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Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

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Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

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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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Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

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Protein Dynamics in Living Cells01:19

Protein Dynamics in Living Cells

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Different fluorescence-based techniques are used to study the protein dynamics in living cells. These techniques include FRAP, FRET, and PET.
Fluorescent recovery after photobleaching (FRAP) is a fluorescent-protein-based detection technique used to quantify protein movement rates within the cell. This method exposes a small portion of the cell to an intense laser beam. The laser beam causes permanent photobleaching of the fluorophore-tagged proteins in the exposed region. As the bleached...
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Allosteric Proteins-ATCase01:19

Allosteric Proteins-ATCase

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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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Protein Networks02:26

Protein Networks

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An organism can have thousands of different proteins, and these proteins must cooperate to ensure the health of an organism. Proteins bind to other proteins and form complexes to carry out their functions. Many proteins interact with multiple other proteins creating a complex network of protein interactions.
These interactions can be represented through maps depicting protein-protein interaction networks, represented as nodes and edges. Nodes are circles that are representative of a protein,...
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Updated: Mar 23, 2026

Optimization of Synthetic Proteins: Identification of Interpositional Dependencies Indicating Structurally and/or Functionally Linked Residues
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タンパク質のタイミング相関は,機能モジュールとダイナミックアロステリーを予測する.

Milo M Lin1,2,3

  • 1Green Center for Molecular, Computational, and Systems Biology, University of Texas Southwestern Medical Center , Dallas, Texas 75390, United States.

Journal of the American Chemical Society
|March 23, 2016
PubMed
まとめ
この要約は機械生成です。

タンパク質の機能は 動きのタイミングに 組み込まれています 動きだけではありません 新しい条件付き活性関数は,タンパク質の長距離動的相関を明らかにし,重要な機能部位を特定します.

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Investigating Protein Sequence-structure-dynamics Relationships with Bio3D-web
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A Protocol for Computer-Based Protein Structure and Function Prediction
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関連する実験動画

Last Updated: Mar 23, 2026

Optimization of Synthetic Proteins: Identification of Interpositional Dependencies Indicating Structurally and/or Functionally Linked Residues
07:08

Optimization of Synthetic Proteins: Identification of Interpositional Dependencies Indicating Structurally and/or Functionally Linked Residues

Published on: July 14, 2015

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Investigating Protein Sequence-structure-dynamics Relationships with Bio3D-web
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Published on: July 16, 2017

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A Protocol for Computer-Based Protein Structure and Function Prediction
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A Protocol for Computer-Based Protein Structure and Function Prediction

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科学分野:

  • バイオ物理学
  • 構造生物学
  • コンピュータ生物学

背景:

  • タンパク質の構造と機能の関係は複雑で,完全に解明されていません.
  • 既存の方法は,重要な形状の変化なしに起こる長距離のタンパク質内伝達を捉えることができません.

研究 の 目的:

  • タンパク質のダイナミクスに 機能的な情報がどのように 符号化されているかを調べる
  • タンパク質の動きのタイミングの相関を定量化するための新しい方法を導入する.

主な方法:

  • 条件付き活動関数の開発と適用
  • 3つのタンパク質のマイクロ秒間の原子シミュレーションの分析
  • サイドチェーンの二面角間の条件付き活動の計算.

主要な成果:

  • 機能的な情報は タンパク質の動きのタイミングに 符号化されています 動きそのものに 符号化されていません
  • 条件付きアクティビティ関数を使用した稀なサイドチェーンペア間の長距離ダイナミック相関 (7 nmまで) が実証されています.
  • 観測された短距離 (<1 nm) の構造的相関は,長距離の動的相関と対照的である.

結論:

  • 条件付き活性関数は,タンパク質のダイナミクスにおけるタイミングの相関を効果的に定量化します.
  • 動的相関は,タンパク質内の機能的モジュールとアロステリック接続を明らかにします.
  • このアプローチは,運動のタイミングに焦点を当てて,構造-機能パラダイムへの新しい洞察を提供します.