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Literature DB >> 32319494

Perspectives from nearly five decades of total synthesis of natural products and their analogues for biology and medicine.

Abstract

Covering: 1970 to 2020By definition total synthesis is the art and science of making the molecules of living Nature in the laboratory, and by extension, their analogues. Although obvious, its application to the synthesis of molecules for biology and medicine was not always the purpose of total synthesis. In recent years, however, the field has acquired momentum as its power to reach higher molecular complexity and diversity is increasing, and as the demand for rare bioactive natural products and their analogues is expanding due to their recognised potential to facilitate biology and drug discovery and development. Today this component of total synthesis endeavors is considered highly desirable, and could be part of interdisciplinary academic and/or industrial partnerships, providing further inspiration and momentum to the field. In this review we provide a brief historical background of the emergence of the field of total synthesis as it relates to making molecules for biology and medicine. We then discuss specific examples of this practice from our laboratories as they developed over the years. The review ends with a conclusion and future perspectives for natural products chemistry and its applications to biology and medicine and other added-value contributions to science and society.

Year: 2020 PMID： 32319494 PMCID： PMC7578074 DOI： 10.1039/d0np00003e

Source DB: PubMed Journal: Nat Prod Rep ISSN： 0265-0568 Impact factor: 13.423

145 in total

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10 in total

1. Synthesis reveals unexpected biological targets of a traditional medicine.

Authors: Nicholas P R Onuska; Joshua G Pierce
Journal: Nature Date: 2022-06 Impact factor: 69.504

2. Late-Stage Diversification: A Motivating Force in Organic Synthesis.

Authors: Kelly E Kim; Alexia N Kim; Carter J McCormick; Brian M Stoltz
Journal: J Am Chem Soc Date: 2021-10-06 Impact factor: 16.383

3. Ni-Catalyzed Regioselective 1,2-Dialkylation of Alkenes Enabled by the Formation of Two C(sp³)-C(sp³) Bonds.

Authors: Roshan K Dhungana; Rishi R Sapkota; Laura M Wickham; Doleshwar Niroula; Ramesh Giri
Journal: J Am Chem Soc Date: 2020-12-03 Impact factor: 15.419

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Authors: Adrian Demeritte; William M Wuest
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Authors: David J Newman
Journal: ADMET DMPK Date: 2022-03-04

Review 6. Complexity reduction and opportunities in the design, integration and intensification of biocatalytic processes for metabolite synthesis.

Authors: Roland Wohlgemuth; Jennifer Littlechild
Journal: Front Bioeng Biotechnol Date: 2022-07-22