- Synthesis of nonactin and the proposed structure of trilactone
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An efficient enantioselective route to nonactin using a novel β-inversion of an Evans syn aldol to construct the THF ring is presented. Through total synthesis, the structure for trilactone proposed in the literature is shown likely to be incorrect.
- Wu, Yikang,Sun, Ya-Ping
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p. 2831 - 2834
(2007/10/03)
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- Stereocontrol in organic synthesis using silicon-containing compounds. A synthesis of nonactin
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The enantiomeric purity of (1R)-1-(1′-naphthyl)ethanol 7 was raised by Korean's method by separating its oxalate 11 from its diastereoisomer by crystallisation. The alcohol 7 was used to open the anhydride of (3RS,4SR)-3,4-bis[dimethyl(4-methylphenyl)silyl]hexane-1,6-dioic acid with selectivity of 96:4 for one of the enantiotopic carbonyl groups, allowing the synthesis of (3R,4S)-3,4-bis[dimethyl(4-methylphenyl)silyl]hexane-1,6-dioic acid 6-(2-trimethylsilylethyl) ester 10. This acid was converted into the allylsilane methyl (E)-(3S,4R)-3,4-bis[dimethyl(4-methylphenyl)silyl]-7-(2-methyldioxolan-2-yl) hept-5-enoate 15, the carboxylic acid derived from which underwent epoxidation with unexpected silyl migration to give (35,4S,5S,6R)-3,5-bis[dimethyl(4-methylphenyl)silyl]-6-hydroxy-7-(2- methyldioxolan-2-yl)heptano-4-lactone 17. Desilylative elimination and hydrogenation then gave the alcohol (3R,6R)-3-[dimethyl(4-methylphenyl)silyl]-6-hydroxy-7-(2-methyldioxolan-2-yl) heptanoic acid 19, in which the relative and absolute configuration at C-3 and C-6 have been controlled. The relative configuration at C-8 was controlled by anti-selective reduction of a 6-hydroxy-8-ketone using Evans' method, and at C-2 by anti-selective enolate methylation of the β-silyl lactone 20. Silyl-to-hydroxy conversion with retention at C-3 and displacement of the tosylate with inversion at the same centre gave the correct relative and absolute configuration, completing a synthesis of methyl (+)-nonactate 4. The relative configuration at C-8 was controlled in the opposite sense by syn-selective reduction of a 6-hydroxy-8-ketone using Prasad's conditions, and at C-2 in the opposite sense by anti-selective enolate methylation of the open-chain β-silyl ester 22. Silyl-to-hydroxy conversion with retention at C-3 and displacement of the tosylate with inversion at C-6 gave the correct relative and absolute configuration completing a synthesis of the pseudo-enantiomer, benzyl (-)-nonactate 25. Some protecting group changes and coupling of these two fragments gave the "dimers" 28 and 29, coupling of which gave the "tetramer" 30. Ring closure of this material using Yamaguchi's method gave nonactin in 73% yield, substantially better than in any previous synthesis.
- Fleming, Ian,Ghosh, Sunil K.
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p. 2733 - 2747
(2007/10/03)
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- Total synthesis of nonactin
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Utilizing the efficient preparation of (+)-nonactic acid (2a) and (-)-methyl-8-epi-nonactate (4b) starting from optically active 2-isoxazolines 5a and 5b, respectively, the total synthesis of nonactin has been accomplished. Based on the high dilution version of the Yamaguchi's method, the final macrolactonization has been completed in high yield.
- Lee, Ju Young,Kim, Byeang Hyean
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p. 571 - 588
(2007/10/03)
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- Total Synthesis of Nonactin
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Utilizing the efficient preparation of (-)-methyl 8-epi-nonactate (4a) and (+)-nonactic acid (2b) and high yielding macrolactonization based on the high dilution version of the Yamaguchi's method, the total synthesis of nonactin has been accomplished.
- Lee, Ju Young,Kim, Byeang Hyean
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p. 3361 - 3364
(2007/10/02)
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- A total synthesis of nonactin
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With appropriate protecting group manipulation, the nonactate esters 1 and 3, one from each enantiomeric series, are joined together in an alternating sequence to give the hydroxyacid 7, which is lactonised to give nonactin 8 in 59% overall yield.
- Fleming,Ghosh
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p. 2287 - 2288
(2007/10/02)
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- Biosynthesis of the Macrotetrolide Antibiotics; The Incorporation of Carbon-13 and Oxygen-18 Labelled Acetate, Propionate, and Succinate
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The biosynthesis of the macrotetrolide antibiotics, in particular nonactin, has been studied using carbon-13 and oxygen-18 enriched acetate and propionate, as well as carbon-13 enriched succinate, in feeding experiments with the producing organism Streptomyces griseus.A protocol is described which allows the separation of derivatives formed from each enantiomer of nonactic and homononactic acids.From a study of the incorporation of the labelled precursors into these derivatives it could be shown that the origins of the carbon and oxygen atoms in each enantiomer are identical.The carbon backbone of nonactic acid is assembled from two acetate, one succinate, and one propionate units, and the C-O bonds at C-8, C-6, and C-1 are derived intact from the primary precursors.Based on these data a new proposal is made to account for the biosynthesis of (+/-)-nonactate, and nonactin, in S. griseus.
- Ashworth, Doreen M.,Robinson, John A.,Turner, David L.
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p. 1719 - 1728
(2007/10/02)
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