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Accumulation And Transmission Dynamics Of A Naturally-Occurring Mtdna Deletion In Caenorhabditis Briggsae, Jennifer Anne Sullins

Dissertations and Theses

Maintaining mitochondrial genome sequence integrity is essential for preserving normal mitochondrial function. Several human diseases have been associated with heteroplasmic mitochondrial genome mutations, but few genetic systems can simultaneously represent pathogenic mitochondrial genome evolution and inheritance. The nematode Caenorhabditis briggsae is one such model. Natural C. briggsae isolates are globally-distributed and phylogenetically grouped into three distinct clades, with isolates exhibiting varying levels of a large-scale mtDNA deletion, nad5∆. Furthermore, a small subset of clade II isolates exhibits putative compensatory mutations that may reduce the risk of deletion formation and accumulation in those populations. In this thesis, the author characterizes the …

Comparative Genetic And Genomic Analysis Of The Novel Fusellovirus Sulfolobus Spindle-Shaped Virus 10, David Andrew Goodman

Dissertations and Theses

Viruses that infect thermophilic Archaea are unique in both their structure and genetic makeup. The lemon-shaped fuselloviruses - which infect members of the order Sulfolobales, growing optimally at 80º C and pH 3 - are some of the most ubiquitous and best studied viruses of the thermoacidophilic Archaea. They provide a malleable and useful genetic tool for probing into the functions of their host, as well as the host responses to infection. Nonetheless, much about these viruses remains to be learned to further understand their morphological, genetic, and life cycle characteristics.

In order to investigate these aspects of these …

Completion Of Dna Replication In Escherichia Coli, Brian Michael Wendel

Dissertations and Theses

To maintain genomic integrity, all cells must accurately duplicate their genetic material in order to provide intact and complete copies to each daughter cell following cell division. Successful inheritance of chromosomal information without changing even a single nucleotide requires accurate and robust DNA replication. This requires that cells tightly control replication initiation from the origin(s), processive elongation of the replisome, and the completion of DNA replication by resolving convergent replication forks ensuring that each sequence is duplicated without alteration. Unlike initiation and elongation, the process by which replication forks converge and are resolved into two discrete, inheritable DNA molecules is …

Adaptive Evolution Under Favorable And Unfavorable Population Genetic Conditions In Caenorhabditis Elegans Nematodes, Stephen Fuller Christy

Dissertations and Theses

Mutation is a fundamental process that drives evolutionary change; however, most new mutations are deleterious for organismal fitness and can readily propagate within populations under a broad range of conditions. Mutational processes able to counteract deleterious mutation accumulation include: 1) reversion mutation back to wildtype, 2) acquisition of generally beneficial mutations, and 3) compensatory mutations that specifically mitigate the effects of previously-acquired deleterious mutations through epistasis. The potential for any of these mutation types alters our expectations for the impact of deleterious mutation in populations, but since the fitness effects of individual mutations are rarely characterized, the relative importance of …

Phenotypic And Mutational Consequences Of Mitochondrial Etc Genetic Damage, Michael James Lue

Dissertations and Theses

Genetic mutation is the ultimate source of new phenotypic variation in populations. The importance of mutation cannot be understated, and constitutes a significant evolutionary force. Although single mutations may have little to no impact on organismal performance or fitness, when multiplied across the total number of potential sites within the genome, mutation can have a large impact. Accurate measurement of the rates, molecular mechanisms, and distributions of effects of mutations are critical for many applications of evolutionary theory. Despite the importance of both deleterious and beneficial mutations, their genome-wide patterns and phenotypic consequences are poorly understood when considering the mitochondrial …

Genes Affecting The Repair And Survival Of Escherichia Coli Following Psoralen-Induced Damage: A Dna Interstrand Crosslinking Agent, Anthonige Vidya Perera

Dissertations and Theses

Photoactivated psoralens and other agents that form DNA interstrand crosslinks are highly cytotoxic and are useful in treating a range of diseases, including vitiligo, psoriasis, and some forms of cancer. Unlike many lesions that damage only one strand of the duplex DNA, DNA interstrand crosslinks form covalent bonds with both strands. Thus, repairing these lesions is complicated both by the lack of an undamaged strand to serve as a template for resynthesis following excision, as well as the potential to form double strand breaks if both strands are incised. A number of models have proposed that repair is likely to …

Construction And Analysis Of Mutant Hsv-1 Viruses Having Mutations In The Yy1 And/Or Sp1 Binding Sites Of The Glycoprotein D (Gd) Gene Promoter, Sabine Ludwig

Dissertations and Theses

The purpose of this study was to construct and analyze four recombinant herpes simplex virus type 1 (HSV-1) viruses having mutations in the YYl and/or Sp1 binding sites of the glycoprotein D (gD) gene promoter and a control virus containing a wild type (wt) gD promoter. The YYl and Spl binding sites in the HSV-1-gD gene promoter have been shown in earlier in vitro experiments to be essential for virus-induced gD gene expression with Sp1 playing the major role. The first part of my project required the construction of four different plasmids containing a HSV-1 sequence that included the gD …