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Caenorhabditis Elegans
The first of its kind, this laboratory handbook emphasizes diverse methods and technologies needed to investigate C. elegans, both as an integrated organism and as a model system for research inquiries in cell, developmental, and molecular biology, as well as in genetics and pharmacology. Four primary sections--Genetic and Culture Methods, Neurobiology, Cell and Molecular Biology, and Genomics and Informatics--reflect the cross-disciplinary nature of C. elegans research. Because C. elegans is a simple and malleable organism with a small genome and few cell types, it provides an elegant demonstr.
C. Elegans II
Defines the current status of research in the genetics, anatomy, and development of the nematode C. elegans, providing a detailed molecular explanation of how development is regulated and how the nervous system specifies varied aspects of behavior. Contains sections on the genome, development, neural networks and behavior, and life history and evolution. Appendices offer genetic nomenclature, a list of laboratory strain and allele designations, skeleton genetic maps, a list of characterized genes, a table of neurotransmitter assignments for specific neurons, and information on codon usage. Includes bandw photos. For researchers in worm studies, as well as the wider community of researchers in cell and molecular biology. Annotation copyrighted by Book News, Inc., Portland, OR
Pristionchus pacificus
This edited volume on the nematode model Pristionchus pacificus describes an integrative approach to evolutionary biology. It aims for a merger of evolutionary and comparative biology with mechanistic approaches based on genetics and molecular biology. Insight into the function of biological systems obtained from laboratory studies when complemented with ecology, natural variation and natural history of an organism, can provide detailed knowledge of the proximate and ultimate causations of species. Ralf J. Sommer developed P. pacificus as model system for integrative evolutionary biology with case studies in evo-devo and population genetics on La Réunion Island. Similarly, ecological interactions with scarab beetles revealed examples for the evolution of novelty at the morphological and behavioural level and their underlying molecular mechanisms. Contributors include Paul W. Sternberg, Ralf J. Sommer, Jagan Srinivasan, Christian Rödelsperger, Frank C. Schroeder, Robin M. Giblin-Davis, Natsumi Kanzaki, Matthias Herrmann, Angela McGaughran, Katy Morgan, Akira Ogawa, Federico D. Brown, Ray E. Hong, Robbie Rae, Amit Sinha, David Rudel, and Erik J. Ragsdale.
The Neural Crest in Development and Evolution
A discussion of the neural crest and neural crest cells, dealing with their discovery, their embryological and evolutionary origins, their cellular derivatives - in both agnathan and jawed vertebrates or gnathostomes - and the broad topics of migration and differentiation in normal development. The book also considers what goes wrong when development is misdirected by mutations, or by exposure of embryos to exogenous agents such as drugs, alcohol, or excess vitamin A, and includes discussions of tumours and syndromes and birth defects involving neural crest cells.
Invertebrate and Vertebrate Eye Development
Vision is our primary sensory modality, and we are naturally curious as to how the visual system assembles. The visual system is in many ways remarkably simple, a repeating assemblage of neurons and support cells that parse the visual field through precision and redundancy. Through this simplicity the eye has often led the way in our exploration of how an organ is assembled. Eye development has therefore long been a favorite for exploring mechanisms of cell fate choice, patterning and cell signaling.This volume, which is part of the Current Topics in Developmental Biology series, highlights the exceptional advances over the past 20 years. Chapters emphasize our knowledge of transcription fac...
Growth Factors in Development
This new volume of the renowned serial Current Topics in Developmental Biology covers the important features of growth factors in development. With an international board of authors, this volume will be invaluable for researchers in cell, developmental and molecular biology. Provides researchers an overview and synthesis of the latest research findings and contemporary thought in the area This volume provides an up-to-date and timely perspective
Plant Development
A subgroup of homeobox genes, which play an important role in the developmental processes of a variety of multicellular organisms, Hox genes have been shown to play a critical role in vertebrate pattern formation. Hox genes can be thought of as general purpose control genes—that is, they are similar in many organisms and direct the same processes in a variety of organisms, from mouse, to fly, to human. - Provides researchers an overview and synthesis of the latest research findings and contemporary thought in the area - Inclusion of chapters that discuss the evolutionary development of a wide variety of organisms - Gives researchers and clinicians insight into how defective Hox genes trigger developmental abnormalities in embryos
Ciliary Function in Mammalian Development
Cilia--the tiny hairlike structures on the surface of cells—-have recently been identified as playing a role in a variety of disease and developmental disorders. Absent or defective cilia in certain cells can cause infertility, blindness, kidney disease, and lung disease. This volume presents recent findings in cilia research and current thought on the role of cilia in disease and developmental abnormalities.
Signal Transduction
An explosion of information has occurred over the past few years in the field of signal transduction. As information form prokaryotes and eukaryotes has accumulated, it has become evident that diverse sensory systems share common mechanistic themes. This volume reviews our the current knowledge of molecular mechanisms for sensory transduction in a variety of microbial systems, as well as elegant work done in nematodes and Drosophila. Signal Transduction is intended for both researchers studying microbial systems and investigators and students of signal transduction in more complex organisms, who can learn from the paradigms and mechanisms conserved between prokaryotes and eukaryotes.
