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Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

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Cooperative Allosteric Transitions01:58

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Cooperative allosteric transitions can occur in multimeric proteins, where each subunit of the protein has its own ligand-binding site. When a ligand binds to any of these subunits, it triggers a conformational change that affects the binding sites in the other subunits; this can change the affinity of the other sites for their respective ligands. The ability of the protein to change the shape of its binding site is attributed to the presence of a mix of flexible and stable segments in the...
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Allosteric Regulation

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Allosteric regulation of enzymes occurs when the binding of an effector molecule to a site that is different from the active site causes a change in the enzymatic activity. This alternate site is called an allosteric site, and an enzyme can contain more than one of these sites. Allosteric regulation can either be positive or negative, resulting in an increase or decrease in enzyme activity. Most enzymes that display allosteric regulation are metabolic enzymes involved in the degradation or...
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Allosteric proteins have more than one ligand binding site; the binding of a ligand to any of these sites influences the binding of ligands to the other sites. When a protein is allosteric, its binding sites are called coupled or linked.  In the case of enzymes, the site that binds to the substrate is known as the active site and the other site is known as the regulatory site. When a ligand binds to the regulatory site, this leads to conformational changes in the protein that can influence...
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Binding sites linkages can regulate a protein's function.  For example, enzyme activity is often regulated through a feedback mechanism where the end product of the biochemical process serves as an inhibitor.
Aspartate transcarbamoylase (ATCase) is a cytosolic enzyme that catalyzes the condensation of L-aspartate and carbamoyl phosphate to  N-carbamoyl-L-aspartate. This reaction is the first step in pyrimidine biosynthesis. UTP and CTP, the end products of the pyrimidine synthesis...
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向非离子共价有机框架纳米板进行度调制

Hao Deng1,2,3,4, Ying Wang3, Yanqiu Lu2

  • 1Department Joint School of National University of Singapore and Tianjin University, International Campus of Tianjin University Binhai New City 350207 Fuzhou, China.

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概括
此摘要是机器生成的。

我们开发了一种合成高质量的非离子共价有机框架纳米片 (nCOFN) 的化调节策略. 这种方法使nCOFN的温和环境合成能够在先进的膜应用中具有出色的溶液可加工性.

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科学领域:

  • 材料科学
  • 纳米技术
  • 超分子化学

背景情况:

  • 无离子共价有机框架纳米片 (nCOFN) 是有希望的构建块,但在溶液中合成具有挑战性.
  • 控制层内和层间相互作用对于高质量的nCOFN合成至关重要.
  • 生物调节机制Allostery尚未在合成材料中得到探索.

研究的目的:

  • 引入β-基胺结合的nCOFN溶液相合成的异构调节策略.
  • 调查二次胺作为控制nCOFN组装中的全调节剂的作用.
  • 在温和条件下,在nCOFN中实现高晶度和大面积比.

主要方法:

  • 使用二次氨基作为基调制剂来控制基聚和基阻碍.
  • 优化调节特性 (N次暴露,副组大小) 以获得平衡的全效应.
  • 使用温和的环境条件来合成nCOFN.

主要成果:

  • 成功合成高质量的nCOFN具有高晶度和面积比> 1000.
  • 在温和环境下获得高产量 (高达82%).
  • 证明了出色的溶液可加工性,使其能够组装成具有超高甲醇透率的膜 (127 L m−2 h−1 bar−1).

结论:

  • 基调制策略为合成先进的nCOFN提供了一种新方法.
  • 合成的nCOFN在膜应用中表现出卓越的性能,包括耐用性和制药净化.
  • 通过制造大面积的平板和空洞纤维膜来证明实际应用潜力.