Molecular Genetic Analysis of Drosophila Melanogaster Paramyosin in Muscle Development, Structure, and Function

Molecular Genetic Analysis of Drosophila Melanogaster Paramyosin in Muscle Development, Structure, and Function

Author: Hongjun Liu

Publisher:

Published: 2003

Total Pages: 294

ISBN-13:

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Paramyosin is a major structural component of invertebrate muscles. It forms thick filament cores with other proteins. The motor protein myosin assembles on the surface of the core to form functional thick filaments. To investigate the roles of paramyosin in thick filament assembly as well as muscle contraction, I functionally knocked out the Drosophila melanogaster paramyosin gene by mobilizing a P element localized in the promoter region. I found that homozygous paramyosin mutants die at the embryo stage. Using electron microscopy and confocal microscopy, I analyzed the phenotypic defects of a functional null allele prm1. I observed that, in the absence of paramyosin, thick filaments of embryo body wall muscles are abnormal and the striated pattern of myobibrils is disrupted. These results indicate that paramyosin is essential for thick filament assembly and myofibril formation. Surprisingly, the muscle pattern of paramyosin mutant embryos is also abnormal. Mutation of paramyosin causes random losses of muscle fibers. Using a marker for founder myoblasts and the DMEF2 antibody which recognizes all myoblasts, I proved that the muscle fiber loss is not due to defects in myoblast differentiation. Rather, it is caused by abnomal myoblast fusion. Using a paramyosin specific antibody, I revealed that paramyosin functions as a cytoplasmic protein before myofibril formation and is important for myoblast fusion. I further investigated the function of paramyosin phosphorylation in the NH2-terminal non-helical domain. I made transgenic flies in which 1, 3, or 4 phosphorylatable serine residues in this domain are substituted with alanines. I observed that mutations of paramyosin at these residues do not affect the ultrastructure of myofibrils. However, mutant flies with substitution at some specific sites are flight impaired. Mechanical studies of indirect flight muscle fibers revealed that the flight impairment is caused by reduced fiber stiffness and power output. These results indicate that paramyosin phosphorylation in the NH2-terminal domain is important for muscle contraction.


Drosophila melanogaster: Practical Uses in Cell and Molecular Biology

Drosophila melanogaster: Practical Uses in Cell and Molecular Biology

Author:

Publisher: Academic Press

Published: 1995-01-25

Total Pages: 789

ISBN-13: 0080859429

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Drosophila melanogaster: Practical Uses in Cell and Molecular Biology is a compendium of mostly short technical chapters designed to provide state-of-the art methods to the broad community of cell biologists, and to put molecular and cell biological studies of flies into perspective. The book makes the baroque aspects of genetic nomenclature and procedure accessible to cell biologists. It also contains a wealth of technical information for beginning or advanced Drosophila workers. Chapters, written within a year of publication, make this topical volume a valuable laboratory guide today and an excellent general reference for the future.Key Features* Collection of ready-to-use, state-of-the art methods for modern cell biological and related research using Drosophila melanogaster* Accessible to both experienced Drosophila researchers and to others who wish to join in at the cutting edge of this system * Drosophila offers an easily managed life cycle, inexpensive lifestyle, extraordinarily manipulable molecular and classical genetics, now combined with powerful new cell biology techniques * Introduction and overview sections orient the user to the Drosophila literature and lore * Six full-color plates and over 100 figures and tables enhance the understanding of these cell biology techniques


Nature's Versatile Engine:

Nature's Versatile Engine:

Author: Jim Vigoreaux

Publisher: Springer Science & Business Media

Published: 2007-06-24

Total Pages: 308

ISBN-13: 0387312137

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Methods for Obtaining X-Ray Diffraction Patterns from Drosophila 198 Diffraction Patterns from Drosophila IFM 203 Concluding Remarks 211 Note Added in Proof 211 17. Functional and Ecological Effects of Isoform Variation in Insect Flight Muscle 214 James H. Marden Abstract 214 Introduction 215 Nature's Versatile Engine 215 The Underlying Genetics: An Underinflated Genome and a Hyperinflated Transcriptome and Proteome 216 Functional Effects of Isoform Variation 219 Alternative Splicing and the Generation of Combinatorial Complexity 220 Functional Consequences of Naturally Occurring Isoform Variation 220 18. Muscle Systems Design and Integration 230 Fritz- OlafLehmann Abstract 230 Power Requirements for Flight 230 Power Reduction 233 Power Constraints on Steering Capacity 234 Balancing Power and Control 236 Changes in Muscle Efficiency in Vivo 238 Concluding Remarks 239 From the Inside Out 19. Molecular Assays for Acto-Myosin Interactions 242 John C. Sparrow and Michael A. Geeves Abstract 242 Introduction 242 Myosin Purification and Preparation of the SI Fragment 243 Purification of Flight Muscle Actin 244 Assays of Myosin and Acto-Myosin 244 Major Conclusions Relating to the Enzymatic Properties of Insect Flight Muscle Acto-Myosin 247 Major Questions about Insect Flight Muscle Acto-Myosin Kinetics That Remain 249 20.


Muscle Homeostasis and Regeneration

Muscle Homeostasis and Regeneration

Author: Antonio MusarĂ²

Publisher: MDPI

Published: 2020-11-20

Total Pages: 500

ISBN-13: 3039434365

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The book is a collection of original research and review articles addressing the intriguing field of the cellular and molecular players involved in muscle homeostasis and regeneration. One of the most ambitious aspirations of modern medical science is the possibility of regenerating any damaged part of the body, including skeletal muscle. This desire has prompted clinicians and researchers to search for innovative technologies aimed at replacing organs and tissues that are compromised. In this context, the papers, collected in this book, addressing a specific aspects of muscle homeostasis and regeneration under physiopathologic conditions, will help us to better understand the underlying mechanisms of muscle healing and will help to design more appropriate therapeutic approaches to improve muscle regeneration and to counteract muscle diseases.


Molecular Biology of the Cell

Molecular Biology of the Cell

Author:

Publisher:

Published: 1999

Total Pages: 576

ISBN-13:

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MBC online publishes papers that describe and interpret results of original research conserning the molecular aspects of cell structure and function.


Cell Movements

Cell Movements

Author: Dennis Bray

Publisher: Garland Science

Published: 2001

Total Pages: 396

ISBN-13: 9780815332824

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This book vividly describes how complex and integrated movements can arise from the properties and behaviors of biological molecules. It provides a uniquely integrated account in which the latest findings from biophysics and molecular biology are put into the context of living cells. This second edition is updated throughout with recent advances in the field and has a completely revised and redrawn art program. The text is suitable for advanced undergraduates, graduate students, and for professionals wishing for an overview of this field.


The Roles of Myosin Heavy Chain, Enolase, and Paramyosin in Muscle Assembly and Function in Drosophila Melanogaster

The Roles of Myosin Heavy Chain, Enolase, and Paramyosin in Muscle Assembly and Function in Drosophila Melanogaster

Author: Michelle Mardahl-Dumesnil

Publisher:

Published: 1998

Total Pages: 428

ISBN-13:

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Manipulation of muscle genes to cause their under-, over- and mis-expression and subsequent assessment of resultant phenotypes offers a comprehensive approach to understand muscle assembly, development and function. These techniques are readily applied to the fruit fly, Drosophila melanogaster, because of the relative ease of mutant isolation and germ-line transformation. The consequences of altered muscle gene expression on muscle function and ultrastructure can be well characterized in this genetic system. This dissertation describes experiments to examine the roles of two thick filament proteins and a metabolic enzyme on Drosophila muscle structure and function. In the first chapter, I have determined the genetic lesion for the Mhc2 mutant and performed detailed ultrastructural analysis of the indirect flight muscle (IFM) of mutant and transgenic lines. This investigation reveals the negative effects of over-expression and under-expression of the Mhc gene on muscle function and structure. In Chapter Two, I characterize an enhancer detection line that exhibits strong IFM specific reporter gene activity. The P element of the enhancer detection line lies downstream of the enolase gene. Two interesting complementation groups result when the P element is used to mutagenize this locus. One complementation group is the first identification of a Drosophila enolase mutant, and the other is an unknown mutation that affects flight ability presumably by disrupting mitochondrial function in the IFM. In Chapter Three, I identify both standard (PM) and mini-paramyosin (mPM) mutants. Although thick filaments are present in embryonic body-wall muscle that is lacking PM, the sarcomere is unordered, indicating that PM is needed for its normal structure and function. Low levels of mPM significantly impair flight ability and viability. In addition, more thick filaments incorporate into IFM myofibrils of the mPM mutant than those of wild-type. Over-expression of either PM or mPM affects IFM structure and function. It also appears that equivalent stoichiometric levels of mPM and PM are important for correct sarcomeric structure in the IFM. From these studies, we determine that both PM and mPM confer specific structural qualities to the thick filament and myofibril morphology.