https://sites.temple.edu/beaudry/
Research Overview: The rich structural diversity, intriguing molecular architectures, and potent biological activities of natural products make these compounds compelling targets for synthesis.
https://cst.temple.edu/about/faculty-staff/christopher-beaudry
The Beaudry group is broadly interested in natural products and creating methods for their synthesis. The natural products we target are from every major natural product class.
https://pharmacy.temple.edu/magidabougharbia
The group’s research further focuses on: (a) the use of receptor homology, bioisosteric replacement strategies, rational and structure-based drug design approaches; (b) utilizing natural products as a unique resource for discovering innovative therapeutics; (c) applying enabling technology platforms and in vitro ADME to evaluate drug-like ...
https://tyler.temple.edu/faculty/sasha-eisenman-phd
Sasha Eisenman is a botanist and horticulturist with a diverse portfolio of research projects. Currently, his primary area of research is on the survival, health and ecophysiological responses of plants in green infrastructure systems (tree trenches, bioswales and rain gardens).
https://law.temple.edu/wp-content/uploads/ninja-forms/120/nerve-fresh-reviews-consumer-reports.pdf
Nerve Fresh made with herbs, extracts, plants, and minerals that blocking enzymes that cause neuropathic symptoms. Nerve Fresh, a proprietary natural blend, is a revolutionary product that targets and neutralizes three harmful enzymes: COX-2 (oxidizing enzyme), PGE-2 (protease) and MMP-13.
https://sites.temple.edu/beaudry/dr-beaudry/
His group works in the area of synthetic chemistry, natural products, biology and catalysis.
https://bulletin.temple.edu/courses/hort/
This course focuses on native and introduced hardy (naturalized) trees, shrubs, vines, and herbaceous plants that comprise plant communities and serve as the foundation of natural, designed, and restored landscapes.
https://cst.temple.edu/about/faculty-staff/sarah-wengryniuk
Representative research areas include C–H activation, asymmetric C–C bond formation, novel methods to access carbon, oxygen, and nitrogen containing ring systems, and the synthesis of natural products targeting cancer metastasis.
https://tyler.temple.edu/programs/fibers-material-studies
Tyler’s Fibers & Material Studies program embraces a bold, interdisciplinary approach to one of the world’s oldest and most accessible traditions: working with fibers.
https://pharmacy.temple.edu/academics/departments/department-pharmaceutical-sciences
Pharmaceutical Sciences is a broad and dynamic area of scientific inquiry centered on discovering, developing, understanding, improving, and delivering drugs, biologics, and therapeutics to gain knowledge and improve patient care. By nature, pharmaceutical sciences is a field that is highly interdisciplinary.