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Analysis of Numb 3’ UTR in Mouse Skeletal Muscle

Description
The Numb gene encodes an adaptor protein that has been shown to play a role in muscle repair, cell proliferation, and the determination of cell fate in satellite cells. Ablation of this gene in satellite cells results in an up-regulation of myostatin and p21, which inhibit the proliferation of myoblasts.

The Numb gene encodes an adaptor protein that has been shown to play a role in muscle repair, cell proliferation, and the determination of cell fate in satellite cells. Ablation of this gene in satellite cells results in an up-regulation of myostatin and p21, which inhibit the proliferation of myoblasts. These results indicate that the regulation of numb and myostatin could be used to amplify muscle regeneration. This would function as a therapeutic approach to degenerative muscle diseases, such as muscular dystrophy. There are four mammalian NUMB proteins produced through alternative splicing of the Numb mRNA transcript. Only two isoforms are present in adult mammalian muscle, indicating some form of muscle-specific post-transcriptional control of the gene. Additionally, the presence of two polyadenylation sites, and multiple miRNA seed sequences within the 3’ untranslated region (UTR) of mouse Numb indicate the possibility of regulation by a muscle specific miRNA.
ContributorsGefroh, Bailey Emelia (Co-author) / Gefroh, Bailey (Co-author) / Wilson-Rawls, Jeanne (Thesis director) / Rawls, Alan (Committee member) / Palade, Joanna (Committee member) / School of International Letters and Cultures (Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2019-12
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miRNA Expression and Strand Selection Throughout C. elegans Development

Description
MicroRNAs (miRNAs) are 17-22 nucleotide non-coding RNAs that regulate gene expression by targeting non-complementary elements in the 3’ untranslated regions (3’UTRs) of mRNAs. miRNAs, which form complex networks of interaction that differ by tissue and developmental stage, display conservation in their function across metazoan species. Yet much remains unknown regarding

MicroRNAs (miRNAs) are 17-22 nucleotide non-coding RNAs that regulate gene expression by targeting non-complementary elements in the 3’ untranslated regions (3’UTRs) of mRNAs. miRNAs, which form complex networks of interaction that differ by tissue and developmental stage, display conservation in their function across metazoan species. Yet much remains unknown regarding their biogenesis, localization, strand selection, and their absolute abundance due to the difficulty of detecting and amplifying such small molecules. Here, I used an updated HT qPCR-based methodology to follow miRNA expression of 5p and 3p strands for all 190 C. elegans miRNAs described in miRBase throughout all six developmental stages in triplicates (total of 9,708 experiments), and studied their expression levels, tissue localization, and the rules underlying miRNA strand selection. My study validated previous findings and identified novel, conserved patterns of miRNA strand expression throughout C. elegans development, which at times correlate with previously observed developmental phenotypes. Additionally, my results highlighted novel structural principles underlying strand selection, which can be applied to higher metazoans. Though optimized for use in C. elegans, this method can be easily adapted to other eukaryotic systems, allowing for more scalable quantitative investigation of miRNA biology and/or miRNA diagnostics.
ContributorsMeadows, Dalton Alexander (Author) / Mangone, Marco (Thesis advisor) / LaBaer, Joshua (Committee member) / Murugan, Vel (Committee member) / Wilson-Rawls, Jeanne (Committee member) / Arizona State University (Publisher)
Created2023