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Dissecting Interactions Across Gene Regulatory Layers In C. Elegans, Morgan Taylor
Dissecting Interactions Across Gene Regulatory Layers In C. Elegans, Morgan Taylor
Biological Sciences Theses and Dissertations
The nematode Caenorhabditis elegans is a powerful tool for studying nervous system genetics. Though relatively simple compared to mammals, C. elegans boasts a remarkably well-conserved neuronal genome and proteome, and its utility in the characterization of neuronal genes has been well-established. However, gene expression is often controlled by complex interactions between multiple genes, and teasing apart the functions of individual genes within such networks remains a challenge. Dissecting these interaction networks is crucial in determining the multifaceted functions of important, conserved regulatory genes. Here we explore interactions between gene regulatory layers in the C. elegans nervous system, employing a synthetic …
Regulation And Function Of The Mec-8/Rbpms Rna Binding Protein In Vivo, Xiaoyu Liang
Regulation And Function Of The Mec-8/Rbpms Rna Binding Protein In Vivo, Xiaoyu Liang
Biological Sciences Theses and Dissertations
Alternative splicing is a major form of post-transcriptional regulation of gene expression which plays a pivotal role in cell/tissue- specific identity, diversity, and function. The mechanisms of alternative splicing are well studied; however, the functional consequences of the spliced transcripts are relatively less demonstrated. Therefore, many efforts are needed to understand the physiological relevance of alternative splicing. RNA binding proteins are critical regulators of alternative splicing, their malfunction disrupt the normal networks, and further underlies many diseases. To understand how alternative splicing contributes to the physiological functions in the cells or tissues, we explored the regulatory networks of RNA binding …
Assembly Of The Peripheral Arm Subunits Of Escherichia Coli Complex I And Analysis Of Clinical Mutations, Hind Alkhaldi
Assembly Of The Peripheral Arm Subunits Of Escherichia Coli Complex I And Analysis Of Clinical Mutations, Hind Alkhaldi
Biological Sciences Theses and Dissertations
Respiratory Complex I from E. coli is a proto-type of the mitochondrial enzyme, consisting of a 6-subunit peripheral arm (B-CD-E-F-G-I) and a 7-subunit membrane arm. When subunits E-F-G (N-module), were expressed alone they formed an active complex as determined by co-immunoprecipitation and native gel electrophoresis. When co-expressed with subunits B and CD, only a complex of E-F-G was found. When these five subunits were co-expressed with subunit I and two membrane subunits, A and H, a complex of B-CD-E-F-G-I was membrane-bound, constituting the N- and Q-modules. Assembly of Complex I was also followed by splitting the genes between two plasmids, …
The Roles Of Individual Proteins In De Novo Recruitment Of Pcg Repressive Complexes To Giant, Anni Kum
The Roles Of Individual Proteins In De Novo Recruitment Of Pcg Repressive Complexes To Giant, Anni Kum
Biological Sciences Theses and Dissertations
Epigenetic gene regulation is the process by which external factors regulate the genome. This research studies Polycomb Group (PcG) proteins which function as epigenetic agents that work together in complexes to maintain gene silencing for multiple cellular generations. Drosophila melanogaster PcG proteins can be organized into three canonical complexes: Pho-RC, PRC1, and PRC2. Though there are multiple proposed models for the order of recruitment, it is generally accepted that PhoRC, PRC1, and PRC2 interact with each other to stably recruit to a target gene. Since these proteins are highly conserved, this project studies PcG proteins in the model organism, Drosophila …