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Full-Text Articles in Life Sciences
Genomic Epidemiology Of Clinical Salmonella Enterica In New Hampshire, 2017-2020, Madison R. Turcotte
Genomic Epidemiology Of Clinical Salmonella Enterica In New Hampshire, 2017-2020, Madison R. Turcotte
Legacy Theses & Dissertations (2009 - 2024)
Antimicrobial resistance in Salmonella enterica remains a challenging public health threat. We aim to characterize the population structure and evolutionary history of 394 genomes of S. enterica isolates recovered from human clinical cases in New Hampshire, USA from 2017 to 2020. The population is phylogenetically diverse, consisting of 78 STs and 67 serotypes. We detected 61 genes associated with resistance to14 different antimicrobial classes. Rather than a single multidrug resistant clone expanding in the state, we found multiple lineages carrying different combinations of independently acquired resistance determinants. New or emerging lineages can therefore rapidly spread over relatively short timeframes. In …
An Assessment Of Combinatorial Transcription Factor Activity At P53 Enhancer Elements, Sylvia Kuang
An Assessment Of Combinatorial Transcription Factor Activity At P53 Enhancer Elements, Sylvia Kuang
Biological Sciences
Certain non-coding DNA sequences in the eukaryotic genome regulate gene expression. These non-coding regulatory regions, including promoters and enhancers, are controlled by the binding of multiple transcription factors which act together to regulate gene transcription. The number of potential transcription factor combinations regulating any gene presents a massive experimental challenge. One well-known transcription factor, p53, activates multiple transcription pathways involved in tumor suppression, primarily through engagement with enhancers. p53 is one member of a paralogous transcription factor family, which includes the factor p63. Whereas p53 is involved in tumor suppression, p63 is a transcription factor responsible for maintaining epithelial cell …
Genome-Scale Analyses Of Transcription And Transcriptional Regulation In Bacteria, Devon Marie Fitzgerald
Genome-Scale Analyses Of Transcription And Transcriptional Regulation In Bacteria, Devon Marie Fitzgerald
Legacy Theses & Dissertations (2009 - 2024)
The textbook model of bacterial transcription regulation posits that promoters occur immediately upstream of genes and that transcription factors (TFs) modulate transcription through promoter-proximal binding. However, the recent application of unbiased genome-wide approaches, such as ChIP-seq and RNA-seq, has revealed a much more complex picture, including TF binding and transcription initiation occurring in unexpected locations. This dissertation describes the use of deep sequencing-based approaches to evaluate the genome-wide binding of transcription-related proteins and identify locations of transcription initiation. I have assessed the genome-wide binding of three Escherichia coli TFs and an alternative σ factor. Additionally, I have analyzed genome-wide patterns …
A Locus-Based Paradigm For Generating Systems Biological Inferences From Large Scale Functional Genomics Datasets, Ajish Dominic George
A Locus-Based Paradigm For Generating Systems Biological Inferences From Large Scale Functional Genomics Datasets, Ajish Dominic George
Legacy Theses & Dissertations (2009 - 2024)
Genomics data is growing at a exponential rate. The ability to integrate new results with existing knowledge about genomic biology is rapidly becoming the limiting factor as there no universal language with which to describe genomic functional elements. To integrate and compare new and existing genomic data, we define our basic functional unit of a genome to be a locus -- a set of positional coordinates along any genome with an arbitrary amount of functional annotations attached. The locus concept enables addressing genomic elements and annotations at any level of granularity from entire swaths of chromosomes to single base-positions. We …