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Synthesis of Medicinal Agents from Plants highlights the importance of synthesizing medicinal agents from plants and outlines methods for performing it effectively. Beginning… Read more
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Synthesis of Medicinal Agents from Plants highlights the importance of synthesizing medicinal agents from plants and outlines methods for performing it effectively. Beginning with an introduction to the significance of medicinal plants, the book goes on to provide a historical overview of drug synthesis before exploring how this can be used to successfully replicate and adapt the active agents from natural sources. Chapters then explore the medicinal properties of a number of important plants, before concluding with a discussion of the future of drugs from medicinal plants. Illustrated with real-world examples, it is a practical resource for researchers in this field.
In an age of rapid environmental destruction, hundreds of medicinal plants are at risk of extinction from overexploitation and deforestation, limiting the natural resources available for active agent extraction, thereby threatening the discovery of future cures for diseases. Simultaneously, with the increasing population and advances in medical sciences, the demand for drugs is continuously increasing and cannot be met with just plants. The ability to synthetically replicate the active compounds from these plants is essential in creating an ecologically-aware, sustainable future for drug design
Chemists, medicinal chemists, biochemists, pharmacologists, botanists, R&D professionals, students, university libraries, researchers
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Dr Tewari’s major field of research is Molecular Recognition and Medicinal Chemistry, with emphasis on the synthesis of bio active molecules, flexible molecules with aromatic back bones and synthesis of foldamers in order to study aromatic interactions. His research group’s aim is to understand the mechanism of aromatic interactions, and they are actively working in the synthesis of pyrazole, imidazole, pyridone, and pyridazine systems, where they have produced some particularly interesting results relating to solid state eclipsed and staggered stacked conformations.
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