Chap. 1 - Perspectives in Computational Genome Analysis -- Chap. 2 - The Sequence Reconstruction Problem -- Chap. 3 - Extracting Coevolving Characters from a Tree of Species -- Chap. 4 - When and How the Perfect Phylogeny Model Explains Evolution -- Chap. 5 - An Invitation to the Study of Brain Networks with Some Statistical Analysis of Thresholding Techniques -- Chap. 6 - Simplicial Models and Topological Inference in Biological Systems -- Chap. 7 - Combinatorial Insights into RNA Secondary Structure -- Chap. 8 - Redundant and Critical Noncovalent Interactions in Protein Rigid Cluster Analysis -- Chap. 9 - Modeling Autonomous Supramolecular Assembly -- Chap. 10 - The Role of Symmetry in Conformational Changes of Viral Capsids: A Mathematical Approach -- Chap. 11 - Minimal Tile and Bond-Edge Types for Self-Assembling DNA Graphs -- Chap. 12 - Programmed Genome Processing in Ciliates -- Chap. 13 - The Algebra of Gene Assembly in Ciliates -- Chap. 14 - Invariants of Graphs Modeling Nucleotide Rearrangements -- Chap. 15 - Introduction to DNA Topology -- Chap. 16 - Reactions Mediated by Topoisomerases and Other Enzymes: Modelling Localised DNA Transformations -- Chap. 17 - Site-Specific Recombination on Unknot and Unlink Substrates Producing Two-Bridge Links -- Chap. 18 - Site-Specific Recombination Modeled as a Band Surgery: Applications to Xer Recombination -- Chap. 19 - Understanding DNA Looping Through Cre-Recombination Kinetics -- Chap. 20 - The QSSA in Chemical Kinetics: As taught and as Practiced -- Chap. 21 - Algebraic Models and Their Use in Systems Biology -- Chap. 22 - Deconstructing Complex Nonlinear Models in System Design Space -- Chap. 23 - IBCell Morphocharts: A Computational Model for Linking Cell Molecular Activity with Emerging Tissue Morphology.