Table of Contents
Significance of Computational Biology: Computational Biology Opportunity and Challenges for the Future; J.C. Wooley, M.N. Varma. Overview of Significant Challenges in Molecular Biology Amenable to Computational Methods; R.M. Glaeser. Initial Physical and Chemical Studies: Basic Physical and Chemical Information Needed for Development of Monte Carlo Codes; M. Inokuti. Interactions of Lowenergy Electrons with Condensed Matter: Relevance for Track Structure; R.H. Ritchie, et al. Track Structure Code Development: Chargedparticle Transport in Biomolecular Media: The Third Generation; M. Zaider, et al. Track Structure, Chromosome Geometry, and Chromosome Aberations; D.J. Brenner, et al. Comparison of Track Structure Codes: Comparisons of Various Monte Carlo Track Structure Codes for Energetic Electrons in Gaseous and Liquid Water; H. Nikjoo, S. Uehara. A Comparison between Two Monte Carlo Track Codes on Determination of Transient Chemical Yields; R.N. Hamm, et al. Modeling of Biological Effects: Three Statistical Technologies with High Potential in Biological Imaging and Modeling; M. Fridman, M. Steele. A Nucleosome Model for the Simulation of DNA Strand Break Experiments; M. Terrisol, E. Pomplun. Index.
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