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Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
Multicopy Suppression Of Ribosomal Protein Deletion Mutants, Jacqualine Cerbone
Multicopy Suppression Of Ribosomal Protein Deletion Mutants, Jacqualine Cerbone
Senior Honors Projects
To suppress the ribosome assembly defective phenotype of a ribosomal protein uS17- deficient mutant, various ribosomal proteins were used to act as multicopy suppressors. Ribosomal protein uS17 is a highly conserved component of the 30S (small) ribosomal subunit and is important for 30S subunit assembly. Mutants with a deletion of rpsQ (the gene encoding uS17) are viable but have a severe 30S subunit assembly defect and a temperature-sensitive (ts) phenotype. While fully assembled 30S subunits do form, incomplete ("20S") particles lacking several proteins accumulate. We hypothesized that increasing the intracellular concentration of one or more of the proteins missing from …
Describing The Effect Of Thin Layer Sediment Placement On Coastal Microbial Communities Using Foraminifera Diversity, Elizabeth B. Billings
Describing The Effect Of Thin Layer Sediment Placement On Coastal Microbial Communities Using Foraminifera Diversity, Elizabeth B. Billings
Senior Honors Projects
Salt marshes are rich ecosystems that play an important role in aquatic food systems and prevent erosion while also providing essential habitats for wildlife. Climate change has resulted in rising sea levels and erosion of these coastal wetlands. Thin Layer Sediment Placement (TLP) is a restoration effort being implemented to mitigate the effects of climate change on coastal ecosystems. The TLP process raises elevation of the marsh and provides substrates for vegetative growth by spraying dredged sediment over existing marsh. The impacts of TLP on microbial populations is not widely understood, therefore metrics are required to study the effects of …
A Pathogen Outside Its Host: F. Tularensis Survival In Water, Aisling Macaraeg
A Pathogen Outside Its Host: F. Tularensis Survival In Water, Aisling Macaraeg
Senior Honors Projects
Francisella tularensis is a Gram-negative pathogenic bacterium and is the causative agent for tularemia. While our understanding of F. tularensis survival in the environment is limited, it is clear they can persist in freshwater aquatic environments for long periods of time. Currently, there is a gap in knowledge with the understanding of the genes involved with the long-term survival of F. tularensis in an aquatic environment. In the laboratory setting, it has been found that lower temperatures seem to allow longer survival. The aim of this project is to identify laboratory conditions that allow F. tularensis to survive longterm in …