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Full-Text Articles in Life Sciences
Investigation Into The Akirin Subcellular Localization And Developmental Interactions, Riley Wildeman
Investigation Into The Akirin Subcellular Localization And Developmental Interactions, Riley Wildeman
Master of Science in Integrative Biology Theses
Akirin is a highly conserved nuclear protein ubiquitously expressed in nonfungal eukaryotic species and is known to be involved in many biological processes such as embryonic muscle patterning and innate immune function. Akirin functionality is essential for the prevention of disease and developmental defects. This investigation focused on both the subcellular localization of Akirin based on a putative nuclear localization signal and the genetic interaction between Akirin and the Nucleosome Remodeling Deacetylase (NuRD) complex. Through transfection of Drosophila S2 cells with Akirin mutant constructs we were able to visualize the localization patterns of Akirin and how the patterns relate to …
Drosophila Model To Study Muscle Atrophy, Aaron Aghai
Drosophila Model To Study Muscle Atrophy, Aaron Aghai
Master of Science in Integrative Biology Theses
Muscle atrophy (MA) is a phenomenon of muscle mass loss due to accelerated protein degradation in muscle fibers. Some pathological conditions, such as chronic inflammation or cancer, induce accelerated MA, which complicates medical treatment, hampers recovery of fragile patients, and ultimately can be the cause of a patient’s death. To gain better control over MA, more information is required about the whole spectrum of genetic factors that can influence MA.
Drosophila provides an excellent platform for genetic screening, although it has somewhat limited utility for MA research since insect muscles lack the level of plasticity found in mammalian muscles. We …
Akirin-Mediated Gene Regulation During Cardiac Development, Austin M. Howard
Akirin-Mediated Gene Regulation During Cardiac Development, Austin M. Howard
Master of Science in Integrative Biology Theses
The highly conserved nuclear protein Akirin was previously identified as a cofactor that modulates Twist transcription factor activity during muscle development in Drosophila melanogaster. Akirin mediates an interaction between the Twist transcription factor and the multisubunit Brahma SWI/SNF-class chromatin remodeling complex at control elements of the Dmef2 locus to maintain optimal myogenic gene expression levels. Therefore, Akirin represents a class of novel secondary cofactors that work with transcription machinery to link transcription factor output with chromatin remodeling machinery to facilitate gene expression. Previous work establishes that Twist and Akirin also interact at Twist-responsive control elements of the tinman gene, …