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- Creators: School of Molecular Sciences
Description
Lyme disease is a common tick-borne illness caused by the Gram-negative bacterium Borrelia burgdorferi. An outer membrane protein of Borrelia burgdorferi, P66, has been suggested as a possible target for Lyme disease treatments. However, a lack of structural information available for P66 has hindered attempts to design medications to target the protein. Therefore, this study attempted to find methods for expressing and purifying P66 in quantities that can be used for structural studies. It was found that by using the PelB signal sequence, His-tagged P66 could be directed to the outer membrane of Escherichia coli, as confirmed by an anti-His Western blot. Further attempts to optimize P66 expression in the outer membrane were made, pending verification via Western blotting. The ability to direct P66 to the outer membrane using the PelB signal sequence is a promising first step in determining the overall structure of P66, but further work is needed before P66 is ready for large-scale purification for structural studies.
ContributorsRamirez, Christopher Nicholas (Author) / Fromme, Petra (Thesis director) / Hansen, Debra (Committee member) / Department of Physics (Contributor) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
With a quantum efficiency of nearly 100%, the electron transfer process that occurs within the reaction center protein of the photosynthetic bacteria Rhodobacter (Rh.) sphaeroides is a paragon for understanding the complexities, intricacies, and overall systemization of energy conversion and storage in natural systems. To better understand the way in which photons of light are captured, converted into chemically useful forms, and stored for biological use, an investigation into the reaction center protein, specifically into its cascade of cofactors, was undertaken. The purpose of this experimentation was to advance our knowledge and understanding of how differing protein environments and variant cofactors affect the spectroscopic aspects of and electron transfer kinetics within the reaction of Rh. sphaeroides. The native quinone, ubiquinone, was extracted from its pocket within the reaction center protein and replaced by non-native quinones having different reduction/oxidation potentials. It was determined that, of the two non-native quinones tested—1,2-naphthaquinone and 9,10- anthraquinone—the substitution of the anthraquinone (lower redox potential) resulted in an increased rate of recombination from the P+QA- charge-separated state, while the substitution of the napthaquinone (higher redox potential) resulted in a decreased rate of recombination.
ContributorsSussman, Hallie Rebecca (Author) / Woodbury, Neal (Thesis director) / Redding, Kevin (Committee member) / Lin, Su (Committee member) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2015-12
Description
As of March 2020, there were over 112,400 patients actively waiting on the United States national organ transplant waitlist with only about 3,300 donors1. Although transplantation is an effective treatment for end-stage organ failure, the access to a procedure will vary depending on national regulations, cost of health care, extensive screening processes, and the availability of organs2. Organ shortage is a worldwide problem, and the growing insufficiency has resulted patients becoming too for ill or dying while waiting3. Due to the varying wait times and costs of procedures, some patients have begun to outsource their own transplantation through international transactions, also known as transplant tourism2. The 2004 World Health Assembly resolution recognized these trades as a significant health policy issue, while also acknowledging the inability of national health care systems to meet the needs of patients4. To address this issue, a proposal will be made such that all live kidney and liver donors will be compensated $22,500 and $12,150 respectively through a cost-neutral scheme based on annual healthcare expenditures per organ that would be eliminated by a transplant. With this proposal, it is suggested that the organ transplant waitlist would not only be significantly reduced, but potentially eliminated, and the crisis of organ shortage would be defeated.
ContributorsMartin, Starla (Author) / Kingsbury, Jeffrey (Thesis director) / Edmonds, Hallie (Committee member) / School of Molecular Sciences (Contributor) / School of Human Evolution & Social Change (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
Nanosphere lithography is a high throughput procedure that has important implications
for facile, low cost scaling of nanostructures. However, current benchtop experiments have
limitations based on the placement of molecular species that exhibit greater than singlemolecular binding. In addition, reliance upon bottom-up self-assembly of close-packed
nanospheres makes it problematic to resolve images using low-cost light microscopes due to the
spacing limitations smaller in magnitude than light wavelength. One method that is created to
resolve this issue is iterative size reduction (ISR), where repetitive ‘iterative’ processes are
employed in order to increase the precision at which single molecules bind to a given substrate.
ISR enables inherent separation of nanospheres and therefore any subsequent single molecule
binding platforms. In addition, ISR targets and encourages single-molecule binding by
systematically reducing binding site size. Results obtained pursuing iteratively reduced
nanostructures showed that many factors are needed to be taken into consideration, including
functionalization of nanosphere particles, zeta potential, and protonation-buffer reactions.
Modalities used for observation of nanoscale patterning and single-molecule binding included
atomic force microscopy (AFM) and ONI super-resolution and fluorescence microscopy. ISR
was also used in conjunction with zero mode waveguides, which are nanoapertures enabling realtime single molecule observation at zeptoliter volumes. Although current limitations and
obstacles still exist with reproducibility and scalability of ISR, it nonetheless exhibits limitless
potential and flexibility in nanotechnology applications.
for facile, low cost scaling of nanostructures. However, current benchtop experiments have
limitations based on the placement of molecular species that exhibit greater than singlemolecular binding. In addition, reliance upon bottom-up self-assembly of close-packed
nanospheres makes it problematic to resolve images using low-cost light microscopes due to the
spacing limitations smaller in magnitude than light wavelength. One method that is created to
resolve this issue is iterative size reduction (ISR), where repetitive ‘iterative’ processes are
employed in order to increase the precision at which single molecules bind to a given substrate.
ISR enables inherent separation of nanospheres and therefore any subsequent single molecule
binding platforms. In addition, ISR targets and encourages single-molecule binding by
systematically reducing binding site size. Results obtained pursuing iteratively reduced
nanostructures showed that many factors are needed to be taken into consideration, including
functionalization of nanosphere particles, zeta potential, and protonation-buffer reactions.
Modalities used for observation of nanoscale patterning and single-molecule binding included
atomic force microscopy (AFM) and ONI super-resolution and fluorescence microscopy. ISR
was also used in conjunction with zero mode waveguides, which are nanoapertures enabling realtime single molecule observation at zeptoliter volumes. Although current limitations and
obstacles still exist with reproducibility and scalability of ISR, it nonetheless exhibits limitless
potential and flexibility in nanotechnology applications.
ContributorsLe, Eric K (Author) / Hariadi, Rizal (Thesis director) / Kishnan, Devika (Committee member) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
In 2017 alone, over 250,00 patients died due to medical errors and is the 3rd leading cause of death in America. These errors attributed to incorrect diagnosis and treatment of illnesses can be preventable. The solution to this major issue is the creation of an app called HealthKeep. Primary market research done during the first semester of the study included the creation of a school-wide survey across all ASU campuses that consisted of key questions for people of all ages in regards to their healthcare. These questions include how often patients of specific age ranges visit the doctor, their overall experience during appointments, and their attitudes towards the creation of a mobile health application that would be able to tabulate all your medical information neatly and securely. The overwhelming response stated that patient’s from all ranges would be open to the idea of having such an application. Further development included the creation of a business plan and application storyboard used when interviewing potential customers about the application. All of these tools aided in the first entry for Venture Devils in the first semester leading to the disappointing failure of winning funding. However, the feedback on the website created, executive summary, expanded pitch deck, and market research aided in the successful key revisions of the venture during this second semester and has resulted in placement in the final round of Pitch Playoffs where funding can be awarded.
ContributorsSiraj, Salim (Co-author) / Undrill, Grayson (Co-author) / Ott, Madison (Co-author) / Smith, Keaton (Co-author) / Byrne, Jared (Thesis director) / Sebold, Brent (Committee member) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
OP50 Esherichia coli is a Gram-negative bacterium with a fast replication rate and can be easily manipulated, making it a model species for many science disciplines. To probe this bacterium’s search strategy, cultures were starved and the cell velocity was probed at various points later in time after perturbing the buffer in which the bacteria were located. To start, we added E.coli OP50 filtrate. In yet another experiment filtrate from a Bdellovibrio bacteriovorus (Gram-negative predator) culture was added to monitor the OP50’s differential response to cues from its environment. Using MATLAB code, thousands of E.coli tracks were measured.
ContributorsSanchez, Alec Jesus (Author) / Presse, Steve (Thesis director) / Gile, Gillian (Committee member) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
The purpose of this project is to develop a risk assessment tool for the University of California, Riverside (UCR). UCR is health enterprise that manages operations under an environment of innate and uncontrollable risks. Therefore, a risk assessment tool is highly advisable under California State Laws and federal laws. In the case of overlapping laws, federal law will always prevail unless State law explicitly states otherwise. California Health Information Privacy Manual states that California must follow numerous state guidelines and a federal set of guidelines called HIPAA (Health Insurance Portability and Accountability Act of 1996). HIPAA is put in place to protect and serve as an organizational tool to develop a stronger and more secure infrastructure of security measures within healthcare enterprises. Under HIPAA is a Security and Privacy Rule that was implemented by The U.S. Department of Health and Human Services (HHS) and will serve as the basis for the risk assessment tool I developed. The Security and Privacy Rule's main goal is to set a national standard of how electronic protected health information (ePHI) will be appropriately used and disclosed by organizations subject to this rule, also known covered entities. Covered entities include health plans, health care providers and health care clearinghouses unless specifically stated otherwise. Permitted uses and disclosures of PHI or ePHI are outlined in detail and covered entities are expected to follow all aspects of it that pertain to their role within a healthcare system. Under HHS, the Office of Civil Rights (OCR) strictly enforces the Security and Privacy Rules and can issue civil money penalties and/or other major consequences making this a sizable and critical issue in healthcare environments. Each risk and impact must be assessed to determine an overall risk score. This score will then determine what risks need to be immediately addressed and which risks are most critical to UCR. To do this, potential impacts were determined for each section. The impact score can be decided by using a chart that will be discussed in the development section. The likeliness of the risk can be determined by a UCR professional via the provided chart and an overall risk score can be assigned. From here, an action plan can be set and carried out to eliminate possible hazards and imminent risks. Once a Risk Assessment tool is developed, potential risks can be indentified and dealt with appropriately in regard to level of impact and the likelihood of the risk occurring. By reducing risk, a healthcare enterprise can gain greater financial stability, decrease loss and protect vital information that is critical to the success organization.
ContributorsAustin, Hannah N. (Author) / Riley, William (Thesis director) / Hackman, Paul (Committee member) / School of Molecular Sciences (Contributor) / W.P. Carey School of Business (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
This research will focus on identifying healthcare disparities among different groups of people in Maricopa County, with a focus on the Phoenix area. It takes form in a combination of a review of previously existing data, surveying pregnant women about their health insurance situations before their pregnancies, and surveying college students in Maricopa County about their past and current health insurance situations. The pregnant women who were interview were part of a study called Metabolism Tracking During Pregnancy through the School of Nutrition and Health Promotion at Arizona State University. College students who were interviewed were recruited online and all participants were choosing to respond. This research paper will focus on policies currently in place to try to address healthcare disparities and establishing the presence of healthcare disparities that are preexisting, and using individual responses from a small sample size of minorities and women to represent the larger Phoenix population. Differences in healthcare spending for different groups of people will also be analyzed in order to establish disparities present. This research is significant because if healthcare equality is the goal, then spending distribution to each should be proportional to the size of each subpopulation.
ContributorsGeiser, Rachel (Author) / Reifsnider, Elizabeth (Thesis director) / Cortese, Denis (Committee member) / School of Molecular Sciences (Contributor) / School of International Letters and Cultures (Contributor) / School of Politics and Global Studies (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
The FoF1 ATP synthase is a molecular motor critical to the metabolism of virtually all life forms, and it acts in the manner of a hydroelectric generator. The F1 complex contains an (αβ)3 (hexamer) ring in which catalysis occurs, as well as a rotor comprised by subunit-ε in addition to the coiled-coil and globular foot domains of subunit-γ. The F1 complex can hydrolyze ATP in vitro in a manner that drives counterclockwise (CCW) rotation, in 120° power strokes, as viewed from the positive side of the membrane. The power strokes that occur in ≈ 300 μsec are separated by catalytic dwells that occur on a msec time scale. A single-molecule rotation assay that uses the intensity of polarized light, scattered from a 75 × 35 nm gold nanorod, determined the average rotational velocity of the power stroke (ω, in degrees/ms) as a function of the rotational position of the rotor (θ, in degrees, measured in reference to the catalytic dwell). The velocity is not constant but rather accelerates and decelerates in two Phases. Phase-1 (0° - 60°) is believed to derive power from elastic energy in the protein. At concentrations of ATP that limit the rate of ATP hydrolysis, the rotor can stop for an ATP-binding dwell during Phase-1. Although the most probable position that the ATP-binding dwell occurs is 40° after the catalytic dwell, the ATP-binding dwell can occur at any rotational position during Phase-1 of the power stroke. Phase-2 of the power stroke (60° - 120°) is believed to be powered by the ATP-binding induced closure of the lever domain of a β-subunit (as it acts as a cam shaft against the γ-subunit). Algorithms were written, to sort and analyze F1-ATPase power strokes, to determine the average rotational velocity profile of power strokes as a function of the rotational position at which the ATP-binding dwell occurs (θATP-bd), and when the ATP-binding dwell is absent. Sorting individual ω(θ) curves, as a function of θATP-bd, revealed that a dependence of ω on
θATP-bd exists. The ATP-binding dwell can occur even at saturating ATP concentrations. We report that ω follows a distinct pattern in the vicinity of the ATP-binding dwell, and that the ω(θ) curve contains the same oscillations within it regardless of θATP-bd. We observed that an acceleration/deceleration dependence before and after the ATP-binding dwell, respectively, remained for increasing time intervals as the dwell occurred later in Phase-1, to a maximum of ≈ 40°. The results were interpreted in terms of a model in which the ATP-binding dwell results from internal drag at a variable position on the γε rotor.
θATP-bd exists. The ATP-binding dwell can occur even at saturating ATP concentrations. We report that ω follows a distinct pattern in the vicinity of the ATP-binding dwell, and that the ω(θ) curve contains the same oscillations within it regardless of θATP-bd. We observed that an acceleration/deceleration dependence before and after the ATP-binding dwell, respectively, remained for increasing time intervals as the dwell occurred later in Phase-1, to a maximum of ≈ 40°. The results were interpreted in terms of a model in which the ATP-binding dwell results from internal drag at a variable position on the γε rotor.
ContributorsBukhari, Zain Aziz (Author) / Frasch, Wayne D. (Thesis director) / Allen, James P. (Committee member) / Redding, Kevin (Committee member) / School of Molecular Sciences (Contributor) / Department of Physics (Contributor) / Barrett, The Honors College (Contributor)
Created2016-12
Description
This study investigates how the patient-provider relationship between lesbian, gay, and bisexual women and their healthcare providers influences their access to, utilization of, and experiences within healthcare environments. Nineteen participants, ages 18 to 34, were recruited using convenience and snowball sampling. Interviews were conducted inquiring about their health history and their experiences within the healthcare system in the context of their sexual orientation. The data collected from these interviews was used to create an analysis of the healthcare experiences of those who identify as queer. Although the original intention of the project was to chronicle the experiences of LGB women specifically, there were four non-binary gender respondents who contributed interviews. In an effort to not privilege any orientation over another, the respondents were collectively referred to as queer, given the inclusive and an encompassing nature of the term. The general conclusion of this study is that respondents most often experienced heterosexism rather than outright homophobia when accessing healthcare. If heterosexism was present within the healthcare setting, it made respondents feel uncomfortable with their providers and less likely to inform them of their sexuality even if it was medically relevant to their health outcomes. Gender, race, and,socioeconomic differences also had an effect on the patient-provider relationship. Non-binary respondents acknowledged the need for inclusion of more gender options outside of male or female on the reporting forms often seen in medical offices. By doing so, medical professionals are acknowledging their awareness and knowledge of people outside of the binary gender system, thus improving the experience of these patients. While race and socioeconomic status were less relevant to the context of this study, it was found that these factors have an affect on the patient-provider relationship. There are many suggestions for providers to improve the experiences of queer patients within the healthcare setting. This includes nonverbal indications of acknowledgement and acceptance, such as signs in the office that indicate it to be a queer friendly space. This will help in eliminating the fear and miscommunication that can often happen when a queer patient sees a practitioner for the first time. In addition, better education on medically relevant topics to queer patients, is necessary in order to eliminate disparities in health outcomes. This is particularly evident in trans health, where specialized education is necessary in order to decrease poor health outcomes in trans patients. Future directions of this study necessitate a closer look on how race and socioeconomic status have an effect on a queer patient's relationship with their provider.
ContributorsRajan, Sindhu (Co-author) / Bradley, Arianna (Co-author) / Larson, Michelle (Co-author) / Alvarado, Aimee (Co-author) / Ingram-Waters, Mary (Thesis director) / Arnold, Michelle (Committee member) / School of Molecular Sciences (Contributor) / School of Social Transformation (Contributor) / T. Denny Sanford School of Social and Family Dynamics (Contributor) / College of Public Service and Community Solutions (Contributor) / School of Human Evolution and Social Change (Contributor) / School of Historical, Philosophical and Religious Studies (Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05