A C-H oxidation approach for streamlining synthesis of chiral polyoxygenated motifs Dedicated to Professor Paul Wender for his pioneering and inspirational work on complexity generating organometallic reactions for streamlining complex molecule synthesis

Covell D.J.; White M.C.

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A C-H oxidation approach for streamlining synthesis of chiral polyoxygenated motifs Dedicated to Professor Paul Wender for his pioneering and inspirational work on complexity generating organometallic reactions for streamlining complex molecule synthesis

机译：一种C-H氧化方法，用于简化手性多加氧基序的合成致敬Paul Wender教授，他在复杂性生成有机金属反应以简化复杂分子合成方面的开创性和启发性工作

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Chiral oxygenated molecules are pervasive in natural products and medicinal agents; however, their chemical syntheses often necessitate numerous, wasteful steps involving functional group and oxidation state manipulations. Herein a strategy for synthesizing a readily diversifiable class of chiral building blocks, allylic alcohols, through sequential asymmetric C-H activation/ resolution is evaluated against the state-of-the-art. The C-H oxidation routes' capacity to strategically introduce oxygen into a sequence and thereby minimize non-productive manipulations is demonstrated to effect significant decreases in overall step-count and increases in yield and synthetic flexibility.

机译：手性含氧分子普遍存在于天然产物和药物中。然而，它们的化学合成常常需要涉及官能团和氧化态操纵的许多浪费步骤。在本文中，针对现有技术评估了通过连续的不对称C-H活化/拆分来合成易于多样化的手性结构单元，烯丙基醇类的策略。 C-H氧化路线能够有效地将氧气引入序列，从而最大程度地减少非生产性操作，已证明可显着降低总体步数，并提高产量和合成灵活性。

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《Tetrahedron》 |2013年第36期|共8页
作者
Covell D.J.; White M.C.;
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正文语种 eng
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Allylic alcohols; Allylic oxidation; C-H oxidation; Enantioselective; Palladium; Sulfoxide;

机译：烯丙醇;烯丙氧化;C-H氧化;对映选择性;钯;亚砜;
入库时间 2022-08-19 14:39:12

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1. A C-H oxidation approach for streamlining synthesis of chiral polyoxygenated motifs Dedicated to Professor Paul Wender for his pioneering and inspirational work on complexity generating organometallic reactions for streamlining complex molecule synthesis [J] . Covell D.J., White M.C. Tetrahedron . 2013,第36期

机译：一种C-H氧化方法，用于简化手性多加氧基序的合成致敬Paul Wender教授，他在复杂性生成有机金属反应以简化复杂分子合成方面的开创性和启发性工作
2. (1-Bromovinyl)-MIDA boronate: A readily accessible and highly versatile building block for small molecule synthesis Dedicated to Professor Paul Wender with deepest admiration on his receipt of the 2012 Tetrahedron Prize for Creativity in Organic Chemistry [J] . Woerly E.M., Miller J.E., Burke M.D. Tetrahedron . 2013,第36期

机译：（1-溴乙烯基）-MIDA硼酸酯：小分子合成的一种容易获得的，高度通用的构件。致敬Paul Wender教授，对他获得2012年Tetrahedron有机化学创新奖深表钦佩。
3. Serendipitous discovery of two highly selective inhibitors of bacterial luciferase This work is dedicated to Professor Paul Wender, with recognition and gratitude for his inspirational contributions to scientific research and discovery [J] . Kim T., Spiegel D.A. Tetrahedron . 2013,第36期

机译：偶然发现两种荧光素酶的高度选择性抑制剂这项工作致敬保罗·温德（Paul Wender）教授，感谢他对科学研究和发现的鼓舞性贡献
4. An organometallic approach to synergistic effect in catalysis; synthesis and reactions of heterodinuclear organotransition metal complexes [C] . Sanshiro Komiya, Atsushi Fukuoka, Masafumi Hirano Tokyo conference on advanced catalytic science and technology . 1999

机译：催化在协同效应中的有机金属方法;异核有机溶解金属配合物的合成与反应
5. Streamlining synthesis of small molecules via carbon-hydrogen oxidation [D] . Fraunhoffer, Kenneth J. 2007

机译：通过碳氢氧化简化小分子合成
6. A C–H oxidation approach for streamlining synthesis of chiral polyoxygenated motifs [O] . Dustin J. Covell, M. Christina White -1

机译：C–H氧化方法可简化手性多加氧基序的合成
7. Catalytic Asymmetric Bond Constructions in Complex Molecule Synthesis. An Approach to the Synthesis of Spirolide C and the Development of Enantioselective Enolate Hydroxylation Reactions [O] . Guo Binbin 2013

机译：复杂分子合成中的催化不对称键结构。螺环化合物C的合成及对映选择性烯醇盐羟化反应的发展

A C-H oxidation approach for streamlining synthesis of chiral polyoxygenated motifs Dedicated to Professor Paul Wender for his pioneering and inspirational work on complexity generating organometallic reactions for streamlining complex molecule synthesis

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