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- All Subjects: HIV
- Creators: Hruschka, Daniel
- Creators: Mor, Tsafrir
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.
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.
ano-crystals have been established for the different variants of the fusion protein. Diffraction patterns were collected by using both conventional and serial femto-second crystallography techniques. The two crystallography techniques showed very interesting differences in both the crystal packing and unit cell dimensions of the same CTB-MPR construct. Although information has been gathered on CTB-MPR, the intact structure of fusion protein was not solved as the MPR region showed only weak electron density or was cleaved during crystallization of macroscopic crystals. The MPR region is present in micro
ano-crystals, but due to the severe limitation of the Free Electron Laser beamtime, only a partial data set was obtained and is insufficient for structure determination. However, the work of this thesis has established methods to purify large quantities of CTB-MPR and has established procedures to grow crystals for X-ray structure analysis. This has set the foundation for future structure determination experiments as well as immunization studies.