Total Synthesis of Phorboxazole A via de Novo Oxazole Formation: Convergent Total Synthesis

恶唑 化学 全合成 立体化学 酰胺 聚酮合酶 噻唑啉 聚酮 天然产物 会聚合成 组合化学 保护组 生物合成 有机化学 烷基
作者
Bo Wang,Terkel Hansen,Lynn Weyer,Dimao Wu,Ting Wang,Mathias Christmann,Yingtao Lu,Lu Ying,Mary M. Engler,Russell D. Cink,Chi‐Sing Lee,Feryan Ahmed,Craig J. Forsyth
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:133 (5): 1506-1516 被引量:36
标识
DOI:10.1021/ja1089099
摘要

The phorboxazoles are mixed non-ribosomal peptide synthase/polyketide synthase biosynthetic products that embody polyketide domains joined via two serine-derived oxazole moieties. Total syntheses of phorboxazole A and analogues have been developed that rely upon the convergent coupling of three fragments via biomimetically inspired de novo oxazole formation. First, the macrolide-containing domain of phorboxazole A was assembled from C3-C17 and C18-C30 building blocks via formation of the C16-C18 oxazole, followed by macrolide ring closure involving an intramolecular Still-Genarri olefination at C2-C3. Alternatively, a ring-closing metathesis process was optimized to deliver the natural product's (2Z)-acrylate with remarkable geometrical selectivity. The C31-C46 side-chain domain was then appended to the macrolide by a second serine amide-derived oxazole assembly. Minimal deprotection then afforded phorboxazole A. This generally effective strategy was then dramatically abbreviated by employing a total synthesis approach wherein both of the natural product's oxazole moieties were installed simultaneously. A key bis-amide precursor to the bis-oxazole was formed in a chemoselective one-pot, bis-amidation sequence without the use of amino or carboxyl protecting groups. Thereafter, both oxazoles were formed from the key C18 and C31 bis-N-(1-hydroxyalkan-2-yl)amide in a simultaneous fashion, involving oxidation-cyclodehydrations. This synthetic strategy provides a total synthesis of phorboxazole A in 18% yield over nine steps from C3-C17 and C18-C30 synthetic fragments. It illustrates the utility of a synthetic design to form a mixed non-ribosomal peptide synthase/polyketide synthase biosynthetic product based upon biomimetic oxazole formation initiated by amide bond formation to join synthetic building blocks.
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