From the reviews:

"This book provides a particularly rich source of insights into the future of computing, and of new notions of computation. This multi-disciplinary book brings together biologists, biochemists, bioinformaticians ... who offer their insights into the paradigms emerging from modern biology. It contains 17 essays, for an audience of researchers working in biological information processing." (W. Richard Stark, Computing Reviews, February, 2005)

CytoComputational Systems — Perspectives and Tools of Thought.- Cells in Telecommunications.- Symbiogenesis as a Machine Learning Mechanism.- An Overview of Artificial Immune Systems.- Embryonics and Immunotronics: Biologically Inspired Computer Science Systems.- Biomedical Applications of Micro and Nano Technologies.- Macromolecules, Genomes and Ourselves.- Models of Genetic Regulatory Networks.- A Model of Bacterial Adaptability Based on Multiple Scales of Interaction: COSMIC.- Stochastic Computations in Neurons and Neural Networks.- Spatial Patterning in Explicitly Cellular Environments: Activity-Regulated Juxtacrine Signalling.- Modelling the GH Release System.- Hierarchies of Machines.- Models of Recombination in Ciliates.- Developing Algebraic Models of Protein Signalling Agents.- Categorical Language and Hierarchical Models for Cell Systems.- Mathematical Systems Biology: Genomic Cybernetics.- What Kinds of Natural Processes can be Regarded as Computations?.- List of Contributors.

Ray Paton trained originally as a biologist and for the last 12 years has worked in Computer Science. He is currently a Senior Lecturer in Dept Computer Science, University of Liverpool. He was the director of the CytoCom project on which this book is based.

Hamid Bolouri, PhD Microelectronics , Brunel Univ. 1990 Currently Professor of Computational Biology, Inst. for Systems Biology , Seattle, WA98103

Mike Holcombe is a Professor of Computer Science, University of Sheffield.

Howard Parish is a Senior Lecturer in the Biochemistry.

Richard Tateson has worked on nature-inspired computation at BTexact since 1997, applying ideas from cell biology, developmental biology and evolution to problems in telecommunications. Prior to that he was at Cambridge University doing a BA in biochemistry and a PhD in developmental biology.

This book deals with key issues in the emerging interdisciplinary area involving cellular systems, computational modelling, and biologically inspired computing. This highly multidisciplinary book offers a unique blend of topical contributions that are written by biologists, computer scientists and mathematicians with non-expert readers in mind. It reflects important trends and developments in this exciting field of science.

The volume can serve as a textbook and reference book for advanced students and computer scientists, biologists, and mathematicians.