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- Genre: Masters Thesis
Description
The Multiple Antibiotic Resistance Regulator Family (MarR) are transcriptional regulators, many of which forms a dimer. Transcriptional regulation provides bacteria a stabilized responding system to ensure the bacteria is able to efficiently adapt to different environmental conditions. The main function of the MarR family is to create multiple antibiotic resistance from a mutated protein; this process occurs when the MarR regulates an operon. We hypothesized that different transcriptional regulator genes have interactions with each other. It is known that Salmonella pagC transcription is activated by three regulators, i.e., SlyA, MprA, and PhoP. Bacterial Adenylate Cyclase-based Two-Hybrid (BACTH) system was used to research the protein-protein interactions in SlyA, MprA, and PhoP as heterodimers and homodimers in vivo. Two fragments, T25 and T18, that lack endogenous adenylate cyclase activity, were used for construction of chimeric proteins and reconstruction of adenylate cyclase activity was tested. The significant adenylate cyclase activities has proved that SlyA is able to form homodimers. However, weak adenylate cyclase activities in this study has proved that MprA and PhoP are not likely to form homodimers, and no protein-protein interactions were detected in between SlyA, MprA and PhoP, which no heterodimers have formed in between three transcriptional regulators.
ContributorsTao, Zenan (Author) / Shi, Yixin (Thesis advisor) / Wang, Xuan (Committee member) / Bean, Heather (Committee member) / Arizona State University (Publisher)
Created2018
Description
One out of ten women has a difficult time getting or staying pregnant in the United States. Recent studies have identified aging as one of the key factors attributed to a decline in female reproductive health. Existing fertility diagnostic methods do not allow for the non-invasive monitoring of hormone levels across time. In recent years, olfactory sensing has emerged as a promising diagnostic tool for its potential for real-time, non-invasive monitoring. This technology has been proven promising in the areas of oncology, diabetes, and neurological disorders. Little work, however, has addressed the use of olfactory sensing with respect to female fertility. In this work, we perform a study on ten healthy female subjects to determine the volatile signature in biological samples across 28 days, correlating to fertility hormones. Volatile organic compounds (VOCs) present in the air above the biological sample, or headspace, were collected by solid phase microextraction (SPME), using a 50/30 µm divinylbenzene/carboxen/polydimethylsiloxane (DVB/CAR/PDMS) coated fiber. Samples were analyzed, using comprehensive two-dimensional gas chromatography-time-of-flight mass spectrometry (GC×GC-TOFMS). A regression model was used to identify key analytes, corresponding to the fertility hormones estrogen and progesterone. Results indicate shifts in volatile signatures in biological samples across the 28 days, relevant to hormonal changes. Further work includes evaluating metabolic changes in volatile hormone expression as an early indicator of declining fertility, so women may one day be able to monitor their reproductive health in real-time as they age.
ContributorsOng, Stephanie (Author) / Smith, Barbara (Thesis advisor) / Bean, Heather (Committee member) / Plaisier, Christopher (Committee member) / Arizona State University (Publisher)
Created2018
Description
Coccidioidomycosis or Valley Fever (VF) is an emerging fungal respiratory infection endemic to the southwest region of the United States, and parts of Mexico, Central and South America. Satellite cases have also been reported in Washington and Oregon. It is estimated that in Maricopa County alone, VF accounts for 10-30% of community-acquired pneumonia. Difficulty in diagnosis is largely attributed to lack of antibody reactivity to antigens used in diagnosis, especially early in disease. Serological detection of VF employs mycelial-phase culture filtrates as antigen. While culture filtrates are thought to provide the most specific diagnostic antigen, preparation includes the growth of large volume Coccidioides cultures which require employment of extensive safety precautions in a BSL3 setting. An additional concern with use of culture filtrates as an antigen source is batch variability, as expression of immunogenic proteins within each lot are variable. To address safety and batch variability concerns, this thesis proposes the use of recombinant Coccidioides proteins as a consistent and reliable antigen source. For the purpose of this study, I expressed known antigenic Coccidioides proteins in a eukaryotic, recombinant protein expression system. Recombinant endochitinase-1 (rCTS1) and recombinant heat-labile antigen (rHL-Ag) were evaluated for serologic reactivity by ELISA, using a sample set of 55 known serologically positive and 55 known negative human sera specimens, previously tested in Mayo Clinic Arizona (MCA) serologic laboratories. Evaluation by ELISA demonstrated 94.55% sensitivity and 92.72% specificity using combined rCTS1 and rHL-Ag as an antigen source, indicating promising diagnostic utility.
ContributorsRoeder, Alexa Jordan (Author) / Lake, Douglas (Thesis advisor) / Grys, Thomas (Committee member) / Bean, Heather (Committee member) / Arizona State University (Publisher)
Created2020