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- All Subjects: Immunology
- Creators: School of Life Sciences
PKR interaction mapped to a region within the dsRNA-binding domain of E3 and overlapped with sequences in the C-terminus of this domain that are necessary for binding to dsRNA. Point mutants of E3 were generated and screened for PKR inhibition and direct interaction. Analysis of these mutants demonstrates that dsRNA-binding but not PKR interaction plays a critical role in the broad host range of VACV. Nonetheless, full inhibition of PKR in cells in culture requires both dsRNA-binding and PKR interaction. Because E3 is highly conserved among orthopoxviruses, understanding the mechanisms that E3 uses to inhibit PKR can give insight into host range pathogenesis of dsRNA producing viruses.
Due to the COVID-19 pandemic, declared in March of 2020, there have been many lifestyle changes which have likely influenced tobacco smoking behavior. Such lifestyle changes include lockdowns, stay at home orders, reduction in social cues related to smoking, increased stress, and boredom among other things. This study utilized a cross-sectional survey which looked into these behaviors, primarily perceived risk to COVID-19, and determined if there is an association between perceived risk and education level/race. Education level is a proxy for income and material resources, therefore making it more likely that people with lower levels of education have fewer resources and higher perceived risk to negative effects of COVID-19. Additionally, people of color are often marginalized in the medical community along with being the target of heavy advertising by tobacco companies which have likely impacted risk to COVID-19 as well.
Moraxella catarrhalis is a gram negative commensal bacteria that is a primary cause of otitis media in infants and severe exacerbations of COPD in adults. M. catarrhalis treatment has become increasingly difficult and expensive over the past half-century due to the emergence of beta-lactamase producing strains. There are currently no vaccines available to protect against infections. In this paper, we propose a transcriptomics-based approach for identifying potential vaccine targets. Additionally, a novel method was used to create bacterial vaccine polypeptides composed of sequence conserved peptides secreted through the outer membrane. Polypeptides were tested for immunogenicity and protective capacity in mice. We show that relative abundance of outer membrane proteins does not correlate with immunogenicity. We also show promising results for polypeptide protection in a mouse pulmonary clearance model.