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Transcriptional and Translational Regulation of Stem Cells [electronic resource] / edited by Gary Hime, Helen Abud.

Contributor(s): Material type: TextTextSeries: Advances in Experimental Medicine and Biology ; 786Publisher: Dordrecht : Springer Netherlands : Imprint: Springer, 2013Description: X, 371 p. 61 illus., 53 illus. in color. online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9789400766211
Subject(s): Additional physical formats: Printed edition:: No titleDDC classification:
  • 610 23
LOC classification:
  • R-RZ
Online resources:
Contents:
The stem cell state -- Induction of pluripotency -- Germline stem cells and their regulation in the nematode Caenorhabditis elegans -- Transcriptional and post-transcriptional regulation of Drosophila germline stem cells and their differentiating progeny -- Stem cells in the Drosophila digestive system -- Mechanisms of Asymmetric Progenitor Divisions in the Drosophila Central Nervous System -- Transcriptional / Translational Regulation of Mammalian Spermatogenic Stem Cells -- Transcriptional Regulation and Specification of Neural Stem Cells -- Transcriptional Control of Epidermal Stem Cells -- Regulation of intestinal stem cells by Wnt and Notch signalling -- Transcriptional regulation of haematopoietic stem cells -- Regulation of mesenchymal stem cell differentiation -- Molecular families implicated in stem cell regulation -- The Musashi family of RNA binding proteins: Master regulators of multiple stem cell populations -- JAK-STAT signalling in stem cells -- Myc in Stem Cell Behaviour: insights from Drosophila -- The Role of Nuclear Receptors in Embryonic Stem Cells -- Epigenetic regulation of stem cells.- Regulation of stem cell populations by microRNAs -- Myb and the Regulation of stem cells in the Intestine and Brain: A Tale of Two Niches.
In: Springer eBooksSummary: Stem cells are central to the development and homeostasis of metazoan tissues and play roles at multiple times within a diversity of organs during the lifetime of an animal. A key goal of regenerative medicine is the in vivo repair of organs damaged by disease or injury.  In order to facilitate this goal we need to understand how stem cells are generated, what factors maintain them in their respective tissues and how their differentiation is regulated. In this volume, leading researchers discuss the nature of stem cells and pluripotency and how this state can be experimentally induced.  Stem cell maintenance, proliferation and differentiation is under tight regulation as excess stem cell proliferation could facilitate tumour formation and conversely loss of stem cells or failure of  differentiation could disrupt tissue homeostasis or  repair. Hence, stem cells are regulated by multiple layers of molecular control and this volume discusses transcriptional, translational, epigenetic, cell signalling and microRNA modalities that affect stem cell behaviour. Many of the underlying key principles of stem cell biology were discovered by genetic analysis of invertebrate systems and chapters in this volume describe regulation of the germline in C. elegans and in the digestive system, central nervous system and germline of Drosophila. The molecular processes that regulate regenerative organ systems from all three of the vertebrate germ layers are described with emphasis on the male germline, nervous system, epidermis, intestine, haematopoietic system and derivatives of the mesoderm. Several chapters also focus on molecular families that have been implicated in controlling a range of stem cell types including the JAK-STAT, Wnt and  Notch signalling pathways; Myc, Myb and nuclear receptor transcriptional regulators; the Musashi family of RNA-binding proteins; microRNAs and epigenetic regulators. This volume will provide access to the current state of research in these rapidly evolving areas of stem cell biology to the student, educator or researcher.
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The stem cell state -- Induction of pluripotency -- Germline stem cells and their regulation in the nematode Caenorhabditis elegans -- Transcriptional and post-transcriptional regulation of Drosophila germline stem cells and their differentiating progeny -- Stem cells in the Drosophila digestive system -- Mechanisms of Asymmetric Progenitor Divisions in the Drosophila Central Nervous System -- Transcriptional / Translational Regulation of Mammalian Spermatogenic Stem Cells -- Transcriptional Regulation and Specification of Neural Stem Cells -- Transcriptional Control of Epidermal Stem Cells -- Regulation of intestinal stem cells by Wnt and Notch signalling -- Transcriptional regulation of haematopoietic stem cells -- Regulation of mesenchymal stem cell differentiation -- Molecular families implicated in stem cell regulation -- The Musashi family of RNA binding proteins: Master regulators of multiple stem cell populations -- JAK-STAT signalling in stem cells -- Myc in Stem Cell Behaviour: insights from Drosophila -- The Role of Nuclear Receptors in Embryonic Stem Cells -- Epigenetic regulation of stem cells.- Regulation of stem cell populations by microRNAs -- Myb and the Regulation of stem cells in the Intestine and Brain: A Tale of Two Niches.

Stem cells are central to the development and homeostasis of metazoan tissues and play roles at multiple times within a diversity of organs during the lifetime of an animal. A key goal of regenerative medicine is the in vivo repair of organs damaged by disease or injury.  In order to facilitate this goal we need to understand how stem cells are generated, what factors maintain them in their respective tissues and how their differentiation is regulated. In this volume, leading researchers discuss the nature of stem cells and pluripotency and how this state can be experimentally induced.  Stem cell maintenance, proliferation and differentiation is under tight regulation as excess stem cell proliferation could facilitate tumour formation and conversely loss of stem cells or failure of  differentiation could disrupt tissue homeostasis or  repair. Hence, stem cells are regulated by multiple layers of molecular control and this volume discusses transcriptional, translational, epigenetic, cell signalling and microRNA modalities that affect stem cell behaviour. Many of the underlying key principles of stem cell biology were discovered by genetic analysis of invertebrate systems and chapters in this volume describe regulation of the germline in C. elegans and in the digestive system, central nervous system and germline of Drosophila. The molecular processes that regulate regenerative organ systems from all three of the vertebrate germ layers are described with emphasis on the male germline, nervous system, epidermis, intestine, haematopoietic system and derivatives of the mesoderm. Several chapters also focus on molecular families that have been implicated in controlling a range of stem cell types including the JAK-STAT, Wnt and  Notch signalling pathways; Myc, Myb and nuclear receptor transcriptional regulators; the Musashi family of RNA-binding proteins; microRNAs and epigenetic regulators. This volume will provide access to the current state of research in these rapidly evolving areas of stem cell biology to the student, educator or researcher.

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