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Engineering Adult Neurogenesis and Gliogenesis
  • Language: en
  • Pages: 187
Plant Development
  • Language: en
  • Pages: 474

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

HOX Genes
  • Language: en
  • Pages: 345

HOX Genes

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

Forces and Tension in Development
  • Language: en
  • Pages: 332

Forces and Tension in Development

Published in affiliation with the Society for Developmental Biology.

Transcriptional Switches During Development
  • Language: en
  • Pages: 387

Transcriptional Switches During Development

This new volume in the Current Topics in Developmental Biology series concentrates on transcriptional switches during development. It includes chapters on such topics as muscle diversity, transcriptional response to genome structural variation, and the temporal gene network in Drosophila neural stem cells. With an international team of authors, this volume is a must-have addition for researchers and students alike. - Concentrates on transcriptional switches during development - Includes chapters on such topics as muscle diversity, transcriptional response to genome structural variation, and the temporal gene network in Drosophila neural stem cells - With an international team of authors, this volume is a must-have addition for researchers and students alike

Synaptic Loss and Neurodegeneration
  • Language: en
  • Pages: 180

Synaptic Loss and Neurodegeneration

None

Adult neurogenesis twenty years later: physiological function versus brain repair
  • Language: en
  • Pages: 121

Adult neurogenesis twenty years later: physiological function versus brain repair

The discovery that mammalian brains contain neural stem cells which perform adult neurogenesis - the production and integration of new neurons into mature neural circuits - has provided a fully new vision of neural plasticity. On a theoretical basis, this achievement opened new perspectives for therapeutic approaches in restorative and regenerative neurology. Nevertheless, in spite of striking advancement concerning the molecular and cellular mechanisms which allow and regulate the neurogenic process, its exploitation in mammals for brain repair strategies remains unsolved. In non-mammalian vertebrates, adult neurogenesis also contributes to brain repair/regeneration. In mammals, neural stem cells do respond to pathological conditions in the so called "reactive neurogenesis", yet without substantial regenerative outcome. Why, even in the presence of stem cells in the brain, we lack an effective reparative outcome in terms of regenerative neurology, and which factors hamper the attainment of this goal? Essentially, what remains unanswered is the question whether (and how) physiological functions of adult neurogenesis in mammals can be exploited for brain repair purposes.

Evolution and Development
  • Language: en
  • Pages: 281

Evolution and Development

The marriage of evolutionary biology with developmental biology has resulted in the formation of a new field, evolutionary developmental biology, or "evo-devo. This volume reviews current research findings and thought in the broad field of evo-devo, looking at the developmental genetic mechanisms that cause variation and how alterations of these mechanisms can generate novel structural changes in a variety of plant and animal life. - Reviews current research findings and thought on evolutionary developmental biology, providing researchers an overview and synthesis of the latest research findings and contemporary thought in the area - Includes chapters discussing the evolutionary development of a wide variety of organisms and allows researchers to compare and contrast how genes are expressed in a variety of organisms—from fly to frog, to humans - Emphasizes the role of regulatory DNA in evolutionary development to give researchers perspective on how the regions of the genome that control gene expression and the protein factors that bind them are ultimately responsible for the diversity of life that has evolved

Mechanisms of Neuronal Recovery in the Central Nervous System
  • Language: en
  • Pages: 255