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相关概念视频

Ethers from Alcohols: Alcohol Dehydration and Williamson Ether Synthesis02:29

Ethers from Alcohols: Alcohol Dehydration and Williamson Ether Synthesis

11.1K
Overview
Ethers can be prepared from organic compounds by various methods. Some of them are discussed below,
Preparation of Ethers by Alcohol Dehydration
In this method, in the presence of protic acids, alcohol dehydrates to produce alkenes and ethers under different conditions. For example, in the presence of sulphuric acid, dehydration of ethanol at 413 K yields ethoxyethane, whereas it yields ethene at 443 K.
11.1K
Regioselective Formation of Enolates01:33

Regioselective Formation of Enolates

2.8K
As depicted in the figure below, the unsymmetrical ketones can form two possible enolates:  less substituted or more substituted enolates. Usually, the thermodynamic enolates are formed from the more substituted α-carbon atom, while the kinetic enolates are formed faster by deprotonation from the less substituted position. The thermodynamic enolates have lower energy, so they are  more stable. But the energy required to form kinetic enolates is less.
2.8K
Intramolecular Claisen Condensation of Dicarboxylic Esters: Dieckmann Cyclization01:13

Intramolecular Claisen Condensation of Dicarboxylic Esters: Dieckmann Cyclization

2.6K
Dieckmann cyclization is an intramolecular Claisen condensation of diesters. The reaction occurs in the presence of a base and generates a cyclic β-ketoester as the final product. Commonly, 1, 6 and 1, 7-diesters are preferred substrates for the reaction since the generated five, and six-membered cyclic β-keto esters are particularly more stable.
2.6K
Diels–Alder Reaction Forming Bridged Bicyclic Products: Stereochemistry01:29

Diels–Alder Reaction Forming Bridged Bicyclic Products: Stereochemistry

4.8K
Diels–Alder reactions between cyclic dienes locked in an s-cis configuration and dienophiles yield bridged bicyclic products.
4.8K
Preparation of Epoxides03:00

Preparation of Epoxides

8.2K
Overview
Epoxides result from alkene oxidation, which can be achieved by a) air, b) peroxy acids, c) hypochlorous acids, and d) halohydrin cyclization.
Epoxidation with Peroxy Acids
Epoxidation of alkenes via oxidation with peroxy acids involves the conversion of a carbon–carbon double bond to an epoxide using the oxidizing agent meta-chloroperoxybenzoic acid, commonly known as MCPBA. Since the O–O bond of peroxy acids is very weak, the addition of electrophilic oxygen of...
8.2K
β-Dicarbonyl Compounds via Crossed Claisen Condensations01:18

β-Dicarbonyl Compounds via Crossed Claisen Condensations

3.3K
Crossed Claisen condensations are base-promoted reactions between two different ester molecules producing β-dicarbonyl compounds.  The reaction involving esters, with both containing α hydrogen, results in a mixture of four different products that are difficult to isolate. This reduces the synthetic utility of the reaction.
3.3K

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相关实验视频

Updated: Sep 21, 2025

Synthesis of a Thiol Building Block for the Crystallization of a Semiconducting Gyroidal Metal-sulfur Framework
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Synthesis of a Thiol Building Block for the Crystallization of a Semiconducting Gyroidal Metal-sulfur Framework

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通过多用途的硫酶域形成二乙烯

Qian Wei1, Ze-Ping Wang1, Xiao Zhang1

  • 1College of Pharmaceutical Sciences, Southwest University, Chongqing 400715, People's Republic of China.

Journal of the American Chemical Society
|May 31, 2022
PubMed
概括
此摘要是机器生成的。

这项研究揭示了一种新型的非氧化途径,用于酶性乙烯的形成,利用聚基合成酶的硫酶域. 这一发现挑战了之前对乙烯生物合成的理解.

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Constructing Thioether/Vinyl Sulfide-tethered Helical Peptides Via Photo-induced Thiol-ene/yne Hydrothiolation
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Facile Preparation of 2Z,4E-Dienamides by the Olefination of Electron-deficient Alkenes with Allyl Acetate
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Facile Preparation of 2Z,4E-Dienamides by the Olefination of Electron-deficient Alkenes with Allyl Acetate

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Synthesis of a Thiol Building Block for the Crystallization of a Semiconducting Gyroidal Metal-sulfur Framework
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Constructing Thioether/Vinyl Sulfide-tethered Helical Peptides Via Photo-induced Thiol-ene/yne Hydrothiolation
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Facile Preparation of 2Z,4E-Dienamides by the Olefination of Electron-deficient Alkenes with Allyl Acetate
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科学领域:

  • 生物化学
  • 酵素学
  • 自然产品生物合成

背景情况:

  • 通常通过氧化合或重新排列而形成.
  • 之前没有描述过酶性非氧化乙烯的产生.
  • 了解新生物合成途径对于发现天然产品至关重要.

研究的目的:

  • 描述一种新的非氧化乙烯形成的酶机制.
  • 阐明在乙烯生物合成中的硫酶域的催化过程.
  • 探索产生乙烯化合物的替代策略.

主要方法:

  • 从非还原性多基合成酶 (nrPKS) AN7909中发现和表征一种硫酶 (TE) 域.
  • 使用合成模仿基质进行生物化学分析.
  • 通过定位突变检测催化机制.

主要成果:

  • 通过非氧化途径鉴定了一种 TE 域,可催化二乙烯的形成.
  • 阐明了涉及化,微笑重新排列和水解的多步骤过程.
  • 通过突变分析和基质研究提供了机制性见解.

结论:

  • 发现的TE域代表了乙烯生物合成的新型酶策略.
  • 这一发现扩大了已知的PKS相关酶功能.
  • 描述的路径为合成生物学和药物发现提供了新的途径.