Theme Issue Honoring Prof. Dr. Ludger Wessjohann’s 60th Birthday: Natural Products in Modern Drug Discovery

doi:10.3390/books978-3-0365-4743-5

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Theme Issue Honoring Prof. Dr. Ludger Wessjohann’s 60th Birthday: Natural Products in Modern Drug Discovery

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July 2022

360 pages

ISBN978-3-0365-4744-2 (Hardback)
ISBN978-3-0365-4743-5 (PDF)

https://doi.org/10.3390/books978-3-0365-4743-5

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This book is a reprint of the Special Issue Theme Issue Honoring Prof. Dr. Ludger Wessjohann’s 60th Birthday: Natural Products in Modern Drug Discovery that was published in

Biology & Life Sciences

Chemistry & Materials Science

Medicine & Pharmacology

Summary

Nature continuously produces biologically useful molecules and provides humankind with life-saving drugs or therapies. Natural products (NPs) offer a vast, unique and fascinating chemical diversity and these molecules have evolved for optimal interactions with biological macromolecules. Moreover, natural products feature pharmacologically active pharmacophores which are pharmaceutically validated starting points for the development of new lead compounds. Over half of all approved (from 1981 to 2014) small-molecule drugs derived from NPs, including unaltered NPs, NPs synthetic derivatives and synthetic natural mimics, originated from a NPs pharmacophore or template. According to the FDA, NPs and their derivatives represent over one-third of all FDA-approved new drugs, in particular for anticancer/antibiotic lead compounds, which are remarkably enriched with NPs.

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Keywords

multi-component reaction; fusidic acid; TEMPO-conjugate; electron paramagnetic resonance (EPR) spectroscopy; caspase-3; incomptine A; sesquiterpene lactone; Decachaeta incompta; cytotoxic activity; iTRAQ; apoptosis; ROS production; violacein; hepatocellular carcinoma; proliferation; apoptosis; stemness; natural products; tumor microenvironment (TME); lung cancer; phytochemicals; botanical agents; steroidal alkaloids; solanidane alkaloids; demissidine; solanidine; flavonoids; coronavirus; SARS-CoV-2; SARS-CoV; MERS-CoV; anticancer activity; apoptosis resistance; ophiobolin A; polygodial; Wittig reaction; melanoma; tumor heterogeneity; pregnancy; anti-tumor peptides; in vitro model; medicinal herbs; cancer treatment; cancer stem cells; drug resistance; metastasis; proliferation; RCE-4; PCD; ATG 4B; the Bcl-2–Beclin 1 complex; Sparticola junci; structure elucidation; ECD-TDDFT; COX inhibitory; molecular docking; antiproliferative; cytotoxic; Sepedonium ampullosporum; peptaibols; ampullosporin; glutamic acid methyl ester; solid-phase peptide synthesis; antifungal; anticancer; molecular docking; target identification; kaempferol; docking; DARTS; Src; lung cancer; breast cancer; butein; frondoside-A; STAT3; angiogenesis; invasion; viability; tumor growth; marine fungi; Cosmospora sp.; soudanone; Magnaporthe oryzae; co-culture; phytopathogen; molecular networking; metabolomics; bispecific antibody; Trypsiligase; click chemistry; biorthogonal chemistry; antibody engineering; n/a; n/a