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Articles 1 - 7 of 7
Full-Text Articles in Virology
Functional Characterization Of Mycobacterium Smegmatis Phage Moomoo Gene Products: Identification Of Toxic Genes, Whitney Heard
Functional Characterization Of Mycobacterium Smegmatis Phage Moomoo Gene Products: Identification Of Toxic Genes, Whitney Heard
Masters Theses & Specialist Projects
Mycobacteriophages are a group of phages that infect members of the genus Mycobacteria. Previous studies have conducted extensive comparisons of the mycobacteriophage genomes and amino acid sequences to establish different phage families. MooMoo is a singleton mycobacteriophage that has been characterized due to its lack of appreciable homology to other phages. Some of its unique properties include its structure and the isolation of a mutant that causes clear plaque phenotypes. The experiments described in this thesis identified three MooMoo phage (gp87, gp90, and gp91) encoded proteins that are toxic to the bacterial host, Mycobacterium smegmatis.Through the use of a …
The Isolation And Characterization Of Bacteriophage Hasitha, Gillian Brown
The Isolation And Characterization Of Bacteriophage Hasitha, Gillian Brown
Mahurin Honors College Capstone Experience/Thesis Projects
Microbacteriophage Hasitha is a virus that infects Microbacterium foliorum, a bacterium associated with grasses that was first discovered in Germany. Hasitha was isolated from an enriched compost sample and is of particular interest due to its unusual growth pattern. Most bacteriophages require actively growing host cells to produce new phage progeny. However, Hasitha can infect and kill stationary (non-replicating) bacterial cells. We discovered this unusual characteristic through a fortuitous observation of infected lawns that were allowed to incubate in the lab workspace for approximately one month. During this time, a noticeable “halo” grew around the initial site of infection …
Identifying Essential Viral Genes Through Genomic Engineering, Amber Carroll
Identifying Essential Viral Genes Through Genomic Engineering, Amber Carroll
Mahurin Honors College Capstone Experience/Thesis Projects
Bacteria developed resistance to penicillin a mere four years after the groundbreaking antibiotic was first mass produced (Casadevall, 2010). Since then, the development of antibiotic-resistant bacteria has steadily risen, causing millions of difficult to treat infections annually. The challenge is to identify ways to combat these menacing microbes. Bacteriophages are viruses that infect bacteria and can potentially be used to eliminate deadly antibiotic-resistant bacteria. The number of sequenced bacteriophage genomes has increased tremendously over the past 10 years, but little is known about the function of most bacteriophage genes. The purpose of this study was to expand our understanding of …
Properties Of A Genetically Unique Mycobacteriophage, Amanda K. Staples
Properties Of A Genetically Unique Mycobacteriophage, Amanda K. Staples
Masters Theses & Specialist Projects
Bacteriophage MooMoo is a temperate phage that was isolated and propagated on Mycobacterium smegmatis (M. smeg). It typically produces turbid plaques, however spontaneous clear plaque mutants can be readily isolated. Both turbid (MooMoo-T) and clear plaque (MooMoo-C) formers can establish stable lysogens, but the parental turbid plaque forming phage has a higher lysogenic frequency. The phage repressor protein typically plays the central role in regulating the lysis/lysogeny decision. Therefore, we expected that the mutation responsible for the clear plaque phenotype would be located in the repressor gene. Remarkably, whole genome sequencing detected a single base pair mutation in the minor …
Restoration Of Phage Growth On A Non-Permissive Host By Bypassing Transcription Termination Signals, Millicent Ronkainen
Restoration Of Phage Growth On A Non-Permissive Host By Bypassing Transcription Termination Signals, Millicent Ronkainen
Mahurin Honors College Capstone Experience/Thesis Projects
RNA polymerase is the central enzyme in all gene expression. The rpoCY75N mutation in the zinc-binding domain of the β’ subunit of E. coli RNA polymerase blocks a unique RNA-based mechanism of transcription antitermination utilized by bacteriophage HK022 and its relatives. Here, we describe the characterization of mutant phage, orc0368, which overcomes the rpoCY75N mutation. The orc0368 genome varies from the wild type phage genome by 4 single base pair mutations. Three of these mutations were not characterized because they occur in intergenic regions but the fourth was chosen for study because of its location between a series …
Contribution Of A Putative Up Element Dna Sequence To The Activity Of A Newly Identified Phage Promoter, Courtney Hamilton
Contribution Of A Putative Up Element Dna Sequence To The Activity Of A Newly Identified Phage Promoter, Courtney Hamilton
Mahurin Honors College Capstone Experience/Thesis Projects
In transcription, a universal step in gene expression, information from a DNA sequence is copied into RNA. A key component in gene expression is the promoter sequence, a region of DNA to which RNA polymerase binds during the initiation of transcription of downstream genes. Most bacterial promoters contain a -10 and a -35 sequence that are bound by the RNA polymerase. Some promoters also contain an Upstream Promoter (UP) element. UP elements have been shown to boost promoter activity. We recently identified a new promoter in a mutant bacteriophage that grows on a bacterial host that prevents antitermination of phage …
Defining The Requirements For Early Gene Expression In Bacteriophage Hk639, Amanda L. Seaton
Defining The Requirements For Early Gene Expression In Bacteriophage Hk639, Amanda L. Seaton
Masters Theses & Specialist Projects
Lambdoid phages suppress transcription termination to fully express their genes. Antitermination of early gene expression in most lambdoid phages is mediated by an interaction between the N protein and a number of host-encoded factors. Bacteriophage HK022 does not rely on a protein for antitermination. To promote full expression of early phage genes, the transcripts of the HK022 put sites interact directly with RNA polymerase to convert it to a termination resistant form. Bacteriophage HK639 also uses RNA-mediated antitermination. However, it only possesses a single put-like element in its left operon. Because most lambdoid phages, including HK022, have antiterminator elements in …