Myogenesis in Development and Disease Current Topics in Developmental Biology Series
Myogenesis in Development and Disease, Volume 126, the latest volume in the Current Topics in Developmental Biology series, covers major topics of research in myogenesis, with a particular emphasis on regeneration and muscle disease. It includes contributions from an international board of authors, providing a comprehensive set of reviews.
1. "What Did Maxwell’s Equations Really Have to Do With Edison’s Invention?": Addressing the Complexity of Developing Clinical Interventions for Skeletal Muscle Disease Jonathan Dando 2. The Muscle Stem Cell Niche in Health and Disease Omid Mashinchian, Addolorata Pisconti, Emmeran Le Moal and C.Florian Bentzinger 3. Translational Control of the Myogenic Program in Developing, Regenerating, and Diseased Skeletal Muscle Ryo Fujita and Colin Crist 4. The Composition, Development, and Regeneration of Neuromuscular Junctions Wenxuan Liu and Joe V. Chakkalakal 5. Cellular Biomechanics in Skeletal Muscle Regeneration Edward W. Li, Olivia C. McKee-Muir and Penney M. Gilbert 6. Satellite Cell Self-Renewal Lorenzo Giordani, Alice Parisi and Fabien Le Grand 7. "Known Unknowns": Current Questions in Muscle Satellite Cell Biology Dawn D.W. Cornelison 8. Epigenetic Regulation of Adult Myogenesis Daniel C.L. Robinson and Francis J. Dilworth 9. Dysregulated Myogenesis in Rhabdomyosarcoma Peter Y. Yu and Denis C. Guttridge 10. Muscle Stem Cells and Aging Andrew Brack and Ara B. Hwang
- Covers major topics of research in myogenesis
- Contains invaluable contributions from an international board of authors
- Provides a comprehensive set of reviews
Date de parution : 01-2018
Ouvrage de 334 p.
15x22.8 cm
Mots-clés :
Aging; Congenital myasthenia syndrome; Extracellular matrix; Motor neuron; Muscle; Muscle stem cells; Muscular dystrophy; Myasthenia gravis; Myogenesis; Neuromuscular disorders; Niche; Niche regulation; Regeneration; Regenerative failure; Sarcopenia; Satellite cell; Satellite cells; Skeletal muscle; Stem cell dysfunction; Stem cell niche; Stem cells; Synapse