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Vertebrate myogenesis = stem cells a...
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SpringerLink (Online service)
Vertebrate myogenesis = stem cells and precursors /
Record Type:
Language materials, printed : Monograph/item
Title/Author:
Vertebrate myogenesis/ edited by Beate Brand-Saberi.
Reminder of title:
stem cells and precursors /
other author:
Brand-Saberi, Beate.
Published:
Berlin, Heidelberg :Springer Berlin Heidelberg : : 2015.,
Description:
vi, 242 p. :ill. (some col.), digital ; : 24 cm.;
Contained By:
Springer eBooks
Subject:
Myogenesis. -
Online resource:
http://dx.doi.org/10.1007/978-3-662-44608-9
ISBN:
9783662446089 (electronic bk.)
Vertebrate myogenesis = stem cells and precursors /
Vertebrate myogenesis
stem cells and precursors /[electronic resource] :edited by Beate Brand-Saberi. - Berlin, Heidelberg :Springer Berlin Heidelberg :2015. - vi, 242 p. :ill. (some col.), digital ;24 cm. - Results and problems in cell differentiation,v.560080-1844 ;. - Results and problems in cell differentiation ;55..
Recruitment of skeletal muscle progenitors to secondary sites: A role for CXCR4/SDF-1 signaling in skeletal muscle development -- Hypaxial muscle - controversial classification and controversial data Skeletal Myogenesis in the Zebrafish and its Implications for Muscle Disease Modeling -- Mechanisms of Myogenic Specification and Patterning -- The avian embryo as a model system for skeletal myogenesis -- Head Muscle Development -- The lateral plate mesoderm a novel source of skeletal muscle -- Regulation of skeletal muscle development and disease by microRNAs -- Adult skeletal muscle stem cells -- Dormancy and quiescence of skeletal muscle stem cells.
This book addresses the differentiation control of skeletal muscle in different locations of the vertebrate body. Particular attention is paid to novel regulatory molecules and signals as well as to the heterogeneity of origin that have revealed a developmental overlap between skeletal and cardiac muscle. Different functional muscle groups are the product of the evolution of the vertebrate classes, making a phylogenetic comparison worthwhile for understanding the role of muscle stem cells and precursors in myogenesis. New insights into the hierarchy of transcription factors, particularly in the context of these different muscle groups come from detailed investigations of the spatio-temporal and regulatory relationships derived from mouse and zebrafish genetics and avian microsurgery. Importantly, epigenetic mechanisms that have surfaced recently, in particular the role of MyomiRs, are also surveyed. Regarding human patients, encouraging results have been generated that identify parallels between embryonic myogenesis and regenerating myofibers that share regulatory molecules. Interestingly, the heterogeneity in embryonic origins of skeletal muscle groups in the vertebrate including humans is paralleled by their different susceptibility to types of muscle dystrophies. The progress that has been made in the field of muscle stem cell biology, especially on satellite cells, is outlined in this book by experts in the field. The authors review recent insights of the heterogeneous nature of these satellite cells regarding their gene signatures and regeneration potential. An improved understanding of muscle stem cells seems only possible with a view to the cell environment , putting embryological and molecular findings from different vertebrate classes and stem cell approaches into context.
ISBN: 9783662446089 (electronic bk.)
Standard No.: 10.1007/978-3-662-44608-9doiSubjects--Topical Terms:
1063074
Myogenesis.
LC Class. No.: QL979
Dewey Class. No.: 571.6
Vertebrate myogenesis = stem cells and precursors /
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Recruitment of skeletal muscle progenitors to secondary sites: A role for CXCR4/SDF-1 signaling in skeletal muscle development -- Hypaxial muscle - controversial classification and controversial data Skeletal Myogenesis in the Zebrafish and its Implications for Muscle Disease Modeling -- Mechanisms of Myogenic Specification and Patterning -- The avian embryo as a model system for skeletal myogenesis -- Head Muscle Development -- The lateral plate mesoderm a novel source of skeletal muscle -- Regulation of skeletal muscle development and disease by microRNAs -- Adult skeletal muscle stem cells -- Dormancy and quiescence of skeletal muscle stem cells.
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This book addresses the differentiation control of skeletal muscle in different locations of the vertebrate body. Particular attention is paid to novel regulatory molecules and signals as well as to the heterogeneity of origin that have revealed a developmental overlap between skeletal and cardiac muscle. Different functional muscle groups are the product of the evolution of the vertebrate classes, making a phylogenetic comparison worthwhile for understanding the role of muscle stem cells and precursors in myogenesis. New insights into the hierarchy of transcription factors, particularly in the context of these different muscle groups come from detailed investigations of the spatio-temporal and regulatory relationships derived from mouse and zebrafish genetics and avian microsurgery. Importantly, epigenetic mechanisms that have surfaced recently, in particular the role of MyomiRs, are also surveyed. Regarding human patients, encouraging results have been generated that identify parallels between embryonic myogenesis and regenerating myofibers that share regulatory molecules. Interestingly, the heterogeneity in embryonic origins of skeletal muscle groups in the vertebrate including humans is paralleled by their different susceptibility to types of muscle dystrophies. The progress that has been made in the field of muscle stem cell biology, especially on satellite cells, is outlined in this book by experts in the field. The authors review recent insights of the heterogeneous nature of these satellite cells regarding their gene signatures and regeneration potential. An improved understanding of muscle stem cells seems only possible with a view to the cell environment , putting embryological and molecular findings from different vertebrate classes and stem cell approaches into context.
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Biomedical and Life Sciences (Springer-11642)
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