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Klappentext Mathematical and computational biology is playing an increasingly important role in the biological sciences. This science brings forward unique challenges, many of which are, at the moment, beyond the theoretical techniques available. Developmental biology, due to its complexity, has lagged somewhat behind its sister disciplines (such as molecular biology and population biology) in making use of quantitative modeling to further biological understanding. This volume comprises work that is among the best developmental modeling available and we feel it will do much to remedy this situation.This book is aimed at all those with an interest in the interdisciplinary field of computer and mathematical modeling of multi-cellular and developmental systems. It is also a goal of the Editors to attract more developmental biologists to consider integrating modeling components into their research. Most importantly, this book is intended to serve as a portal into this research area for younger scientists - especially graduate students and post-docs, from both biological and quantitative backgrounds. Zusammenfassung Intended for those with an interest in the interdisciplinary field of computer and mathematical modeling of multi-cellular and developmental systems, this book provides techniques to address multiscale modelling. It aims to attract more developmental biologists to consider integrating modeling components into their research. Inhaltsverzeichnis Chapter 1 Introduction Chapter 2 Models of biological pattern formation: from elementary steps to the organization of embryonic axes Chapter 3 Robustness of embryonic spatial patterning in Drosophila melanogaster Chapter 4 Integrating morphogenesis with underlying mechanics and cell biology Chapter 5 The mechanisms underlying primitive streak formation in the chick embryo Chapter 6 Grid-free models of multicellular systems, with an application to large-scale vortices accompanying primitive streak formation Chapter 7 Mathematical models for somite formation Chapter 8 Coordinated Action of N-CAM, N-cadherin, EphA4 and ephrinB2 Translates Genetic Prepatterns into Structure during Somitogenesis in Chick Chapter 9 Branched organs: Mechanics of morphogenesis by multiple mechanisms Chapter 10 Multicellular sprouting during vasculogenesis Chapter 11 Modelling lung branching morphogenesis Chapter 12 Multiscale Models for Vertebrate Limb Development Chapter 13 Tooth morphogenesis in vivo, in vitro and in silico Chapter 14 Cell mechanics with a 3D kinetic and dynamic weighted Delaunay-triangulation Chapter 15 Cellular automata as microscopic models of cell migration in heterogeneous environments Chapter 16 Multiscale modeling of biological pattern formation Chapter 17 Relating Biophysical Properties Across Scales Chapter 18 Complex Multicellular Systems and Immune Competition: New Paradigms Looking for a Mathematical Theory...
List of contents
Chapter 1
Introduction
Chapter 2
Models of biological pattern formation: from elementary steps to the organization of embryonic axes
Chapter 3
Robustness of embryonic spatial patterning in Drosophila melanogaster
Chapter 4
Integrating morphogenesis with underlying mechanics and cell biology
Chapter 5
The mechanisms underlying primitive streak formation in the chick embryo
Chapter 6
Grid-free models of multicellular systems, with an application to large-scale vortices accompanying primitive streak formation
Chapter 7
Mathematical models for somite formation
Chapter 8
Coordinated Action of N-CAM, N-cadherin, EphA4 and ephrinB2 Translates Genetic Prepatterns into Structure during Somitogenesis in Chick
Chapter 9
Branched organs: Mechanics of morphogenesis by multiple mechanisms
Chapter 10
Multicellular sprouting during vasculogenesis
Chapter 11
Modelling lung branching morphogenesis
Chapter 12
Multiscale Models for Vertebrate Limb Development
Chapter 13
Tooth morphogenesis in vivo, in vitro and in silico
Chapter 14
Cell mechanics with a 3D kinetic and dynamic weighted Delaunay-triangulation
Chapter 15
Cellular automata as microscopic models of cell migration in heterogeneous environments
Chapter 16
Multiscale modeling of biological pattern formation
Chapter 17
Relating Biophysical Properties Across Scales
Chapter 18
Complex Multicellular Systems and Immune Competition: New Paradigms Looking for a
Mathematical Theory
