Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus

Rhodothermus marinus is a thermohalophilic bacterium isolated from submarine hot springs off the Reykjanes Peninsula in the Isafjardardjup Bay, Iceland. This bacterium has the ability to undergo cellular processes in conditions of extreme heat and high sodium concentrations, such as those present in...

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Main Author: Silvia, Sophie
Format: Text
Language:unknown
Published: DigitalCommons@URI 2020
Subjects:
uL4 Ribosomal Protein
Antibiotic Resistance
Rhodothermus marinus
Thermus thermophilus
Molecular Biology
Iceland
Online Access:https://digitalcommons.uri.edu/srhonorsprog/762
https://digitalcommons.uri.edu/context/srhonorsprog/article/1849/type/native/viewcontent/Silvia_Poster.jpg
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spelling ftunivrhodeislan:oai:digitalcommons.uri.edu:srhonorsprog-1849 2024-09-15T18:14:32+00:00 Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus Silvia, Sophie 2020-04-01T07:00:00Z image/jpg https://digitalcommons.uri.edu/srhonorsprog/762 https://digitalcommons.uri.edu/context/srhonorsprog/article/1849/type/native/viewcontent/Silvia_Poster.jpg unknown DigitalCommons@URI https://digitalcommons.uri.edu/srhonorsprog/762 https://digitalcommons.uri.edu/context/srhonorsprog/article/1849/type/native/viewcontent/Silvia_Poster.jpg http://creativecommons.org/licenses/by-nc-sa/4.0/ Senior Honors Projects uL4 Ribosomal Protein Antibiotic Resistance Rhodothermus marinus Thermus thermophilus Molecular Biology text 2020 ftunivrhodeislan 2024-08-21T00:09:33Z Rhodothermus marinus is a thermohalophilic bacterium isolated from submarine hot springs off the Reykjanes Peninsula in the Isafjardardjup Bay, Iceland. This bacterium has the ability to undergo cellular processes in conditions of extreme heat and high sodium concentrations, such as those present in its native habitat. Phylogenetically, R. marinus is more closely related to mesophiles, raising questions about its ability to adapt and survive in high temperatures. In order to begin the process of developing a model system to study the structure, function, and evolution of the R. marinus ribosome, spontaneous mutants arising when exposed to selective pressures, like antibiotics, need to be isolated. By comparing specific areas of interest in the ribosome, like the peptidyltransferase center (PTC) of 23s rRNA, and ribosomal proteins like uL4, we can identify mutations that allow survival despite potential effects on growth. The PTC has one of the most highly conserved genetic sequences and is resilient to mutation, which are characteristics that contribute to preserving ribosome function which is critical for cell survival. Ribosomal protein uL4 is near the macrolide binding site where macrolide antibiotics reside and inhibit protein synthesis. I have identified novel deletion mutations in R. marinus ribosomal protein uL4. These deletions arose as a result of homologous recombination between short, directly repeated sequences in R. marinus rplD, the gene encoding uL4. Using gene synthesis and molecular genetic approaches, I have begun to reconstruct these mutations in the rplD gene of Thermus thermophilus, a model system for structure-function studies of the ribosome. The ultimate goal of this work is to determine the atomic-resolution structures of mutant ribosomes by X-ray crystallography, thereby establishing the mechanism of antibiotic resistance, and the structural effects of these deletion mutations on a critical ribosome active site. Text Iceland University of Rhode Island: DigitalCommons@URI
institution Open Polar
collection University of Rhode Island: DigitalCommons@URI
op_collection_id ftunivrhodeislan
language unknown
topic uL4 Ribosomal Protein
Antibiotic Resistance
Rhodothermus marinus
Thermus thermophilus
Molecular Biology
spellingShingle uL4 Ribosomal Protein
Antibiotic Resistance
Rhodothermus marinus
Thermus thermophilus
Molecular Biology
Silvia, Sophie
Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus
topic_facet uL4 Ribosomal Protein
Antibiotic Resistance
Rhodothermus marinus
Thermus thermophilus
Molecular Biology
description Rhodothermus marinus is a thermohalophilic bacterium isolated from submarine hot springs off the Reykjanes Peninsula in the Isafjardardjup Bay, Iceland. This bacterium has the ability to undergo cellular processes in conditions of extreme heat and high sodium concentrations, such as those present in its native habitat. Phylogenetically, R. marinus is more closely related to mesophiles, raising questions about its ability to adapt and survive in high temperatures. In order to begin the process of developing a model system to study the structure, function, and evolution of the R. marinus ribosome, spontaneous mutants arising when exposed to selective pressures, like antibiotics, need to be isolated. By comparing specific areas of interest in the ribosome, like the peptidyltransferase center (PTC) of 23s rRNA, and ribosomal proteins like uL4, we can identify mutations that allow survival despite potential effects on growth. The PTC has one of the most highly conserved genetic sequences and is resilient to mutation, which are characteristics that contribute to preserving ribosome function which is critical for cell survival. Ribosomal protein uL4 is near the macrolide binding site where macrolide antibiotics reside and inhibit protein synthesis. I have identified novel deletion mutations in R. marinus ribosomal protein uL4. These deletions arose as a result of homologous recombination between short, directly repeated sequences in R. marinus rplD, the gene encoding uL4. Using gene synthesis and molecular genetic approaches, I have begun to reconstruct these mutations in the rplD gene of Thermus thermophilus, a model system for structure-function studies of the ribosome. The ultimate goal of this work is to determine the atomic-resolution structures of mutant ribosomes by X-ray crystallography, thereby establishing the mechanism of antibiotic resistance, and the structural effects of these deletion mutations on a critical ribosome active site.
format Text
author Silvia, Sophie
author_facet Silvia, Sophie
author_sort Silvia, Sophie
title Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus
title_short Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus
title_full Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus
title_fullStr Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus
title_full_unstemmed Understanding rplD Gene Mutations of Rhodothermus marinus through Mutagenesis using Thermus thermophilus
title_sort understanding rpld gene mutations of rhodothermus marinus through mutagenesis using thermus thermophilus
publisher DigitalCommons@URI
publishDate 2020
url https://digitalcommons.uri.edu/srhonorsprog/762
https://digitalcommons.uri.edu/context/srhonorsprog/article/1849/type/native/viewcontent/Silvia_Poster.jpg
genre Iceland
genre_facet Iceland
op_source Senior Honors Projects
op_relation https://digitalcommons.uri.edu/srhonorsprog/762
https://digitalcommons.uri.edu/context/srhonorsprog/article/1849/type/native/viewcontent/Silvia_Poster.jpg
op_rights http://creativecommons.org/licenses/by-nc-sa/4.0/
_version_ 1810452296834744320

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