Transactions on Computational systems biology II
著者
書誌事項
Transactions on Computational systems biology II
(Lecture notes in computer science, 3680 . Lecture notes in bioinformatics)
Springer, c2005
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注記
Includes bibliographical references and index
"Corrado Priami editor-in-chief"--Cover
"Journal subline"--Cover
内容説明・目次
内容説明
It gives me great pleasure to present the Special Issue of LNCS Transactions on Computational Systems Biology devoted to considerably extended versions of selected papers presented at the International Workshop on Bioinformatics Research and Applications (IWBRA 2005). The IWBRA workshop was a part of the International Conference on Computational Science (ICCS 2005) which took place in Emory University, Atlanta, Georgia, USA, May 22-24, 2005. See http://www.cs.gsu.edu/pan/ iwbra.htm for more details. The 10 papers selected for the special issue cover a wide range of bioinformatics research. The first papers are devoted to problems in RNA structure prediction: Blin et al. contribute to the arc-preserving subsequence problem and Liu et al. develop an efficient search of pseudoknots. The coding schemes and structural alphabets for protein structure prediction are discussed in the contributions of Lei and Dai, and Zheng and Liu, respectively. Song et al. propose a novel technique for efficient extraction of biomedical information. Nakhleh and Wang discuss introducing hybrid speciation and horizontal gene transfer in phylogenetic networks.
Practical algorithms minimizing recombinations in pedigree phasing are proposed by Zhang et al. Kolliet al. propose a new parallel implementation in OpenMP for finding the edit distance between two signed gene permutations. The issue is concluded with two papers devoted to bioinformatics problems that arise in DNA microarrays: improved tag set design for universal tag arrays is suggested by Mandoiu et al. and a new method of gene selection is discussed by Xu and Zhang.
目次
What Makes the Arc-Preserving Subsequence Problem Hard?.- Profiling and Searching for RNA Pseudoknot Structures in Genomes.- A Class of New Kernels Based on High-Scored Pairs of k-Peptides for SVMs and Its Application for Prediction of Protein Subcellular Localization.- A Protein Structural Alphabet and Its Substitution Matrix CLESUM.- KXtractor: An Effective Biomedical Information Extraction Technique Based on Mixture Hidden Markov Models.- Phylogenetic Networks: Properties and Relationship to Trees and Clusters.- Minimum Parent-Offspring Recombination Haplotype Inference in Pedigrees.- Calculating Genomic Distances in Parallel Using OpenMP.- Improved Tag Set Design and Multiplexing Algorithms for Universal Arrays.- Virtual Gene: Using Correlations Between Genes to Select Informative Genes on Microarray Datasets.
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