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Full-Text Articles in Organisms
Deletion Of The Stress Response Gene Ddr48 From Histoplasma Capsulatum Increases Sensitivity To Oxidative Stress, Increases Susceptibility To Antifungals, And Decreases Fitness In Macrophages, Logan T. Blancett, Kauri A. Runge, Gabriella M. Reyes, Lauren A. Kennedy, Sydney C. Jackson, Sarah E. Scheuermann, Mallory B. Harmon, Jamease C. Williams, Glenmore Shearer
Deletion Of The Stress Response Gene Ddr48 From Histoplasma Capsulatum Increases Sensitivity To Oxidative Stress, Increases Susceptibility To Antifungals, And Decreases Fitness In Macrophages, Logan T. Blancett, Kauri A. Runge, Gabriella M. Reyes, Lauren A. Kennedy, Sydney C. Jackson, Sarah E. Scheuermann, Mallory B. Harmon, Jamease C. Williams, Glenmore Shearer
Faculty Publications
The stress response gene DDR48 has been characterized in Saccharomyces cerevisiae and Candida albicans to be involved in combating various cellular stressors, from oxidative agents to antifungal compounds. Surprisingly, the biological function of DDR48 has yet to be identified, though it is likely an important part of the stress response. To gain insight into its function, we characterized DDR48 in the dimorphic fungal pathogen Histoplasma capsulatum. Transcriptional analyses showed preferential expression of DDR48 in the mycelial phase. Induction of DDR48 in Histoplasma yeasts developed after treatment with various cellular stress compounds. We generated a ddr48∆ deletion mutant to further …
A Time Course Study Of Rotavirus-Infected Intestinal Cells Treated With Stilbenoids And The Regulation Of Apoptosis, Rebecca D. Parr, Caleb M. Witcher, Rebekah Napier-Jameson, Hannah L. Wilson, Stormey Wisdom, Macie N. Mattila, Essence B. Strange, Josephine Taylor, Beatrice Clack, Fabricio Medina-Bolivar, Judith M. Ball
A Time Course Study Of Rotavirus-Infected Intestinal Cells Treated With Stilbenoids And The Regulation Of Apoptosis, Rebecca D. Parr, Caleb M. Witcher, Rebekah Napier-Jameson, Hannah L. Wilson, Stormey Wisdom, Macie N. Mattila, Essence B. Strange, Josephine Taylor, Beatrice Clack, Fabricio Medina-Bolivar, Judith M. Ball
Faculty Publications
This is a time course study of virus –host interactions that are modified with the addition of two small natural products. They appear to effect virus replication and the host response to the infection.
Endocide-Induced Abnormal Growth Forms Of Invasive Giant Salvinia (Salvinia Molesta), Shiyou Li, Ping Wang, Zushang Su, Emily Lozano, Olivia Lamaster, Jason Grogan, Yuhui Weng, Thomas Decker, John Findeisen, Monica Mcgarrity
Endocide-Induced Abnormal Growth Forms Of Invasive Giant Salvinia (Salvinia Molesta), Shiyou Li, Ping Wang, Zushang Su, Emily Lozano, Olivia Lamaster, Jason Grogan, Yuhui Weng, Thomas Decker, John Findeisen, Monica Mcgarrity
Faculty Publications
Giant salvinia (Salvinia molesta) is one of the most noxious invasive species in the world. The fern is known to have primary, secondary, and tertiary growth forms, which are also commonly hypothesized as growth stages. The identification of these forms is primarily based on the size and folding status of the floating leaves. However, we identified 12 forms in the greenhouse and the field. Our experiments showed that the folding of floating leaves is a reversible trait dependent on water access. The floating leaves quickly fold in response to water shortage, reducing water loss and needs, decreasing growth, …
Endocidal Regulation Of Secondary Metabolites In The Producing Organisms, Shiyou Li, Ping Wang, Wei Yuan, Zushang Su, Steven H. Bullard
Endocidal Regulation Of Secondary Metabolites In The Producing Organisms, Shiyou Li, Ping Wang, Wei Yuan, Zushang Su, Steven H. Bullard
Faculty Publications
Secondary metabolites are defined as organic compounds that are not directly involved in the normal growth, development, and reproduction of an organism. They are widely believed to be responsible for interactions between the producing organism and its environment, with the producer avoiding their toxicities. In our experiments, however, none of the randomly selected 44 species representing different groups of plants and insects can avoid autotoxicity by its endogenous metabolites once made available. We coined the term endocides (endogenous biocides) to describe such metabolites that can poison or inhibit the parent via induced biosynthesis or external applications. Dosage-dependent endocides can selectively …
Time-Varying, Serotype-Specific Force Of Infection Of Dengue Virus, Kanya C. Long, Robert C. Reiner, Steven T. Stoddard, Brett M. Froshey, Aaron A. King, Alicia M. Ellis, Alun L. Lloyd, Claudio Rocha, Stalin Vilcarromero, Helvio Astete, Isabel Bazan, Audrey Lenhart, Gonzalo M. Vazquez-Prokopec, Valerie A. Paz-Soldan, Phlip J. Mccall, Uriel Kitron, John P. Elder, Eric S. Halsey, Amy C. Morrison, Tadeusz J. Kochel, Thomas W. Scott
Time-Varying, Serotype-Specific Force Of Infection Of Dengue Virus, Kanya C. Long, Robert C. Reiner, Steven T. Stoddard, Brett M. Froshey, Aaron A. King, Alicia M. Ellis, Alun L. Lloyd, Claudio Rocha, Stalin Vilcarromero, Helvio Astete, Isabel Bazan, Audrey Lenhart, Gonzalo M. Vazquez-Prokopec, Valerie A. Paz-Soldan, Phlip J. Mccall, Uriel Kitron, John P. Elder, Eric S. Halsey, Amy C. Morrison, Tadeusz J. Kochel, Thomas W. Scott
Faculty Publications
Infectious disease models play a key role in public health planning. These models rely on accurate estimates of key transmission parameters such as the force of infection (FoI), which is the percapita risk of a susceptible person being infected. The FoI captures the fundamental dynamics of transmission and is crucial for gauging control efforts, such as identifying vaccination targets. Dengue virus (DENV) is a mosquito-borne, multiserotype pathogen that currently infects ∼390 million people a year. Existing estimates of the DENV FoI are inaccurate because they rely on the unrealistic assumption that risk is constant over time. Dengue models are thus …