"synopsis" may belong to another edition of this title.
Taking ideas from nature has been a theme of humanity’s technological progress but it is only our newfound expertise in molecular manipulation and complex nonlinear dynamics that allows us the prospect of conscripting the building blocks of life as a means of furthering our abilities in circuits, systems and computers by the control of cellular networks.
Modeling Biomolecular Networks in Cells shows how the interaction between the molecular components of basic living organisms can be modelled mathematically and the models used to create artificial biological entities within cells. Such forward engineering is a difficult task because of the ill-posed nature of the problems and because of the fundamental complexity of the interactions within even the most primitive biological cell. The nonlinear dynamical methods espoused in this book simplify the biology so that it can be successfully understood and the synthesis of simple biological oscillators and rhythm-generators made feasible. Such simple but, from an engineering point of view, unconventional units can then be co-ordinated using intercellular signal biomolecules. The formation of such man-made multicellular networks with a view to the production of biosensors, logic gates, new forms of integrated circuitry based on "gene-chips" and even biological computers is an important step in the design of faster and more flexible "electronics" for the future. The book also provides theoretical frameworks and tools with which to analyze the nonlinear dynamical phenomena, such as collective behaviour, which arise from the connection of building blocks in a biomolecular network.
Researchers and graduate students from a variety of disciplines: engineering, applied mathematics, computer science and quantitative biology will find this book instructive and valuable. The text assumes a basic understanding of differential equations and the necessary molecular biology is dealt with chapter by chapter so only high-school biology is required.
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Book Description Soft Cover. Condition: new. Seller Inventory # 9781447157366
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Book Description Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Modeling Biomolecular Networks in Cells shows how the interaction between the molecular components of basic living organisms can be modelled mathematically and the models used to create artificial biological entities within cells. Such forward engineering is a difficult task but the nonlinear dynamical methods espoused in this book simplify the biology so that it can be successfully understood and the synthesis of simple biological oscillators and rhythm-generators made feasible. Such simple units can then be co-ordinated using intercellular signal biomolecules. The formation of such man-made multicellular networks with a view to the production of biosensors, logic gates, new forms of integrated circuitry based on 'gene-chips' and even biological computers is an important step in the design of faster and more flexible 'electronics'. The book also provides theoretical frameworks and tools with which to analyze the nonlinear dynamical phenomena which arise from the connection of building units in a biomolecular network. 356 pp. Englisch. Seller Inventory # 9781447157366
Book Description Condition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Shows the reader how nature has often evolved different more efficient solutions from those produced by traditional human approaches to circuits and systems Gives the reader mathematical tools to produce simplified models of molecular . Seller Inventory # 4185348
Book Description Paperback / softback. Condition: New. This item is printed on demand. New copy - Usually dispatched within 5-9 working days. Seller Inventory # C9781447157366
Book Description Taschenbuch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - Modeling Biomolecular Networks in Cells shows how the interaction between the molecular components of basic living organisms can be modelled mathematically and the models used to create artificial biological entities within cells. Such forward engineering is a difficult task but the nonlinear dynamical methods espoused in this book simplify the biology so that it can be successfully understood and the synthesis of simple biological oscillators and rhythm-generators made feasible. Such simple units can then be co-ordinated using intercellular signal biomolecules. The formation of such man-made multicellular networks with a view to the production of biosensors, logic gates, new forms of integrated circuitry based on 'gene-chips' and even biological computers is an important step in the design of faster and more flexible 'electronics'. The book also provides theoretical frameworks and tools with which to analyze the nonlinear dynamical phenomena which arise from the connection of building units in a biomolecular network. Seller Inventory # 9781447157366
Book Description Condition: New. This book shows how interaction between the molecular components of basic living organisms can be modelled mathematically, and how models can be used to create artificial biological entities within cells. Includes theoretical frameworks and analytical tools. Num Pages: 355 pages, biography. BIC Classification: MQW. Category: (G) General (US: Trade). Dimension: 235 x 155 x 19. Weight in Grams: 545. . 2014. Paperback. . . . . Seller Inventory # V9781447157366
Book Description Condition: New. This book shows how interaction between the molecular components of basic living organisms can be modelled mathematically, and how models can be used to create artificial biological entities within cells. Includes theoretical frameworks and analytical tools. Num Pages: 355 pages, biography. BIC Classification: MQW. Category: (G) General (US: Trade). Dimension: 235 x 155 x 19. Weight in Grams: 545. . 2014. Paperback. . . . . Books ship from the US and Ireland. Seller Inventory # V9781447157366