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Articles 1 - 9 of 9
Full-Text Articles in Biological Engineering
What Drug Candidates Exist For Treating Covid-19 Variants?, Kolton Hauck
What Drug Candidates Exist For Treating Covid-19 Variants?, Kolton Hauck
Research on Capitol Hill
USU senior Kolton studies biological engineering and led this project with funding from a student grant. Kolton’s project has been mapping out all possible protein interactions from known SARS-CoV-2 variants and identifying possible drug treatments. Viruses function through these interactions between their proteins and the host cell’s proteins, and this project is especially valuable because the candidates identified are predicted to help treat all known variants, making them more likely to be effective against future mutations.Kolton’s interest in biological research stems from his own experience managing a genetic health disorder. Past medical research greatly benefited him, and he sees his …
Utilizing Nasa-Funded Biotechnology To Improve Resource Management On Earth And In Space, Tyler Wallentine
Utilizing Nasa-Funded Biotechnology To Improve Resource Management On Earth And In Space, Tyler Wallentine
Research on Capitol Hill
USU senior Tyler is a Peak Summer Research Fellow studying biological engineering. Nitrogen, essential in soil fertilizer for crops, is produced traditionally in a way that uses natural gas and produces CO2. Tyler’s project has been to apply methods developed by NASA for astronauts to conserve and reuse resources to create nitrogen using wastewater and bacteria. Using this method would not only take advantage of waste we already have, but doesn’t produce CO2 and contribute to pollution. Tyler hopes to become a chemical engineer in the space industry and credits his undergraduate research experience. “There’s something about having to obtain …
Can Cannibinoids Be Used To Prevent Lung Damage From Utah Air Pollution?, Emily Brothersen
Can Cannibinoids Be Used To Prevent Lung Damage From Utah Air Pollution?, Emily Brothersen
Research on Capitol Hill
USU senior Emily, a Mantua native, is an Honors student and Undergraduate Research Fellow. She studies Biological Engineering and has funded and led this project herself with multiple student grants. Emily has been investigating a way to study cell health that can help future researchers test treatments more quickly and affordably. She has used this method to research the potential of cannabinoids to help protect people from lung damage caused by pollution, an issue topical to Utah with our frequent inversions and growing medical cannabis industry. Emily has been involved in research throughout her time at USU and sees it …
A Collaborative Solution To Harmful Algal Blooms In Utah, Kyle Hillman, Bethany Jensen, Ammon Balle
A Collaborative Solution To Harmful Algal Blooms In Utah, Kyle Hillman, Bethany Jensen, Ammon Balle
Research on Capitol Hill
Harmful algal blooms (HABs)…
- affect Utah Lake, Scofield Reservoir, Jordanelle Reservoir, Mantua Lake, and other water bodies throughout Utah
- are toxic to public health, the environment, and the economy
Development Of A Glucose-Powered Biobattery For Implantation And Use In Humans, Carson Sparks, Cody Maughan, Lucas Smith, Carson Sparks
Development Of A Glucose-Powered Biobattery For Implantation And Use In Humans, Carson Sparks, Cody Maughan, Lucas Smith, Carson Sparks
Research on Capitol Hill
With current demands for implantable electrical devices increasing, the need for a more stable and biocompatible source of power is becoming increasingly necessary. Several battery types and materials were evaluated. Ultimately, an abiotic biobattery was designed with the goal of implantation in the human body. Nafion, single-walled carbon nanotubes (SWCNTs), and gold were used to create an abiotic biobattery that is powered by glucose.
The SWCNTs were used to create the cathode, the gold was used to fabricate the anode, and the Nafion acted as the separator between the cathode and anode. A thin Nafion membrane was evaluated for overlaying …
Improved Production Of Promising Antioxidant, Resveratrol, In Escherichia Coli, Chad Skidmore
Improved Production Of Promising Antioxidant, Resveratrol, In Escherichia Coli, Chad Skidmore
Research on Capitol Hill
Resveratrol is a promising antioxidant natural product. Studies have shown that it is effective against heart disease, cancer, Alzheimer's disease, diabetes, and harmful UV rays. This health-benefiting molecule is present in plants such as peanuts, berries, and the skin of red grapes.
A growth time of 10 months makes Japanese knotweed an impractical source of resveratrol. A more efficient way to produce resveratrol has been found by using E. coli as tiny biological factories.
Zeta Potential: Key To Harvesting Algae For Biofuels And Bioproducts, Celeste Hancock, Michael Flores
Zeta Potential: Key To Harvesting Algae For Biofuels And Bioproducts, Celeste Hancock, Michael Flores
Research on Capitol Hill
- Algae is an effective and sustainable resource for creating a broad spectrum of bioproducts.
- Scientists have found it challenging to harvest algae due to the difficulty of collecting algae when in an aqueous solution such as wastewater.
- Rotating Algal Biofilm Reactors (RABRs) coated with carbon nanotubes have proved effective. The RABR floats in an aqueous environment and attracts charged algal particles in suspension.
- The tendency for algae to favor suspension over coagulation occurs only when particles of algae are sufficiently charged. This charge can be measured by analyzing the electric potential at the interface between the surface of a particle …
Beyond The Fiber: Novel Spider Silk Coatings And Adhesives, Danielle A. Gaztambide, Breton A. Day
Beyond The Fiber: Novel Spider Silk Coatings And Adhesives, Danielle A. Gaztambide, Breton A. Day
Research on Capitol Hill
Natural spider silks have long been recognized for their combination of incredible strength and elasticity. Spider silk is more elastic than nylon, tougher than Kevlar, and stronger than steel by weight. Due to an inability to farm spiders, much work has been done to produce spider silks in transgenic hosts for large -scale production. Our work was done using recombinant spider silk proteins produced in transgenic goats and the bacteria E. coli.
More recently spider silks have also been recognized for their biocompatibility and lack of immunogenicity. Spider silks' incredible strength and ability to be implanted safely within the body …
Transitioning The Benefits Of Algal Growth To The Byproducts Of Oil And Natural Gas Production, Alan Hodges, Tyler Gladwin, Cody Maxfield, Jonathan Wood
Transitioning The Benefits Of Algal Growth To The Byproducts Of Oil And Natural Gas Production, Alan Hodges, Tyler Gladwin, Cody Maxfield, Jonathan Wood
Research on Capitol Hill
No abstract provided.