Browsing Molecular Reproduction, Development and Genetics (MRDG) by Advisor "Nongthomba, Upendra"
Now showing items 1-17 of 17
-
Developmental and Functional Roles of Troponin-T Isoforms, and Exploring Genome-Wide Alterations in Drosophila Indirect Flight Muscle Mutants
(2018-05-23)Muscle contraction is a highly fine-tuned process that requires the precise and timely construction of large protein sub-assemblies to form sarcomeres, the individual contractile units. Mutations in many of the genes ... -
Dissecting the role of Ataxin 2 Binding Protein 1 in sarcomeric protein stoichiometry and generation of muscle diversity in Drosophila melanogaster
Drosophila muscles are an excellent model to study muscle development, diversity and function. Drosophila muscles consist of two major types –1. Indirect Flight Muscles (IFM), that are fibrillar; as opposed to other tubular ... -
Dissecting the Role of Calcium Binding Proteins in Muscle using Drosophila Indirect Flight Muscles as the Model System
Muscle development and function are highly synchronized processes that involve simultaneous action of several transcription factors, signalling cascades, kinases and phosphatases, ion channels, structural proteins and ... -
Evaluation of Cytogenotoxic Potential and Embryotoxicity of KRS Cauvery River Water in Zebrafish (Danio Rerio)
Pollutants and other forms of environmental stress (lifestyle and social behaviour) are of global concern due to significant adverse effects on human health. The term "exposome" has emerged as a concept in environmental ... -
Functional Characterization of CG9650 in development of the Indirect Flight Muscles of Drosophila melanogaster
Muscle development is a complex and multifactorial process involving assembly of thousands of proteins in a precise and synchronized manner over the course of development of an organism. Multiple genes and signalling ... -
Functional characterization of WD40-repeat protein, WDR8, in Zebrafish to gain insight into its role in Isolated Microspherophakia
WD40-repeat (WDR) proteins are a family of proteins that are characterized by widespread occurrence, low level of sequence conservation, common structural conformation (β propeller structure) and functional diversity. ... -
Genetic control of Embryonic and Adult muscle development in Drosophila melanogaster by Mlp60A
Many genetic regulatory networks are required to define the overall characters in a living organism. Characters which are necessary for survival in the wild are often canalized, such that despite genetic and environmental ... -
Genetics of Drosophila Indirect Flight Muscles : Unraveling the Roles of Genes Involved in Muscle Development and Function
Myofibrillogenesis is a complex process involving assembly of many structural proteins in an orchestrated spatio-temporal manner to form a highly ordered contractile sarcomeric unit. Mutations in the proteins involved in ... -
Investigating the Novel Roles of miR-9a and the Regulators of Mitochondrial Dynamics During the Development and Functioning of Indirect Flight Muscles in Drosophila melanogaster
The muscular system is a highly complex and important system in the body. Proper muscle physiology is critical for locomotion, digestion, circulation, reproduction as well as for metabolic and immune homeostasis. Defects ... -
Investigating the role and regulation of Polypyrimidine tract binding protein (PTB) in isoform switching during muscle development in Drosophila melanogaster
Muscles are an excellent system to dissect the development, physiology and evolution of cell heterogeneity and isoform switching. The vertebrate skeletal muscles are composed of heterogeneous muscle fibres. These fibres ... -
Investigating the role of taxi gene in flight behavior of Drosophila melanogaster
Locomotion is essential for animals and it is regulated by crosstalk between neurons and muscles. Although defects in the crosstalk between neurons and muscles are implicated in many mobility related diseases in human, ... -
Role of CG9650 in Neuronal Development And Function of Drosophila Melanogaster
(2017-10-05)The nervous system is the most complex system in an organism. Functioning of the nervous system requires proper formation of neural cells, as well as accurate connectivity and signaling among them. While the major events ... -
The role of neuronal integrity in maintaining gut functions and homeostasis
This thesis investigates two main aspects of neuronal integrity and gut health. Firstly, it examines the intricate relationship between neuronal integrity and the maintenance of gut homeostasis in Drosophila melanogaster. ... -
Roles of Drosophila Beadex and CG9650 in the development and functioning of the larval neuromuscular junctions
In eukaryotes, all voluntary and involuntary actions like, cognition, learning & memory, voluntary movements, feeding, etc., are coordinated by the employment of neuronal circuitry that transmits the signal from the ... -
Spatio-Temporal Control Of Drosophila Indirect Flight Muscle Development And Maintenance By The Transcription Factor Erect Wing
(2016-04-27)Muscle development involves concerted action of a repertoire of mechanisms governing myoblast proliferation, migration, fusion and differentiation. Subsequently, there are cellular events administrating proper muscle ... -
Unravelling The Mechanisms Of Myofibrillogenesis And Human Myopathies Using Drosophila Mutants
(2013-07-18)Myofibrillogenesis is a complex process, which involves assembly of hundreds of structural proteins in a highly ordered manner to form the contractile structural unit of muscle, the sarcomere. Several myopathic conditions ... -
Urolithin-A mitigates synaptic dysfunctions associated with epilepsy through VDAC1 inhibition: A novel therapeutic approach
Urolithin-A mitigates synaptic dysfunctions associated with epilepsy through VDAC1 inhibition: A novel therapeutic approach Epilepsies are a group of neurological disorders with a prevalence of 70 million people worldwide ...