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Hydroboration-Oxidation of Alkenes03:08

Hydroboration-Oxidation of Alkenes

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In addition to the oxymercuration–demercuration method, which converts the alkenes to alcohols with Markovnikov orientation, a complementary hydroboration-oxidation method yields the anti-Markovnikov product. The hydroboration reaction, discovered in 1959 by H.C. Brown, involves the addition of a B–H bond of borane to an alkene giving an organoborane intermediate. The oxidation of this intermediate with basic hydrogen peroxide forms an alcohol.
10.1K
Regioselectivity and Stereochemistry of Hydroboration02:36

Regioselectivity and Stereochemistry of Hydroboration

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A significant aspect of hydroboration–oxidation is the regio- and stereochemical outcome of the reaction.
Hydroboration proceeds in a concerted fashion with the attack of borane on the π bond, giving a cyclic four-centered transition state. The –BH2 group is bonded to the less substituted carbon and –H to the more substituted carbon. The concerted nature requires the simultaneous addition of –H and –BH2 across the same face of the alkene giving syn...
7.8K
Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation02:47

Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation

19.8K
Introduction
One of the convenient methods for the preparation of aldehydes and ketones is via hydration of alkynes. Hydroboration-oxidation of alkynes is an indirect hydration reaction in which an alkyne is treated with borane followed by oxidation with alkaline peroxide to form an enol that rapidly converts into an aldehyde or a ketone. Terminal alkynes form aldehydes, whereas internal alkynes give ketones as the final product.
19.8K
Loss of Carboxy Group as CO2: Decarboxylation of β-Ketoacids01:02

Loss of Carboxy Group as CO2: Decarboxylation of β-Ketoacids

2.1K
Carboxylic acids, upon heating, undergo a decarboxylation reaction by releasing carbon dioxide gas. Monocarboxylic acids do not undergo decarboxylation easily. However, a silver salt of carboxylic acid reacts with bromine or iodine under high temperature to release carbon dioxide gas and forms halide with one less carbon. This reaction is called the Hunsdiecker reaction.
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α-Bromination of Carboxylic Acids: Hell–Volhard–Zelinski Reaction01:15

α-Bromination of Carboxylic Acids: Hell–Volhard–Zelinski Reaction

2.1K
The method to achieve α-brominated carboxylic acids using a mixture of phosphorus tribromide and bromine is known as the Hell–Volhard–Zelinski reaction. The reaction is catalyzed by phosphorus tribromide, which can be used directly or produced in situ from red phosphorus and bromine. The mechanism comprises PBr3 catalyzed conversion of acid to acid bromide and hydrogen bromide. The acid bromide enolizes to its enol form in the presence of HBr. The nucleophilic enol attacks the...
2.1K
Loss of Carboxy Group as CO2: Decarboxylation of Malonic Acid Derivatives01:35

Loss of Carboxy Group as CO2: Decarboxylation of Malonic Acid Derivatives

1.8K
Just like β-keto acids—which upon thermal decarboxylation form ketones—β-dicarboxylic acids undergo decarboxylation to generate monocarboxylic acids with the liberation of carbon dioxide.
1.8K

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Synthesis of 1,2-Azaborines and the Preparation of Their Protein Complexes with T4 Lysozyme Mutants
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脱碳氧化玻利化脱碳氧化玻利化

Chao Li1, Jie Wang1, Lisa M Barton1

  • 1Department of Chemistry, The Scripps Research Institute (TSRI), La Jolla, CA 92037, USA.

Science (New York, N.Y.)
|April 15, 2017
PubMed
概括
此摘要是机器生成的。

一种新的催化反应有效地将碳酸转化为酸. 这种方法简化了重要的酸药物和新型酶抑制剂的合成.

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科学领域:

  • 有机化学 有机化学
  • 药用化学 医学化学
  • 催化剂是一种催化剂.

背景情况:

  • 基酸和 Ester 是有价值的合成中间体,但它们的制备具有挑战性.
  • 现有的合成这些化合物的方法往往涉及复杂的程序或有限的范围.

研究的目的:

  • 开发一种简单,实用和广泛的方法,用于制备功能化的基酸.
  • 将这种新方法应用于生物相关分子的合成,包括药物和酶抑制剂.

主要方法:

  • 开发了一种催化反应,将碳酸衍生物转化为酸.
  • 这种反应采用类似于胺基结合形成的激活策略.
  • 该方法应用于合成和制备α-氨基酸.

主要成果:

  • 反应提供了从丰富的碳酸替代物中快速获得密集功能化的基酸.
  • 促进了基酸药物Velcade和Ninlaro的合成.
  • 一种酸类型的万科米辛被合成,具有很高的立体选择性.
  • 发现了具有可逆共价结合特性的人类中性粒细胞弹性酶的新型强抑制剂.

结论:

  • 开发的催化反应提供了一条通用且高效的途径,以基酸.
  • 这种方法大大简化了重要的药物化合物的合成,并使新的生物活性剂的发现.
  • 该方法有望在有机合成和药物发现中得到更广泛的应用.