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Synthetic Biology02:55

Synthetic Biology

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Synthetic biology is an interdisciplinary science that involves using principles from disciplines such as engineering, molecular biology, cell biology, and systems biology. It involves remodeling existing organisms from nature or constructing completely new synthetic organisms for applications such as protein or enzyme production, bioremediation, value-added macromolecule production, and the addition of desirable traits to crops, to name a few.
Golden rice
Golden rice is a genetically modified...
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Radical Chain-Growth Polymerization: Chain Branching01:17

Radical Chain-Growth Polymerization: Chain Branching

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The skeletal structure of polymers synthesized via radical polymerization is always branched. For example, the polymerization of ethylene by radical polymerization results in a low-density grade of polyethylene with a heavily branched skeletal structure. Here, the radical site abstracts hydrogen from the growing chain, and the radical site shifts from the end (a primary carbon center) to anywhere within the growing chain (a secondary carbon center). Consequently, the part of the chain from the...
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Radical Chain-Growth Polymerization: Overview01:10

Radical Chain-Growth Polymerization: Overview

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Chain-growth or addition polymerization is successive addition reactions of monomers with a polymer chain. In radical chain-growth polymerization, the reaction proceeds via a free-radical intermediate. The free radical is formed from radical initiators, which spontaneously generate free radicals by homolytic fission. Organic peroxides (such as dibenzoyl peroxide, as shown in Figure 1) or azo compounds are popular radical initiators. A low concentration ratio of radical initiator to monomer is...
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Radical Chain-Growth Polymerization: Mechanism01:09

Radical Chain-Growth Polymerization: Mechanism

3.6K
The radical chain-growth polymerization mechanism consists of three steps: initiation, propagation, and termination of polymerization. The polymerization initiates when a free radical generated from the radical initiator adds to the unsaturated bond in the monomer. The unpaired electron of the free radical and one π electron in the unsaturated bond creates a σ bond between the free radical and the monomer. As a result, the other π electron in the unsaturated bond converts this species into...
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Olefin Metathesis Polymerization: Overview01:13

Olefin Metathesis Polymerization: Overview

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Recently, the development of olefin metathesis polymerization advanced the field of polymer synthesis. Simply put, the reorganization of substituents on their double bonds between two olefins in the presence of a catalyst is known as the olefin metathesis reaction. The use of metathesis reaction for polymer synthesis is called olefin metathesis polymerization.
Ruthenium-based Grubbs catalyst is the most commonly used catalyst for olefin metathesis polymerization. Grubbs catalyst consists of a...
2.6K
[4+2] Cycloaddition of Conjugated Dienes: Diels–Alder Reaction01:16

[4+2] Cycloaddition of Conjugated Dienes: Diels–Alder Reaction

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The Diels–Alder reaction is an example of a thermal pericyclic reaction between a conjugated diene and an alkene or alkyne, commonly referred to as a dienophile. The reaction involves a concerted movement of six π electrons, four from the diene and two from the dienophile, forming an unsaturated six-membered ring. As a result, these reactions are classified as [4+2] cycloadditions.
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関連する実験動画

Updated: Feb 22, 2026

Automated Robotic Liquid Handling Assembly of Modular DNA Devices
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Automated Robotic Liquid Handling Assembly of Modular DNA Devices

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プログラム可能な分子マシンによるステレオダイバーゲント合成

Salma Kassem1, Alan T L Lee1, David A Leigh1

  • 1School of Chemistry, University of Manchester, Oxford Road, Manchester M13 9PL, UK.

Nature
|September 22, 2017
PubMed
まとめ

この研究は,立体選択合成を行うことができるプログラム可能な分子ロボットを導入します. この人工分子の機械は 単一の反応容器で様々な化学的結果のための 基板の位置を正確に制御します

科学分野:

  • 化学工学
  • 有機化学
  • ナノテクノロジー

背景:

  • 生物学的分子機械は 化学反応のための基板を 定期的に配置します
  • オリゴーマー合成やキラリティスイッチングなどの作業のために人工分子の機械が開発されています.
  • 以前の人工システムには 光反応性分子と基板輸送メカニズムが含まれています

研究 の 目的:

  • 活性化部位の間を 基板で移動させる人工分子装置を 詳細に説明する
  • ディアステレオイソメアのプログラム可能なステレオ選択合成を実証する.
  • 連続した"ポット・タンデム"反応が起こり,さまざまな結果が得られます.

主な方法:

  • 基板操作のための分子ロボットの開発
  • チオール,アルケン,α,β不飽和アルデヒドを含む連続した1ポットタンデム反応過程.
  • 機械をプログラムして ステレオ選択的産物形成を制御する

主要な成果:

  • 分子ロボットは 4つの可能性のあるダイアステレオイソマーのうちの 1つを 過剰に生成することができました
  • ステレオダイバーゲント合成により,従来の有機触媒法では入手できないダイアステレオイソマーが得られる.

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  • プログラムされた基板の動きを通して,製品の結果に対する正確な制御が実証されています.
  • 結論:

    • 人工分子の機械は 複雑な化学合成のためにプログラムできます
    • このプログラム可能な機械は 立体選択と立体離散合成に 新しいアプローチを提供します
    • 未来の分子ロボットは 先進的な化学合成と 分子製造に 期待を寄せています