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相关概念视频

Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

9.3K
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...
9.3K
Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

2.8K
2.8K
Ligand Binding Sites02:40

Ligand Binding Sites

15.7K
Proteins are dynamic macromolecules that carry out a wide variety of essential processes; however, the activities of most proteins depend on their interactions with other molecules or ions, known as ligands.
Protein-ligand interactions are quite specific; even though numerous potential ligands surround a cellular protein at any given time, only a particular ligand can bind to that protein. Moreover, a ligand binds only to a dedicated area on the surface of the protein, known as the...
15.7K
Ligand Binding Sites02:40

Ligand Binding Sites

9.1K
9.1K
Complexometric Titration: Ligands00:43

Complexometric Titration: Ligands

2.6K
Different monodentate and polydentate ligands are used as complexing agents in complexometric titration reactions. The formation of complexes by mono- and bidentate ligands involves two or more intermediate steps, limiting their use as complexing agents. In comparison, polydentate ligands can form complexes with metal ions in a single-step process, facilitating sharper end points. This means polydentate ligands, such as amino carboxylic acid derivatives, are most commonly employed in...
2.6K
The Equilibrium Binding Constant and Binding Strength02:18

The Equilibrium Binding Constant and Binding Strength

15.6K
The equilibrium binding constant (Kb) quantifies the strength of a protein-ligand interaction. Kb can be calculated as follows when the reaction is at equilibrium:
15.6K

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相关实验视频

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Determination of Protein-ligand Interactions Using Differential Scanning Fluorimetry
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Determination of Protein-ligand Interactions Using Differential Scanning Fluorimetry

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使用连接物度调节竞争的超分子相互作用

Abraham J P Teunissen, Tim F E Paffen, Gianfranco Ercolani1

  • 1Dipartimento di Scienze e Tecnologie Chimiche, Università di Roma Tor Vergata , Via della Ricerca Scientifica, 00133 Roma, Italy.

Journal of the American Chemical Society
|May 11, 2016
PubMed
概括

具有相互竞争的合成系统模仿了生命的适应性. 研究人员研究了一种含有尿胺 (UPy) 基因的分子,通过添加补充的2,7-胺-1,8-胺 (NaPy) 来控制循环形成.

科学领域:

  • 超分子化学
  • 化学工程
  • 材料科学

背景情况:

  • 生物分子系统表现出复杂的,具有竞争力的非共价相互作用,这些相互作用定义了生物结果.
  • 合成的超分子系统通常依赖于最小的路径,限制了适应性和特定的结构选择.
  • 开发具有竞争性相互作用的合成系统对于创造更适应性,更像真实的人工系统至关重要.

研究的目的:

  • 研究C2v对称的三角形分子的自我组装行为,其中包括尿胺 (UPy) 基因.
  • 探索竞争相互作用如何影响合成系统中的循环结构的形成和稳定性.
  • 检查添加一个补充的2,7-diamido-1,8-naphthyridine (NaPy) 基因对自组装循环的分布的影响.

主要方法:

  • 一个C2v对称的三极形分子的合成和表征,其中有三个尿胺 (UPy) 基因,其中一个具有较短的链接器.
  • 在自组装UPy循环的混合物中控制添加2,7-diamido-1,8-naphthyridine (NaPy).
  • 在不同NaPy度下分析所产生的循环分布和稳定性.

主要成果:

  • 由于连接器长度的变化,三角形UPy分子自组成两种类型的循环,稳定性不同.
  • 这些循环通过第三个UPy动机进行分子间二元化.

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Determination of Protein-ligand Interactions Using Differential Scanning Fluorimetry
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Titration ELISA as a Method to Determine the Dissociation Constant of Receptor Ligand Interaction
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Titration ELISA as a Method to Determine the Dissociation Constant of Receptor Ligand Interaction

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Controlling the Size, Shape and Stability of Supramolecular Polymers in Water
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Controlling the Size, Shape and Stability of Supramolecular Polymers in Water

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  • 添加NaPy可以调节循环比率,利用C2v对称性和微妙的结合强度差异.
  • 通过调整 NaPy 度,几乎完全形成一个特定的循环类型.
  • 结论:

    • C2v对称的三极形UPy系统显示了可控制的自我组装路径机制.
    • 在合成系统中,可以利用由外界因素如NaPy度调节的竞争相互作用来实现高特异性.
    • 这项工作为设计更具适应性和真实性的合成超分子材料提供了基础.