Origin and Evolution of Metazoan Cell Types

Name: Origin and Evolution of Metazoan Cell Types
Brand: Taylor & Francis Ltd
SKU: 9780367766085
Price: 61.5 EUR
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Amphimedon Queenslandica

Animal diversity

Animal Kingdom

animal tissue specialization

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B01=Andreas Hejnol

B01=Sally Leys

Category1=Non-Fiction

Category=KNA

Category=KNAC

Category=PSF

Category=PSV

cell differentiation mechanisms

Cell Matrix Junctions

Collecting Duct

comparative cell lineage analysis

COP=United Kingdom

Delivery_Pre-order

Developmental biology

Distal Tubule

Diverse animal lineages

Ectodermal cells

ENaC

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eq_business-finance-law

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eq_nobargain

eq_non-fiction

eq_science

Evolutionary Biology

evolutionary cell loss

evolutionary history of animal cell types

Excretory Organs

Experimental biology

Flask Cell

Germ Cells

Germline Specification

Glass Sponges

Integrin Adhesome

Language_English

Malpighian Tubules

Mesodermal cells

Mitochondrial RNA Editing

Modularity in Embyronic Development

molecular cell evolution

Morphogenesis

Neuronal Cell Populations

PA=Temporarily unavailable

phylogenetic cell type mapping

Prey Cell

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Primary Urine

Primordial Germ Cells

Prokaryotic-Eukaryotic dichotomy

PS=Active

Renal Progenitor

Renal Progenitor Cells

SCRIBBLE Complex

Single Cell RNA Seq

Slit Diaphragm

Social Amoeba Dictyostelium Discoideum

softlaunch

Unicellular Ancestor

Product details

ISBN 9780367766085
Weight: 320g
Dimensions: 156 x 234mm
Publication Date: 29 May 2023
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Paperback
Language: English

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The evolution of animal diversity is strongly affected by the origin of novel cell and tissue types and their interactions with each other. Understanding the evolution of cell types will shed light on the evolution of novel structures, and in turn highlight how animals diversified. Several cell types may also have been lost as animals simplified – for example did sponges have nerves and lose them? This book reveals the interplay between gains and losses and provides readers with a better grasp of the evolutionary history of cell types. In addition, the book illustrates how new cell types allow a better understanding permitting the discrimination between convergence and homology.

Andreas Hejnol is Professor and research group leader of “Comparative

Developmental Biology” at the Department of Biological Sciences (BIO) in Bergen,

Norway. After earning his Ph.D. in Comparative Zoology from the Free University

Berlin, Germany in 2002, he worked as a postdoctoral fellow in the laboratory of

Ralf Schnabel in Braunschweig and at the Kewalo Marine Laboratory in the lab

of Mark Q. Martindale in Hawaii. He led a research group at the Sars Centre from

2009-2019. His research aims to understand the evolutionary origin and diversification

of animal body plans, cell types, and organ systems. He is an ERC Consolidator

Grant holder and received for his achievements in Evolutionary Developmental

Biology and Comparative Zoology the prestigious Alexander O. Kovalevsky Medal

from the St. Petersburg Society for Naturalists in 2018.

Sally P. Leys is Professor in the Department of Biological Sciences at the University

of Alberta, in Edmonton, Canada. She earned her Ph.D. from the University of

Victoria under George Mackie in 1996, for which she received the Canadian Society

of Zoologists Cameron Award 1997. She held a Commander C Bellairs Postdoctoral

Fellowship from McGill University for postdoctoral research in Barbados (1997)

and then won an NSERC PDF which she took to the University Aix Marseille,

France (1998) and later to the University of Queensland, Australia (1998-2000). She

won an NSERC Women’s University Research Award in 2000 and was Assistant

Professor (Limited Term) at the University of Victoria, British Columbia. In 2002,

she was awarded a Canada Research Chair Tier II at the University of Alberta in

“Evolutionary and Developmental Biology.” Her research interests broadly concern

understanding the origin of multicellularity in metazoans and more specifically the

cellular and molecular basis of coordination in non-bilaterian animals, sponges,

ctenophores, placozoans, and cnidarians.