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DNA as a Genetic Template02:05

DNA as a Genetic Template

27.4K
Two structural features of the DNA molecule provide a basis for the mechanisms of heredity: the four nucleotide bases and its double-stranded nature. The Watson-Crick model of double-helical DNA structure, proposed in 1952, drew heavily upon the X-ray crystallography work of researchers Rosalind Franklin and Maurice Wilkins. Watson, Crick, and Wilkins jointly received the Nobel Prize in Physiology or Medicine for their work in 1962. Franklin was, controversially, excluded from the prize for...
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DNA as a Genetic Template02:05

DNA as a Genetic Template

9.4K
9.4K
Preparation of Amides01:29

Preparation of Amides

4.0K
Amides are synthesized by treating carboxylic acids with amines in the presence of dehydrating agents like dicyclohexylcarbodiimide (DCC).
The DCC-promoted synthesis of amides begins with the protonation of DCC by carboxylic acid. The protonation makes it a better acceptor. Next, the addition of carboxylate to the protonated carbodiimide gives a reactive acylating agent.
Subsequently, the amine acts as a nucleophile that attacks the acylating agent to form a tetrahedral intermediate. In the...
4.0K
Amides to Carboxylic Acids: Hydrolysis01:28

Amides to Carboxylic Acids: Hydrolysis

4.4K
Amides can undergo either acid-catalyzed hydrolysis or base-promoted hydrolysis through a typical nucleophilic acyl substitution. Each hydrolysis requires severe conditions.
Acid-catalyzed hydrolysis:
Hydrolysis of amides under acidic conditions yields carboxylic acids. Since the reaction occurs slowly, hydrolysis requires the conditions of heat.
The mechanism begins with the protonation of the carbonyl oxygen by the acid catalyst. The protonation makes the amide carbonyl carbon more...
4.4K
Amines to Amides: Acylation of Amines01:19

Amines to Amides: Acylation of Amines

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Various carboxylic acid derivatives (such as acid chlorides, esters, and anhydrides) can be used for the acylation of amines to yield amides. The reaction requires two equivalents of amines. The first amine molecule functions as a nucleophile and attacks the carbonyl carbon to produce a tetrahedral intermediate. This is followed by the loss of the leaving group and restoration of the C=O bond.
Next, the second equivalent of amine serves as a Brønsted base and deprotonates the quaternary...
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Acid Halides to Amides: Aminolysis01:07

Acid Halides to Amides: Aminolysis

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Aminolysis is a nucleophilic acyl substitution reaction, where ammonia or amines act as nucleophiles to give the substitution product. Acid halides react with ammonia, primary amines, and secondary amines to yield primary, secondary, and tertiary amides, respectively.
In the first step of the aminolysis mechanism, the amine attacks the carbonyl carbon of the acyl chloride to form a tetrahedral intermediate. In the second step, the carbonyl group is re-formed with the elimination of a chloride...
4.3K

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Updated: Jan 24, 2026

Cecal Ligation Puncture Procedure
11:53

Cecal Ligation Puncture Procedure

Published on: May 7, 2011

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無痕テンプレートアミド形成結合

Alberto Osuna Gálvez1, Jeffrey W Bode1

  • 1Laboratorium für Organische Chemie, Department of Chemistry and Applied Biosciences , ETH Zürich , 8093 Zürich , Switzerland.

Journal of the American Chemical Society
|May 24, 2019
PubMed
まとめ

この研究は,アシルボロナート-ヒドロキシラミン化学を用いた,痕跡のない,テンプレート化されたアミド形成結合を導入する. この新しい方法は,生物分子の存在でも,水分を薄めた状態で効率的なアミド結合形成を可能にします.

科学分野:

  • 化学生物学
  • 有機化学
  • 生物結合化学

背景:

  • テンプレート誘導合成は,稀な条件下での反応効率を高めます.
  • 既存のテンプレート戦略は,しばしば最終製品に残留テンプレートグループを残します.
  • 純粋な製品を必要とするアプリケーションでは,痕跡のないテンプレートメソッドの開発が不可欠です.

研究 の 目的:

  • 無痕でテンプレートされたアミド形成反応を起こすために
  • 生物分子が水分状態で効率的な結合を可能にします.
  • テンプレートシステムでアシルボロナート-ヒドロキシラミン化学の有用性を実証する.

主な方法:

  • 反応物質を近接させるためのテンプレートとして ストリープタヴィジンを使用した.
  • デシオビオチンで機能化されたアシルボロナートとO-アシルヒドロキシラミンが使用されている.
  • アミド結合の形成に デスティオビオチンの分裂を活用して 痕跡のないプロセスです
  • 低マイクロモラー濃度での水性バッファでの反応.

主要な成果:

  • 素微量濃度で迅速かつ効率的なアミド結合形成が実証されている.
  • 粘結の痕跡がないことを確認した

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Last Updated: Jan 24, 2026

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Amide Coupling Reaction for the Synthesis of Bispyridine-based Ligands and Their Complexation to Platinum as Dinuclear Anticancer Agents
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  • バイオ分子と水性の条件との相容性を示した.
  • ストレプタヴィディンが反応強化に与える 空間的指向の重要な役割を強調した.
  • 結論:

    • 幅広く適用可能な新型無痕型アミド結合を開発した.
    • この方法は,困難な条件下で生物結合と合成のための重要な利点を提供します.
    • このアプローチは,テンプレートグループ削除の必要性を排除することによって,テンプレート指向合成の分野を前進させる.