A laboratory manual for developmental biology offering basic, easy to use, laboratory investigations (18 experiments) spanning various models including echinoderm (Sea Urchin), amphibian (Frog), chick embryo, and fern gametophyte.
A laboratory manual for developmental biology offering basic, easy to use, laboratory investigations (18 experiments) spanning various models including echinoderm (Sea Urchin), amphibian (Frog), chick embryo, and fern gametophyte.
Pattern Formation in Morphogenesis is a rich source of interesting and challenging mathematical problems. The volume aims at showing how a combination of new discoveries in developmental biology and associated modelling and computational techniques has stimulated or may stimulate relevant advances in the field. Finally it aims at facilitating the process of unfolding a mutual recognition between Biologists and Mathematicians of their complementary skills, to the point where the resulting synergy generates new and novel discoveries. It offers an interdisciplinary interaction space between biologists from embryology, genetics and molecular biology who present their own work in the perspective of the advancement of their specific fields, and mathematicians who propose solutions based on the knowledge grasped from biologists.
A central goal of biology is to decode the mechanisms that underlie the processes of morphogenesis and pattern formation. Concerned with the analysis of those phenomena, this book integrates experimental and theoretical aspects of biology for the construction and investigation of models of complex processes. It offers an interdisciplinary approach to the pattern formation problems and provides a scope of forthcoming integrated biology including experiments and theories.
Originally published in 2005, this unique resource presents 27 easy-to-follow laboratory exercises for use in student practical classes in developmental biology. These experiments provide key insights into developmental questions, and many of them are described by the leaders in the field who carried out the original research. This book intends to bridge the gap between experimental work and the laboratory classes taken at the undergraduate and post-graduate levels. All chapters follow the same format, taking the students from materials and methods, through results and discussion, so that they learn the underlying rationale and analysis employed in the research. The book will be an invaluable resource for graduate students and instructors teaching practical developmental biology courses. Chapters include teaching concepts, discussion of the degree of difficulty of each experiment, potential sources of failure, as well as the time required for each experiment to be carried out in a class with students.
Dynamics of Development: Experiments and Inferences provides an understanding of the dynamic order of living systems. This book presents a methodical approach to the unrestricted exploration of all the aspects that a living system offers, which is evaluated logically through experiment and inference. Organized into five parts encompassing 24 chapters, this book begins with an overview of the adaptive features of the nervous system. This text then examines the molecular control of cellular activity. Other chapters focus on resolving the fragments of the chemical endowment of the cell. This book discusses as well the mechanisms of respiration and photosynthesis, which have been connected with arrays of macromolecular complexes in definite sequential order. The final chapter deals with the fundamental principle of neural intercommunication. This book is a valuable resource for biochemists, biologists, zoologists, neurophysiologists, and scientists. Students and research workers interested in the dynamic order of living systems will also find this book useful.