Table of Contents

• Computational structural proteomics and virtual ligand screeningRuben Abagyan. 1 [doi]
• Using motion planning to map protein folding landscapes and analyze folding kinetics of known native structuresNancy M. Amato, Ken A. Dill, Guang Song. 2-11 [doi]
• Stochastic roadmap simulation: an efficient representation and algorithm for analyzing molecular motionMehmet Serkan Apaydin, Douglas L. Brutlag, Carlos Guestrin, David Hsu, Jean-Claude Latombe. 12-21 [doi]
• Monotony of surprise and large-scale quest for unusual wordsAlberto Apostolico, Mary Ellen Bock, Stefano Lonardi. 22-31 [doi]
• DNA sequence evolution with neighbor-dependent mutationPeter F. Arndt, Christopher B. Burge, Terence Hwa. 32-38 [doi]
• A new approach to analyzing gene expression time series dataZiv Bar-Joseph, Georg Gerber, David K. Gifford, Tommi Jaakkola, Itamar Simon. 39-48 [doi]
• Discovering local structure in gene expression data: the order-preserving submatrix problemAmir Ben-Dor, Benny Chor, Richard M. Karp, Zohar Yakhini. 49-57 [doi]
• The restriction scaffold problemAmir Ben-Dor, Richard M. Karp, Benno Schwikowski, Ron Shamir. 58-66 [doi]
• Comparison of minisatellitesSèverine Bérard, Eric Rivals. 67-76 [doi]
• Structural alignment of large-size proteins via lagrangian relaxationAlberto Caprara, Giuseppe Lancia. 100-108 [doi]
• Designing RNA structures: natural and artificial selectionBarry Cohen, Steven Skiena. 109-116 [doi]
• Inferring domain-domain interactions from protein-protein interactionsMinghua Deng, Shipra Mehta, Fengzhu Sun, Ting Chen. 117-126 [doi]
• A bayesian approach to transcript estimation from gene array data: the BEAM techniqueRon O. Dror, Jonathan G. Murnick, Nicola A. Rinaldi, Voichita D. Marinescu, Ryan M. Rifkin, Richard A. Young. 137-143 [doi]
• Tests for gene clusteringDannie Durand, David Sankoff. 144-154 [doi]
• Recent duplication, evolution and assembly of the human genomeEvan E. Eichler. 155-155 [doi]
• Approximate matching of secondary structuresNadia El-Mabrouk, Mathieu Raffinot. 156-164 [doi]
• Applied computational genomics: polymorphism prediction, data mining and genomic analysisHarold R. Garner. 165 [doi]
• Haplotyping as perfect phylogeny: conceptual framework and efficient solutionsDan Gusfield. 166-175 [doi]
• Handling long targets and errors in sequencing by hybridizationEran Halperin, Shay Halperin, Tzvika Hartman, Ron Shamir. 176-185 [doi]
• Finding motifs in the twilight zoneUri Keich, Pavel A. Pevzner. 195-204 [doi]
• Phase-independent rhythmic analysis of genome-wide expression patternsChristopher James Langmead, Anthony K. Yan, C. Robertson McClung, Bruce Randall Donald. 205-215 [doi]
• Significance Of inter-species matches when evolutionary rate variesJia Li, Webb Miller. 216-224 [doi]
• Combining pairwise sequence similarity and support vector machines for remote protein homology detectionLi Liao, William Stafford Noble. 225-232 [doi]
• Revealing protein structures: a new method for mapping antibody epitopesBrendan Mumey, Brian W. Bailey, Edward A. Dratz. 233-240 [doi]
• Set association analysis of SNP case-control and microarray dataJürg Ott, Josephine Hoh. 241-245 [doi]
• Picking alignments from (steiner) treesLior Pachter, Fumei Lam. 246-253 [doi]
• String barcoding: uncovering optimal virus signaturesSam Rash, Dan Gusfield. 254-261 [doi]
• Biological and computational annotation of the Drosophila Genome SequenceGerald M. Rubin. 262-262 [doi]
• From promoter sequence to expression: a probabilistic frameworkEran Segal, Yoseph Barash, Itamar Simon, Nir Friedman, Daphne Koller. 263-272 [doi]
• Probabilistic hierarchical clustering for biological dataEran Segal, Daphne Koller. 273-280 [doi]
• An algorithm to enumerate all sorting reversalsAdam C. Siepel. 281-290 [doi]
• Discriminative motifsSaurabh Sinha. 291-298 [doi]
• A dimensionality reduction approach to modeling protein flexibilityMiguel L. Teodoro, George N. Phillips, Lydia E. Kavraki. 299-308 [doi]
• Toward a proteome atlas for C. ElegansMarc Vidal. 310-310 [doi]
• Deconvolving sequence variation in mixed DNA populationsAndy Wildenberg, Steven Skiena, Pavel Sumazin. 311-320 [doi]
• Microarrays: how many do you need?Alexander Zien, Juliane Fluck, Ralf Zimmer, Thomas Lengauer. 321-330 [doi]