Optimization of Fluorescent Detection of Rotavirus Protein NSP4 and a Cellular Receptor in two Cell Lines

Rotavirus (RV) infections are the most common cause of severe diarrhea in infants and young children worldwide. The two licensed vaccines for RV protect children from common strains of RV, but they are less effective against new emerging RV strains. Therefore, new therapeutics to treat RV infections need to be developed. Recently, we have shown stilbenoids, trans-arachidin-1 (t-A1) and trans-arachidin-3 (t-A3), decrease progeny virus particles by one hundred fold. Likewise, western blot assays show a decrease in the amount of the viral protein NSP4 with the addition of the stilbenoids during a RV infection. This indicates an effect on viral replication. Immunoblot assays are a standard and cost effective means to analyze the effects of stilbenoids on RV infections

Protein-Based Fiber Materials in Medicine: A Review

Fibrous materials have garnered much interest in the field of biomedical engineering due to their high surface-area-to-volume ratio, porosity, and tunability. Specifically, in the field of tissue engineering, fiber meshes have been used to create biomimetic nanostructures that allow for cell attachment, migration, and proliferation, to promote tissue regeneration and wound healing, as well as controllable drug delivery. In addition to the properties of conventional, synthetic polymer fibers, fibers made from natural polymers, such as proteins, can exhibit enhanced biocompatibility, bioactivity, and biodegradability. Of these proteins, keratin, collagen, silk, elastin, zein, and soy are some the most common used in fiber fabrication. The specific capabilities of these materials have been shown to vary based on their physical properties, as well as their fabrication method. To date, such fabrication methods include electrospinning, wet/dry jet spinning, dry spinning, centrifugal spinning, solution blowing, self-assembly, phase separation, and drawing. This review serves to provide a basic knowledge of these commonly utilized proteins and methods, as well as the fabricated fibers’ applications in biomedical research

Protein Polymer-Based Nanoparticles: Fabrication and Medical Applications

Nanoparticles are particles that range in size from about 1–1000 nanometers in diameter, about one thousand times smaller than the average cell in a human body. Their small size, flexible fabrication, and high surface-area-to-volume ratio make them ideal systems for drug delivery. Nanoparticles can be made from a variety of materials including metals, polysaccharides, and proteins. Biological protein-based nanoparticles such as silk, keratin, collagen, elastin, corn zein, and soy protein-based nanoparticles are advantageous in having biodegradability, bioavailability, and relatively low cost. Many protein nanoparticles are easy to process and can be modified to achieve desired specifications such as size, morphology, and weight. Protein nanoparticles are used in a variety of settings and are replacing many materials that are not biocompatible and have a negative impact on the environment. Here we attempt to review the literature pertaining to protein-based nanoparticles with a focus on their application in drug delivery and biomedical fields. Additional detail on governing nanoparticle parameters, specific protein nanoparticle applications, and fabrication methods are also provided

Investigation of Stilbenoids as Potential Therapeutic Agents for Rotavirus Gastroenteritis

Rotavirus (RV) infections cause severe diarrhea in infants and young children worldwide. Vaccines are available but cost prohibitive for many countries and only reduce severe symptoms. Vaccinated infants continue to shed infectious particles, and studies show decreased efficacy of the RV vaccines in tropical and subtropical countries where they are needed most. Continuing surveillance for new RV strains, assessment of vaccine efficacy, and development of cost effective antiviral drugs remain an important aspect of RV studies. This study was to determine the efficacy of antioxidant and anti-inflammatory stilbenoids to inhibit RV replication. Peanut (A. hypogaea) hairy root cultures were induced to produce stilbenoids, which were purified by high performance countercurrent chromatography (HPCCC) and analyzed by HPLC. HT29.f8 cells were infected with RV in the presence stilbenoids. Cell viability counts showed no cytotoxic effects onHT29.f8 cells. Viral infectivity titers were calculated and comparatively assessed to determine the effects of stilbenoid treatments. Two stilbenoids, trans-arachidin-1 and trans-arachidin-3, show a significant decrease in RV infectivity titers.Western blot analyses performed on the infected cell lysates complemented the infectivity titrations and indicated a significant decrease in viral replication. These studies show the therapeutic potential of the stilbenoids against RV replication

Performing American Identity in Great Britain, 1880-1914.

This thesis explores the experiences and uses of transatlantic mobility and exhibition in Britain by a variety of Americans in the Gilded Age and Progressive Era. It emphasizes how this travel and work prompted Americans to consider their identity and work in ‘national’ terms, identifying two broad strains of American identity that were consolidated through transatlantic performance. I term these strains ‘dominant’ and ‘oppositional’ and argue that race played an increasingly central role in forming both conceptions of the national culture. It examines the changing place of Britain in affirming, rejecting and otherwise arbitrating the validity of American culture and politics in the decades following the Civil War. Britain remained a key site in the development of alternate visions of America, long after practitioners of the dominant culture stopped placing such a premium on the value of ‘Old World’ approval. Transatlantic performance enabled multiple visions of America to reach British audiences and be reflected back to observers in the United States. These included the celebration of the subjugation of Native Americans as ‘America’s National Entertainment’ through Wild West shows, the establishment of baseball as a ‘national pastime’ and the appraisal of Spirituals (as performed by African American vocal group the Fisk Jubilee Singers) as the ‘sole American music’. The status that these entertainments enjoyed as uniquely American emerged through their exhibition and reception in Britain. The same was true of more obviously political actors, from temperance advocates to anti-lynching campaigners. Differences abounded between the dominant and oppositional articulations of American identity in Britain, but both helped to consolidate the nation as the primary repository of social meaning and political action, even within ostensibly ‘global’ movements, and even as the United States turned to overseas empire. This consensus was established in the very era when international exchange was increasing dramatically, a phenomenon which has been overlooked in the existing scholarship. I argue that ‘the national’ was far more embedded in ‘the transnational’ than historians of the latter have conventionally acknowledged

Protein Polymer-Based Nanoparticles: Fabrication and Medical Applications

Nanoparticles are particles that range in size from about 1–1000 nanometers in diameter, about one thousand times smaller than the average cell in a human body. Their small size, flexible fabrication, and high surface-area-to-volume ratio make them ideal systems for drug delivery. Nanoparticles can be made from a variety of materials including metals, polysaccharides, and proteins. Biological protein-based nanoparticles such as silk, keratin, collagen, elastin, corn zein, and soy protein-based nanoparticles are advantageous in having biodegradability, bioavailability, and relatively low cost. Many protein nanoparticles are easy to process and can be modified to achieve desired specifications such as size, morphology, and weight. Protein nanoparticles are used in a variety of settings and are replacing many materials that are not biocompatible and have a negative impact on the environment. Here we attempt to review the literature pertaining to protein-based nanoparticles with a focus on their application in drug delivery and biomedical fields. Additional detail on governing nanoparticle parameters, specific protein nanoparticle applications, and fabrication methods are also provided