Table of Contents

• From Informatics to BioinformaticsVladimir B. Bajic, Vladimir Brusic, Jinyan Li, See-Kiong Ng, Limsoon Wong. 3-12 [doi]
• Inferring an Original Sequence from Erroneous Copies : A Bayesian ApproachJonathan M. Keith, Peter Adams, Darryn E. Bryant, Keith R. Mitchelson, Duncan A. E. Cochran, Gita H. Lala. 23-28 [doi]
• A New Program to Compute the Surface Properties of BiomoleculesDan V. Nicolau Jr., Florin Fulga, Dan V. Nicolau. 29-34 [doi]
• Oracle s Technology for Bioinformatics and Future DirectionsBruce Blackwell, Siva Ravada. 35-42 [doi]
• Evaluation of Unique Sequences on the European Data GridKen-ichi Kurata, Vincent Breton, Christian Saguez, Gerald Dine. 43-52 [doi]
• Towards Transparent Access to Multiple Biological DatabanksPatrick Lambrix, Vaida Jakoniene. 53-60 [doi]
• A New Approach to Protein Structure and Function Analysis Using Semi-structured DatabasesWilliam M. Shui, Raymond K. Wong, Stephen C. Graham, Lawrence K. Lee, W. Bret Church. 61-69 [doi]
• BLAST++ : A Tool for BLASTing Queries in BatchesHao Wang, Twee-Hee Ong, Beng Chin Ooi, Kian-Lee Tan. 71-79 [doi]
• Visualisation and Comparison of DNA Sequences by Use of Three-Dimensional TrajectoriesHsuan T. Chang, Neng-Wen Lo, Wei C. Lu, Chung J. Kuo. 81-85 [doi]
• Comparison of Metabolic Pathways using Constraint Graph DrawingFalk Schreiber. 105-110 [doi]
• Microarray Image Processing Based on Clustering and Morphological AnalysisShuanhu Wu, Hong Yan. 111-118 [doi]
• The Visualization and Measurement of Left Ventricular DeformationBurkhard Wünsche. 119-128 [doi]
• Feature Space Transformation and Decision Results InterpretationJinyan Li, Hwee-Leng Ong. 129-137 [doi]
• Model-Based Clustering in Gene Expression Microarrays: An Application to Breast Cancer DataJ. C. Mar, Geoffrey J. McLachlan. 139-144 [doi]
• Gene Expression Data Clustering and Visualization Based on a Binary Heirarchical Clustering FrameworkLap Keung Szeto, Alan Wee-Chung Liew, Hong Yan, Sy-sen Tang. 145-152 [doi]
• Towards an understanding of protein-protein interaction network heirarchies. Analysis of DnaN-binding peptide motifs in members of protein families interacting with the eubacterial processivity clamp, the subunit of DNA Polymerase IIIBrian P. Dalrymple, Gene Wijffels, Kritaya Kongsuwan, Philip J. Jennings. 153-162 [doi]
• A Framework for Improving Protein Structure Predictions by TeamworkLuigi Palopoli, Giorgio Terracina. 163-171 [doi]
• A Platform for the Description, Distribution and Analysis of Genetic Polymorphism DataGreg D. Tyrelle, Garry C. King. 173-180 [doi]
• Analysing MEG-Data by a Combination of Different Neural NetworksMarkus Borschbach, Wolfram-Manfred Lippe, C. Mertens, S. Niedieck. 181-188 [doi]
• Machine Learning in DNA Microarray Analysis for Cancer ClassificationSung-Bae Cho, Hong-Hee Won. 189-198 [doi]
• A Generic Connectionist-Based Method for On-Line Feature Selection and Modelling with a Case Study of Gene Expression Data AnalysisNikola K. Kasabov, M. Middlemiss, T. Lane. 199-202 [doi]
• Signals in mRNAs that Influence the Initiation of TranslationChris M. Brown, Grant H. Jacobs, Mark Schreiber. 203-206 [doi]
• Using Text Classification to Predict the Gene Knockout Behaviour of S. CerevisiaePatrick Caldon. 211-214 [doi]
• Let the Shoemaker Make the Shoes - An Abstraction Layer is Needed Between Bioinformatic Analysis, Tools, Data and Equipment : An Agenda for the Next Five YearsTariq Segal, Ross Barnard. 215-218 [doi]
• An Empirical Comparison of Supervised Machine Learning Techniques in BioinformaticsAik Choon Tan, David Gilbert. 219-222 [doi]
• Novel Elastic Registration for 2-D Medical and Gel Protein ImagesXiu Ying Wang, David Dagan Feng, Hai Hong. 223-226 [doi]