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9781498787864

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... the book is a very welcome collection of chapters that offers a good overview of the role of cells in EvoDevo. It can be recommended to anyone starting to do research in this field and should be on the bookshelf in all laboratories working in fields related to its contents. In short, a great book that taught me a lot about both subjects I thought I knew something about, and about new and exciting aspects of the role of cells in EvoDevo. Lennart Olsson. 2020. In Evolution & Development, 22. Cells in Evolutionary Biology is the first volume in a series. It provides a valuable historical context and review not only of the cell and evolutionary biology fields, but of developmental and molecular biology as well. Readers will gain an appreciation for the history and philosophy underlying their fields, a perspective less frequently covered in the basic textbooks used in coursework. The volume includes chapters from authors specializing not only in biology and its subfields, but in culture and philosophy. It opens with the origins of cell theory and germ plasm theory, ideas that laid the groundwork for our modern understanding of evolution. It covers historical debate regarding the origin of eukaryotic cells and of multicellular organisms with differentiated tissue types. It successfully dissects topics generally accepted as fact and guides the reader through the thought process that led to that status. To appreciate this text, a solid understanding of the current science is prerequisite. As such, this extremely interesting volume is best suited to graduate level students and established researchers. --D. Schulman, Lake Erie College Summing Up: Recommended. Graduate students through faculty and professionals. --- **Description** The book offers a historical perspective of the early observations in evolutionary biology related to the origin of cells, cell theory, Darwin's work, and the work of many other scientists that documented all those early studies, which is a great introduction to more detailed descriptions of germ cells, somatic cells, cell lineages, the evolution of multicellular organisms, cellular signaling, and multicellular patterning pathways during embryogenesis. **Purpose** This book is one in the Evolutionary Cell Biology series. The authors propose to describe the importance of evolutionary developmental biology in cell biology and stimulate further development of this field so that in current and future cell biology studies, researchers look back and consider how current findings fit within the evolutionary biology window. The authors encourage the readers (cell biologists) to think in the context of evolutionary biology in order to broaden the appeal of future research questions. **Audience** The book offers an interesting look at early observations regarding cell theory and the origin of cells, which is of interest for younger scientists unfamiliar with evolutionary biology. The narrative of how scientist in the 17th century explained cellular division, differentiation, regeneration, and many other subjects offers an interesting historical perspective when placed in the context of what we know today, regardless of readers' area of study. The book is written in accessible language and, thus, researchers at any level would benefit from learning about this historical perspective. The authors and contributors are leaders in their fields of study and well qualified to be part of this book. **Features** The book covers a broad period of evolutionary biology. While the period of the studies described in the book changes, the subject does not change much and remains evolutionary biology. I found particularly interesting the first chapter describing Darwin's work and how scientists of the time thought of cells, inheritance, and cell theory. The book is organized beginning with these descriptions and ending with patterning and embryology. The book does not contain many images, but those that are part of the book are well presented and useful. **Assessment** This book is definitely an important contribution to foster future work that considers evolutionary cell biology. The authors manage to narrate early evolutionary biology with our current understanding of development and I do not believe there are many other books with this focus in mind. -Renier Velez-Cruz, PhD (Midwestern University)

"""… the book is a very welcome collection of chapters that offers a good overview of the role of cells in EvoDevo. It can be recommended to anyone starting to do research in this field and should be on the bookshelf in all laboratories working in fields related to its contents. In short, a great book that taught me a lot about both subjects I thought I knew something about, and about new and exciting aspects of the role of cells in EvoDevo."" Lennart Olsson. 2020. In Evolution & Development, 22. ""Cells in Evolutionary Biology is the first volume in a series. It provides a valuable historical context and review not only of the cell and evolutionary biology fields, but of developmental and molecular biology as well. Readers will gain an appreciation for the history and philosophy underlying their fields, a perspective less frequently covered in the basic textbooks used in coursework. The volume includes chapters from authors specializing not only in biology and its subfields, but in culture and philosophy. It opens with the origins of cell theory and germ plasm theory, ideas that laid the groundwork for our modern understanding of evolution. It covers historical debate regarding the origin of eukaryotic cells and of multicellular organisms with differentiated tissue types. It successfully dissects topics generally accepted as fact and guides the reader through the thought process that led to that status. To appreciate this text, a solid understanding of the current science is prerequisite. As such, this extremely interesting volume is best suited to graduate level students and established researchers."" --D. Schulman, Lake Erie College Summing Up: Recommended. Graduate students through faculty and professionals. --- **Description** The book offers a historical perspective of the early observations in evolutionary biology related to the origin of cells, cell theory, Darwin's work, and the work of many other scientists that documented all those early studies, which is a great introduction to more detailed descriptions of germ cells, somatic cells, cell lineages, the evolution of multicellular organisms, cellular signaling, and multicellular patterning pathways during embryogenesis. **Purpose** This book is one in the Evolutionary Cell Biology series. The authors propose to describe the importance of evolutionary developmental biology in cell biology and stimulate further development of this field so that in current and future cell biology studies, researchers look back and consider how current findings fit within the evolutionary biology window. The authors encourage the readers (cell biologists) to think in the context of evolutionary biology in order to broaden the appeal of future research questions. **Audience** The book offers an interesting look at early observations regarding cell theory and the origin of cells, which is of interest for younger scientists unfamiliar with evolutionary biology. The narrative of how scientist in the 17th century explained cellular division, differentiation, regeneration, and many other subjects offers an interesting historical perspective when placed in the context of what we know today, regardless of readers' area of study. The book is written in accessible language and, thus, researchers at any level would benefit from learning about this historical perspective. The authors and contributors are leaders in their fields of study and well qualified to be part of this book. **Features** The book covers a broad period of evolutionary biology. While the period of the studies described in the book changes, the subject does not change much and remains evolutionary biology. I found particularly interesting the first chapter describing Darwin's work and how scientists of the time thought of cells, inheritance, and cell theory. The book is organized beginning with these descriptions and ending with patterning and embryology. The book does not contain many images, but those that are part of the book are well presented and useful. **Assessment** This book is definitely an important contribution to foster future work that considers evolutionary cell biology. The authors manage to narrate early evolutionary biology with our current understanding of development and I do not believe there are many other books with this focus in mind. -Renier Velez-Cruz, PhD (Midwestern University)"

Author Information

Brian K. Hall, University Research Professor Emeritus at Dalhousie University, was trained in Australia as an experimental embryologist. His research concentrated on the differentiation of skeletal tissues, especially, how epithelial–mesenchymal signaling initiates osteogenesis and chondrogenesis through the formation of cellular condensations. These studies led him to earlier stages of development and the origin and function of skeletogenic neural crest cells. Comparative studies, using embryos from all five classes of vertebrates provided a strong evolutionary component to his research. These studies, along with analyses of the developmental basis of homology, played significant roles in the establishing of evolutionary developmental biology. He is a Fellow of the Royal Society of Canada, Foreign Fellow of the American Academy of Arts and Science, and recipient of a Killam Prize. He was one of eight individuals awarded the first Kovalevsky Medals in 2000 to recognize the most distinguished scientists of the twentieth century in comparative zoology and evolutionary embryology. Sally A. Moody, Professor and Chair of the Department of Anatomy and Regenerative Biology at George Washington University, received her PhD in Neuroscience during which she studied motor axon guidance cues in the trigeminal system of the chick embryo. Throughout her career, she has continued her interest in understanding the mechanisms of axon guidance, studying the role of lineage factors in Xenopus, extracellular matrix proteins in chick, and genetic mutations in mouse. As a postdoctoral fellow, Sally was introduced to Xenopus embryos, which has remained a favorite. She made extensive fate maps of cleavage stage Xenopus embryos, identified maternal mRNAs that contribute to neural fate, elucidated proteomic and metabolomic changes that occur within specific lineages during cleavage, and demonstrated lineage influences on the determination of amacrine cell fate in the retina. Currently, her laboratory is studying the gene regulatory network that stabilizes neural fate downstream of neural induction, and identifying novel factors that are required for cranial sensory placode development. Dr. Moody has served on several editorial boards in the fields of neuroscience and developmental biology, on the board of directors of several societies focused on developmental processes, and edited the books: Cell Fate and Lineage Determination and Principles in Developmental Genetics.

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