Chapter category: Development
Comparison of Muscle Development in Drosophila and Vertebrates
Muscle Development in Drosophila
Edited by: Helen SinkISBN: 0-387-30053-8
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Chapter authors:
Michael V. Taylor
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Additional chapters from this book:
The Muscle Pattern of Drosophila
Volker Hartenstein
The musculature of insects is composed of an external, multilayered array of body wall muscles (somatic musculature), an internal layer of visceral muscles that surround the digestive tract and gonads...
An Introduction to Muscle Development in Drosophila
Helen Sink
Muscles have multiple roles in organisms. These roles range from facilitating conscious and unconscious movement, to maintaining posture, stabilizing joints, generating body heat, and moving substan...
Comparison of Muscle Development in Drosophila and Vertebrates
Michael V. Taylor
There are many fundamental similarities in the biology of Drosophila and vertebrates, and Drosophila has become a prominent model organism for studies of animal develop ment. Here the development of...
Molecular Basis of Muscle Structure
Jim O. Vigoreaux
The flight muscle myofibril is a precisely assembled cytoskeletal network of contractile proteins that produces high power to sustain flight. This chapter will focus on myofibrillar assembly during ...
Metamorphosis and the Formation of the Adult Musculature
Devkanya Dutta and K. VijayRaghavan
The somatic musculature of the adult fly comprises of muscles that are morphologically and functionally very distinct from each other. How are these diverse muscle types generated during pupal devel...
Development of the Larval Somatic Musculature
Ana Carmena and Mary Baylies
The larval somatic musculature of Drosophila is arranged in a highly stereotyped pattern of 30 muscle fibers per hemisegment. Each muscle possesses a distinctive set of properties: size, shape, orie...
Muscle Attachment Sites—Where Migrating Muscles Meet Their Match
Talila Volk
The precise match between somatic muscles and their epidermal muscle attachment cells is achieved through a continuous dialogue between these two cell types. Initially, an intricate pattern of tendo...
Muscle Morphogenesis: The Process of Embryonic Myoblast Fusion
Susan M. Abmayr and Kiranmai S. Kocherlakota
One important aspect of myogenic differentiation in Drosophila melanogaster, as in many other organisms, is the generation of multinucleate muscle fibers through the fusion of myoblasts. This proces...
Neuromuscular Development: Connectivity and Plasticity
Louise Nicholson and Haig Keshishian
The Drosophila neuromuscular junction provides an excellent model system in which to study synaptic development. Axon outgrowth, target selection, and synaptogenesis have been extremely well charact...
Development of the Somatic Gonad and Fat Bodies
Mark Van Doren
The development of the Drosophila fat body and gonads represent excellent models for studying cell type specification, patterning and morphogenesis during organ formation. Moreover, these organs are...
Development of the Larval Visceral Musculature
Hsiu-Hsiang Lee, Stephane Zaffran and Manfred Frasch
The visceral mesoderm of Drosophila forms the thin layers of muscle fibers surrounding the digestive tract. Both during their development and after differentiation, these muscle tissues have crucial...
Whole Genome Approaches to Studying Drosophila Muscle Development
Eileen E.M. Furlong
With the development of microarray technology, and other whole-genome approaches, it is now possible to systematically screen an entire genome for genes that are differentially expressed during two ...
Mesoderm Formation in the Drosophila Embryo
Noriko Wakabayashi-Ito, Y. Tony Ip
All muscle cells develop from the mesoderm, which is the middle germ layer in the early embryo. The mesoderm itself derives from the ventral cells of the blastoderm stage embryo. Therefore, the regu...
