.gov/authorities/ names/nb2007009778 776 08 |iPrint version:|aAsia-Pacific Bioinformatics Conference. |tProceedings of the 5th Asia-Pacific bioinformatics conference.|dLondon : Imperial College Press, ©2007 |z9781860947834|z1860947832|w(DLC) 2007408631 |w(OCoLC)123373781 830 0 Series on advances in bioinformatics and computational biology ;|0https://id.loc.gov/authorities/names/ no2005039596|vv. 5. 856 40 |uhttps://rider.idm.oclc.org/login?url=http:// search.ebscohost.com/login.aspx?direct=true&scope=site& db=nlebk&AN=203836|zOnline eBook. Access restricted to current Rider University students, faculty, and staff. 856 42 |3Instructions for reading/downloading this eBook|uhttp:// guides.rider.edu/ebooks/ebsco 901 MARCIVE 20231220 948 |d20161017 |cMH |tebscoebooksacademic updated may-july27 |lridw 948 |d20160616|cEBSCO|tebscoebooksacademic|lridw 994 92|bRID