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W6502992 startingPage "185" @default.
W6502992 abstract "Selected works are discussed which clearly demonstrate that mimicking various aspects of the process by which natural products evolved is becoming a powerful tool in contemporary drug discovery. Natural products are an established and rich source of drugs. The term “natural product” is often used synonymously with “secondary metabolite.” Knowledge of genetics and molecular evolution helps us understand how biosynthesis of many classes of secondary metabolites evolved. One proposed hypothesis is termed “inventive evolution.” It invokes duplication of genes, and mutation of the gene copies, among other genetic events. The modified duplicate genes, per se or in conjunction with other genetic events, may give rise to new enzymes, which, in turn, may generate new products, some of which may be selected for. Steps of the inventive evolution can be mimicked in several ways for purpose of drug discovery. For example, libraries of chemical compounds of any imaginable structure may be produced by combinatorial synthesis. Out of these libraries new active compounds can be selected. In another example, genetic system can be manipulated to produce modified natural products (“unnatural natural products”), from which new drugs can be selected. In some instances, similar natural products turn up in species that are not direct descendants of each other. This is presumably due to a horizontal gene transfer. The mechanism of this inter-species gene transfer can be mimicked in therapeutic gene delivery. Mimicking specifics or principles of chemical evolution including experimental and test-tube evolution also provides leads for new drug discovery." @default.
W6502992 created "2016-06-24" @default.
W6502992 creator A5002193196 @default.
W6502992 date "1998-01-01" @default.
W6502992 modified "2023-09-23" @default.
W6502992 title "Biomimicry as a basis for drug discovery" @default.
W6502992 cites W1428290608 @default.
W6502992 cites W1498473683 @default.
W6502992 cites W1554683427 @default.
W6502992 cites W158058962 @default.
W6502992 cites W1587352172 @default.
W6502992 cites W163117958 @default.
W6502992 cites W1708274200 @default.
W6502992 cites W1969555716 @default.
W6502992 cites W1970696658 @default.
W6502992 cites W1973352434 @default.
W6502992 cites W1983346025 @default.
W6502992 cites W1985669808 @default.
W6502992 cites W1986107627 @default.
W6502992 cites W1988007171 @default.
W6502992 cites W1989469483 @default.
W6502992 cites W1992724663 @default.
W6502992 cites W1993274596 @default.
W6502992 cites W1997029030 @default.
W6502992 cites W2001514241 @default.
W6502992 cites W2004100730 @default.
W6502992 cites W2006258756 @default.
W6502992 cites W2009263629 @default.
W6502992 cites W2010807460 @default.
W6502992 cites W2013175825 @default.
W6502992 cites W2015433616 @default.
W6502992 cites W2016075679 @default.
W6502992 cites W2032683050 @default.
W6502992 cites W2035007914 @default.
W6502992 cites W2038978947 @default.
W6502992 cites W2069020540 @default.
W6502992 cites W2069316928 @default.
W6502992 cites W2071342242 @default.
W6502992 cites W2074965495 @default.
W6502992 cites W2076211135 @default.
W6502992 cites W2080672505 @default.
W6502992 cites W2089493916 @default.
W6502992 cites W2095882827 @default.
W6502992 cites W2103385859 @default.
W6502992 cites W2106376196 @default.
W6502992 cites W2118484018 @default.
W6502992 cites W2122161400 @default.
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W6502992 cites W2140361415 @default.
W6502992 cites W2158196690 @default.
W6502992 cites W2172354041 @default.
W6502992 cites W2231612062 @default.
W6502992 cites W2312907486 @default.
W6502992 cites W2317023665 @default.
W6502992 cites W2326681062 @default.
W6502992 cites W2481516608 @default.
W6502992 cites W2949680497 @default.
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W6502992 cites W2951625287 @default.
W6502992 cites W4211045835 @default.
W6502992 cites W4298218966 @default.
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W6502992 doi "https://doi.org/10.1007/978-3-0348-8845-5_5" @default.
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