Filtering by
- Creators: School of Life Sciences
- Creators: Department of Psychology
- Creators: Hurlbut, Ben
- Member of: Theses and Dissertations
- Resource Type: Text
This white paper serves as an accumulation of research to guide needle exchange program (NEP) policies in the state of Arizona to decrease the transmission of infectious diseases such as HIV and HCV.
Additionally, the World Health Organization, or WHO, developed three treatment plans for prevention of MTC transmission of HIV, globally available as of 2010 (WHO, 2010). The goal of the WHO was to globally standardize care of HIV-positive pregnant women and their infants in order to decrease the global prevalence of HIV. The first plan was called Option A, then came Option B, and lastly Option B+. While preventative medication has been available for over twenty years and at least one of these theoretically effective treatment plans has been implemented and is readily available in each country of sub-Saharan Africa, the overall prevalence of MTC transmission of HIV in sub-Saharan Africa has continued to be notably high compared to other countries. Thus, the aim of this thesis is to explore some of the significant obstacles to implementation of the WHO’s treatment plans in sub-Saharan Africa that contribute to that high prevalence. I also suggest possible solutions to those barriers in order to effectively decrease the prevalence of MTC transmission of HIV.
Plant-made virus-like particles (VLPs), composed of HIV-1 Gag and deconstructed gp41 proteins, have been shown to be safe and immunogenic in mice. Here, we report the successful production of HIV-1 Gag/dgp41 VLPs in Nicotiana benthamiana, using an enhanced geminivirus-based expression vector. This novel vector results in unique expression kinetics, with peak protein accumulation and minimal necrosis achieved on day 4 post-infiltration. In comparing various purification strategies, it was determined that a 20% ammonium sulfate precipitation is an effective and efficient method for removing plant proteins and purifying the recombinant VLPs of interest. If further purification is required, this may be achieved through ultracentrifugation. VLPs are a useful platform for a variety of biomedical applications and developing the technology to efficiently produce VLPs in the plant expression system is of critical importance.