Nidulalin A 和 Nidulaxanthone A 的不对称合成:使用氧鎓盐选择性羰基去饱和化。
Asymmetric Synthesis of Nidulalin A and Nidulaxanthone A: Selective Carbonyl Desaturation Using an Oxoammonium Salt.
机构信息
Department of Chemistry, Boston University, Boston, Massachusetts 02215, United States.
Center for Molecular Discovery (BU-CMD), Boston University, Boston, Massachusetts 02215, United States.
出版信息
J Am Chem Soc. 2024 Feb 21;146(7):4892-4902. doi: 10.1021/jacs.3c13864. Epub 2024 Feb 6.
Nidulaxanthone A is a dimeric, dihydroxanthone natural product that was isolated in 2020 from . Structurally, the compound features an unprecedented heptacyclic 6/6/6/6/6/6/6 ring system which is unusual for natural xanthone dimers. Biosynthetically, nidulaxanthone A originates from the monomer nidulalin A via stereoselective Diels-Alder dimerization. To expedite the synthesis of nidulalin A and study the proposed dimerization, we developed methodology involving the use of allyl triflate for chromone ester activation, followed by vinylogous addition, to rapidly forge the nidulalin A scaffold in a four-step sequence which also features ketone desaturation using Bobbitt's oxoammonium salt. An asymmetric synthesis of nidulalin A was achieved using acylative kinetic resolution (AKR) of chiral, racemic 2-nidulalin A. Dimerization of enantioenriched nidulalin A to nidulaxanthone A was achieved using solvent-free, thermolytic conditions. Computational studies have been conducted to probe both the oxoammonium-mediated desaturation and (4 + 2) dimerization events.
尼达叶黄素 A 是一种二聚体、二羟基黄烷酮天然产物,于 2020 年从 中分离得到。结构上,该化合物具有前所未有的七元环 6/6/6/6/6/6/6 环系统,这对于天然黄烷酮二聚体来说是不寻常的。生物合成上,尼达叶黄素 A 来源于单体尼达林 A,通过立体选择性 Diels-Alder 二聚化。为了加快尼达林 A 的合成并研究所提出的二聚化,我们开发了一种方法,涉及使用烯丙基三氟甲磺酸酯激活色酮酯,然后进行 vinylogous 添加,以快速在四步序列中形成尼达林 A 支架,该序列还使用 Bobbitt 的氧铵盐进行酮去饱和。使用手性、外消旋 2-尼达林 A 的酰基化动力学拆分 (AKR) 实现了尼达林 A 的不对称合成。通过无溶剂、热解条件实现了对映体富集的尼达林 A 到尼达叶黄素 A 的二聚化。已经进行了计算研究来探测氧铵介导的去饱和和 (4 + 2) 二聚化事件。
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