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相关概念视频

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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ATP and Macromolecule Synthesis01:28

ATP and Macromolecule Synthesis

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Biological macromolecules are organic compounds, predominantly composed of carbon atoms. The carbon atoms are covalently bonded with hydrogen, oxygen, nitrogen, and other minor elements. There are four major biological macromolecule classes: carbohydrates, lipids, proteins, and nucleic acids.
Most macromolecules are composed of single subunits, or building blocks, called monomers. The monomers combine with each other using covalent bonds to form larger molecules known as polymers.
Conversion of...
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Synthesis and Decomposition Reactions02:17

Synthesis and Decomposition Reactions

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Synthesis and decomposition are two types of redox reactions. Synthesis means to make something, whereas decomposition means to break something. The reactions are accompanied by chemical and energy changes. 
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Translesion DNA Polymerases02:10

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Translesion (TLS) polymerases rescue stalled DNA polymerases at sites of damaged bases by replacing the replicative polymerase and installing a nucleotide across the damaged site. Doing so, TLS allows additional time for the cell to repair the damage before resuming regular DNA replication.
TLS polymerases are found in all three domains of life - archaea, bacteria, and eukaryotes. Of the different classes of TLS polymerases, members of the Y family are fitted with specialized structures that...
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tRNA Activation02:26

tRNA Activation

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Aminoacyl-tRNA synthetases are present in both eukaryotes and bacteria. Though eukaryotes have 20 different aminoacyl-tRNA synthetases to couple to 20 amino acids, many bacteria do not have genes for all of these aminoacyl-tRNA synthetases. Despite this, they still use all 20 amino acids to synthesize their proteins. For instance, some bacteria do not have the gene encoding the enzyme that couples glutamine with its partner tRNA. In these organisms, one enzyme adds glutamic acid to all of the...
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Catalysis02:50

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The presence of a catalyst affects the rate of a chemical reaction. A catalyst is a substance that can increase the reaction rate without being consumed during the process. A basic comprehension of a catalysts’ role during chemical reactions can be understood from the concept of reaction mechanisms and energy diagrams.
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Updated: Jun 14, 2025

DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation
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DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation

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活跃模板合成 活跃模板合成

Romain Jamagne1, Martin J Power1, Zhi-Hui Zhang2

  • 1Department of Chemistry, University of Manchester, Oxford Road, Manchester M13 9PL, UK. david.leigh@manchester.ac.uk.

Chemical Society reviews
|September 5, 2024
PubMed
概括
此摘要是机器生成的。

活跃模板合成使用模板剂作为催化剂来构建机械互锁的分子,如罗塔和. 这种无痕迹的方法可以实现多样化的分子架构,而无需永久的结合相互作用.

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科学领域:

  • 超分子化学 超分子化学
  • 有机合成 有机合成
  • 材料科学 材料科学 材料科学

背景情况:

  • 活跃模板合成利用结构元素 (金属或功能组) 作为模板和催化剂.
  • 这种方法促进了共价键的形成,用于构建机械互锁的分子架构.
  • 它与被动模板的区别在于它能够进行无痕合成,非常适合没有强大的组件间结合的分子.

研究的目的:

  • 审查对相互锁定分子的活性模板合成的概念,优势和局限性.
  • 为了绘制活跃模板合成中使用的各种反应.
  • 讨论分子机械,催化和材料科学中的应用.

主要方法:

  • 金属离子介导合成,特别是使用铜 (I) 催化基酸循环添加 (CuAAC).
  • 无金属活性模板合成,利用皇冠以太空腔加速反应.
  • 动力控制用于从短暂组装的中间体中捕获相互锁定的结构.

主要成果:

  • 自2006年以来,成功合成了各种罗塔克桑,卡特纳和结.
  • 对机械互锁分子进行无痕合成的演示.
  • 无金属方法可以在没有识别元件 (包括分子和超基) 的情况下进行罗塔xane 合成.

结论:

  • 活跃模板合成是构建复杂的机械互锁分子架构的通用策略.
  • 该方法在无痕合成和构建分子中具有极小的组件间相互作用的优势.
  • 它在分子机械和材料科学等先进领域具有广泛的适用性.