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基本説明
Incorporates latest findings on control of smooth muscle development.
Full Description
Muscle development of vertebrates has been a paradigm of cell differentiation for many years. Three types of muscle are found in the vertebrate body: skele- tal, heart and smooth muscle, and there has been a gradient of concern about these different muscle types in the sequence they are mentioned here. Skeletal muscle has received much attention because it can be induced to differentiate in vitro and because of the clinical relevance of myopathies. The discovery of the muscle-specific members of the bHLH and MADS families of transcription factors must be regarded as a breakthrough not only in muscle research and have opened new insights into the genetic control of differentiation. Conse- quently, the effects of gene-targeting of the MyoD-related (myfs) and MEF transcription factors soon became objects of investigation. Along with the genetic control of skeletal and heart muscle development, the temporal-spatial appearance of cells fated to become myocytes has been of foremost interest. The source of all skeletal muscle of the trunk is the paraxial mesoderm, which gives rise to metameric entities, the somites.
The somite can be regarded as a turntable of mesodermal cell fates, chondrocytes, fibroblasts, angioblasts of these deriva- and skeletal muscle precursors. The coordinated development tives is tightly controlled by local tissue interactions between embryonic struc- tures such as the neural tube, the notochord, the lateral plate and the ectoderm.
Contents
Development of Visceral Smooth Muscles.- 1 Early Appearance of Smooth Muscles.- 2 Timing of Smooth Muscle Development.- 3 Morphology of Developing Smooth Muscles.- 4 Cytological Differentiation.- 5 Chemical Differentiation.- 6 Growth of Visceral Smooth Muscles.- 7 Cell Division and Increase in Cell Number.- 8 Extracellular Materials and Vascularization.- 9 Origin of Smooth Muscle Precursors.- 10 Influence of Endothelium, Epithelium, Connective Tissue and Nerves on Smooth Muscle Development.- 11 Development of Mechanical Activity.- 12 Related Processes of Development and Growth.- 13 Synopsis.- References.- Mammalian Smooth Muscle Differentiation: Origins, Markers and Transcriptional Control.- 1 Introduction.- 2 Smooth Muscle Cell Ontogeny.- 3 Molecular Definitions of Smooth Muscle Cell Lineages.- 4 Future Perspectives.- References.- The Genetics of Murine Skeletal Muscle Biogenesis.- 1 Introduction.- 2 The Restriction of Cell Fate and Views on Cell Determination.- 3 The Somite Is a Source of Multiple Cell Types.- 4 The Acquisition of Cell Fate in the Somite: Myf5 and Myod Confer Skeletal Muscle Identity.- 5 Subpopulations of Stem Cells Migrate from the Somite to the Limb.- 6 Extrinsic Factors Direct Cell Identity in the Somite.- 7 Manipulations of the Myf5 Locus and Distal Rib Phenotypes: the Complexities of Gene Regulation.- 8 Conclusions.- References.- Somite Patterning: a Few More Pieces of the Puzzle.- 1 Introduction.- 2 Segmental Plate Morphology.- 3 Somite Differentiation.- 4 Tissue and Molecular Regulation of Somite Differentiation.- 5 Conclusion.- References.- Transcription Factors in Skeletal Myogenesis of Vertebrates.- 1 Myogenesis.- 2 Determination and Differentiation of Muscle Precursor Cells.- 3 Hypaxial Muscle Development.- 4 Regeneration of Skeletal Muscle.- 5 Perspectives.- References.- Hypaxial Muscle Development.- 1 Introduction.- 2 Developmental Anatomy of Trunk Skeletal Muscles in Amniotes.- 3 Markers for Hypaxial Muscle Precursors.- 4 Specification of Hypaxial Muscle Precursors.- 5 Specification of Migratory Muscle Precursors.- 6 Building a Regulatory Network for Hypaxial Muscle Development.- References.- Inhibition of Skeletal Muscle Development: Less Differentiation Gives More Muscle.- 1 Introduction.- 2 Secreted Signalling Molecules.- 3 Extracellular Matrix.- 4 Transcription Factors.- 5 Summary.- References.- Control of Muscle Size During Embryonic, Fetal, and Adult Life.- 1 Introduction.- 2 Somite Patterning and Specification of Myogenic Cells.- 3 Allocation of Cells to the Dorsal Somite Compartment.- 4 Migration of Muscle Precursor Cells.- 5 Balance Between Proliferation and Differentiation.- 6 Muscle Growth in the Embryonic, Fetal, and Neonatal Periods of Development.- 7 Embryonic and Fetal Muscle Fibers.- 8 Embryonic, Fetal, and Adult Myoblasts.- 9 Number of Embryonic and Fetal Myoblasts and Fiber Formation.- 10 Innervation and Muscle Fiber Number and Size.- 11 Muscle Hypertrophy and Regeneration.- 12 Programmed Cell Death During Muscle Development.- 13 Recruitment of Myogenic Cells from Adult Pluripotent Stem Cells.- References.- Cadherins in Skeletal Muscle Development.- 1 Cadherins.- 2 Cadherins in Myogenesis.- 3 Summary and Outlook.- References.- Slow Myosins in Muscle Development.- 1 Introduction.- 2 Myosin Heavy Chain Genes.- 3 Slow Myosin Heavy Chain Genes in Avian Skeletal Muscle.- 4 Slow Myosin Heavy Chain Genes in Mammalian Skeletal Muscle.- 5 Slow MyHC Genes in Fish Skeletal Muscle.- 6 Hedgehog Family of Signaling Molecules and Slow Myosin Expression in Skeletal Muscle Development.- 7 Innervationand Calcineurin Responsive Pathways and the Control of Slow MyHC Expression in Skeletal Muscle.- 8 Slow MyHC Expression in the Developing Heart.- 9 Summary.- References.- Molecular Characterization of Early Cardiac Development.- 1 Introduction.- 2 Molecular Control of Heart Field and Tubular Heart Formation.- 3 Molecular Control of Cardiac Chamber Formation.- References.
