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Item Biofilm Formation of Escherichia coli from Surface Soils is Influenced by Variation in Cell Envelope, Iron Metabolism, and Attachment Factor Genes(North Dakota State University, 2018) Petersen, Morgan L.Biofilm formation may increase survival and persistence of Escherichia coli in the highly variable conditions of soil environments, though it remains unknown the extent variation in biofilm formation affects survival. We asked what genetic traits influence biofilm formation in phylogroup D E. coli isolates from surface soils, and are they associated with the soil environment? Biofilm density was analyzed and compared with soil environment characteristics. Isolates produced more biofilm per unit growth at 15°C than 37°C. Biofilm formation was greater in soil isolates than fecal isolates and in soils with moisture and higher calcium and pH levels. A GWAS analysis found variants involved in cell envelope formation and structure were associated with biofilm formed at 37°C, and stress response and iron acquisition variants were associated with biofilm formed at 15°C. Motility variants were associated with a negative effect on biofilm formed and adhesion variants associated with a positive effect.Item Gene Regulation in Biofilms(North Dakota State University, 2011) Samanta, PriyankarSessile bacterial communities which form on the solid surface or solid-liquid interface are known as biofilms. Both single species and multispecies biofilms are characterized by an extracellular matrix of polymeric substances which gives them several hundred times more antibiotic resistances than a planktonic bacterial culture. Though bacteria are the most common causative agent of various diseases, because of the high antibiotic resistance, biofilms cause complications of various diseases like cystic fibrosis, prosthetic valve endocarditis, chronic pulmonary diseases, catheter-associated urinary tract infections and several other diseases. From past studies, quorum sensing has been established as a novel target mechanism against biofilms; in this study, the two-component signal transduction systems (2CSTSs) have been focused. Once better understood, 2CSTSs can serve as a novel drug target and prevention mechanism for biofilm associated diseases. According to prior high-throughput experiments and phenotype microarray experiments by our lab, several 2CSTSs like OmpR-EnvZ, RcsCDB along with the global regulator FlhD/FlhC were hypothesized to have an important effect on various developmental stages of biofilm formation. From that past study, we postulated that acetate metabolism may be an important aspect for biofilm formation. In this study, we tested and confirmed this hypothesis. We observed biofilms formed by several mutants in 2CSTS, as well as mutants in acetate metabolism, using Scanning Electron Microscopy (SEM). We found quantitative and qualitative differences in the biofilm of the acetate mutants when compared to their isogenic parental Escherichia coli strain. An additional mutation in rcsB with acetate mutant strains forms less clumpy biofilms whereas an additional mutation in dcuR results in the formation of less biofilms. So the structural and the quantitative differences of acetate mutant biofilms depend on additional mutations in rcsB and dcuR. Though a number of studies have been done on the temporal gene expression within biofilms, spatial gene expression of the mature biofilm is a big gap of knowledge. The future aim of this study is to study the temporal as well as the spatial gene expression of different 2CSTSs in the biofilm. In my MS thesis, I have constructed selected promoter fused GFP /RFP plasmids and some other fusion plasmids were purchased from the promoter collections from Open Biosystems, lastly E. coli AJW678 bacterial strains were transformed with these GFP /RFP fused plasmids. A 96 well microtiter plate assay was performed to study the temporal expression from the promoters by quantifying the fluorescence intensity in the planktonic culture. According to this experiment, the highest expression of flhD was after 20 hours whereas, the expression of ompR increases up to 7 days, which indicates that the flhD expresses earlier than ompR. The decreasing phase of flhD expression was paralleled by the sharpest increase in ompR expression as phosphorylated OmpR is an inhibitor of flhD expression.Item Attachment and Biofilm Formation of Foodborne Pathogens(North Dakota State University, 2017) Smith, Sara JeanOutbreaks of Listeria monocytogenes, Salmonella, and Escherichia coli are increasingly attributed to fresh produce. Current control measures have been assessed for decades, with no alternatives adopted. Sources were identified, reducing flhD transcription and biofilm amounts nearly 2-fold. β-phenylethylamine (PEA), reduced growth and biofilm 96% and 70%, respectively. Curli production was assessed and found to be microorganism-, strain-, and/or serotype-dependent. Reporter fusions were constructed, evaluating expression of Listeria cellulose protein (Lcp). Plcp was not impacted by conditions used. Conditions were then used in attachment of L. monocytogenes to stainless steel. Attachment was significantly reduced by 5 ppm chlorine and 2% lysate. Small molecules could be alternatives to current control measures. More research is needed on what induces curli production. Controls confirm that reporter fusions are an effective way to discover signals impacting gene expression. Attachment/expression assays, indicate that something other than Lcp are responsible for changes in attachment to stainless steel.