04494nam 2200697I 450 99102917314033211-351-65202-81-315-15596-61-4987-8787-8(CKB)4100000004834525(MiAaPQ)EBC5426716(OCoLC)1037075032(EXLCZ)99410000000483452520180727d2018 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierCells in evolutionary biology transLating genotypes into phenotypes - past, present, future /edited by Brian K. Hall and Sally A. MoodyFirst edition.Boca Raton, FL :CRC Press, an imprint of Taylor and Francis,2018.1 online resource (295 pages)Evolutionary cell biology1-4987-8786-X Includes bibliographical references.chapter 1 The Role of Cells and Cell Theory in Evolutionary Thought, circa 1840-1872 -- chapter 2 Germ Cells and Somatic Cells in Evolutionary Biology: August Weismann's Germ Plasm Theory -- chapter 3 Cell Lineages in Ontogeny and Phylogeny from 1900 -- chapter 4 Protists and Multiple Routes to the Evolution of Multicellularity -- chapter 5 Symbiosis in Eukaryotic Cell Evolution: Genomic Consequences and Changing Classification -- chapter 6 Cellular Signaling Centers and the Maintenance and Evolution of Morphological Patterns in Vertebrates -- chapter 7 Cellular Control of Time, Size, and Shape in Development and Evolution -- chapter 8 Cellular Basis of Evolution in Animals: An Evo-Devo Perspective -- chapter 9 Dynamical Patterning Modules Link Genotypes to Morphological Phenotypes in Multicellular Evolution.This book is the first in a projected series on Evolutionary Cell Biology, the intent of which is to demonstrate the essential role of cellular mechanisms in transforming the genotype into the phenotype by transforming gene activity into evolutionary change in morphology. This book —Cells in Evolutionary Biology — evaluates the evolution of cells themselves and the role cells have been viewed to play as agents of change at other levels of biological organization. Chapters explore Darwin’s use of cells in his theory of evolution and how Weismann’s theory of the separation of germ plasm from body cells brought cells to center stage in understanding how acquired changes to cells within generations are not passed on to future generations. The study of evolution through the analysis of cell lineages during embryonic development dominated evolutionary cell biology until usurped by the switch to genes as the agents of heredity in the first decades of the 20th century. Discovery that cells exchanged organelles via symbiosis led to a fundamental reevaluation of prokaryotic and eukaryotic cells and to a reorganizations of the Tree of Life. Identification of cellular signaling centers, of mechanisms responsible for cellular patterning, and of cell behavior and cellular condensations as mediating the plasticity that enables phenotypic change during evolution, provided powerful new synergies between cell biology and evolutionary theory and the basis for Evolutionary Cell Biology.Evolutionary cell biology.Cell BiologyNatural HistoryZoologyLIFESCIENCEnetBASEbisacshSCIENCE / Life Sciences / EvolutionbisacshNATURE / Animals / GeneralbisacshEvolution, MolecularCell Physiological PhenomenageneticsGenetic Association StudiesGenotypePhenotypeElectronic books.Cell Biology.Natural History.Zoology.LIFESCIENCEnetBASE.SCIENCE / Life Sciences / Evolution.NATURE / Animals / General.Evolution, Molecular.Cell Physiological Phenomenagenetics.Genetic Association Studies.Genotype.Phenotype.572.838Hall Brian K(Brian Keith),1941-Moody Sally A.FlBoTFGFlBoTFGBOOK9910291731403321Cells in evolutionary biology2171530UNINA