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相关概念视频

Protein Folding01:25

Protein Folding

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Proteins are chains of amino acids linked together by peptide bonds. Upon synthesis, a protein folds into a three-dimensional conformation, critical to its biological function. Interactions between its constituent amino acids guide protein folding, and hence the protein structure is primarily dependent on its amino acid sequence.
Protein Structure Is Critical to Its Biological Function
Proteins perform a wide range of biological functions such as catalyzing chemical reactions, providing...
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Protein Organization01:24

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Proteins are polymers of amino acid residues. They are versatile and responsible for different cellular functions, including DNA replication, molecular transport, catalysis, and structural support. Proteins have a hierarchical structure comprising at least three levels of organization: primary, secondary, and tertiary structure. Some large proteins have a quaternary structure where individual protein subunits are linked together.
The primary structure of a protein is its amino acid sequence....
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Protein Complex Assembly02:41

Protein Complex Assembly

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Proteins can form homomeric complexes with another unit of the same protein or heteromeric complexes with different types.  Most protein complexes self-assemble spontaneously via ordered pathways, while some proteins need assembly factors that guide their proper assembly. Despite the crowded intracellular environment, proteins usually interact with their correct partners and form functional complexes.
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Protein and Protein Structure02:15

Protein and Protein Structure

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Proteins are one of the most abundant organic molecules in living systems and have the most diverse range of functions of all macromolecules. Proteins may be structural, regulatory, contractile, or protective. They may serve in transport, storage, or membranes; or they may be toxins or enzymes. Their structures, like their functions, vary greatly. They are all, however, amino acid polymers arranged in a linear sequence.
A protein's shape is critical to its function. For example, an enzyme...
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Molecular Chaperones and Protein Folding03:00

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The native conformation of a protein is formed by interactions between the side chains of its constituent amino acids. When the amino acids cannot form these interactions, the protein cannot fold by itself and needs chaperones. Notably, chaperones do not relay any additional information required for the folding of polypeptides; the native conformation of a protein is determined solely by its amino acid sequence. Chaperones catalyze protein folding without being a part of the folded protein.
The...
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Amyloid fibrils are aggregates of misfolded proteins.  Under most circumstances, misfolded proteins are either refolded by chaperone proteins or degraded by the proteasome. However, in the case of a mutation or a disease, these proteins can accumulate to form large clusters and often further assemble to form elongated fibers, called fibrils. 
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相关实验视频

Updated: Jun 12, 2025

Formation of Ordered Biomolecular Structures by the Self-assembly of Short Peptides
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Formation of Ordered Biomolecular Structures by the Self-assembly of Short Peptides

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提高稳定性:用于自组装结构的层次方法.

Denys Balandin1,2, Natalia Szulc3, Dominika Bystranowska4

  • 1Department of Bioorganic Chemistry, Faculty of Chemistry, Wrocław University of Science and Technology, Wybrzeże Wyspiańskiego 27, Wrocław 50-370, Poland. monika.szefczyk@pwr.edu.pl.

Journal of materials chemistry. B
|September 24, 2024
PubMed
概括
此摘要是机器生成的。

这项研究通过结合trans-(1S,2S)-2-aminocyclopentanecarboxylic acid (trans-ACPC) 来增强的稳定性. 这种修改改善了具有受限制β-氨基酸残留的的构造稳定性和自我组装.

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Synthesis of Information-bearing Peptoids and their Sequence-directed Dynamic Covalent Self-assembly
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Synthesis and Characterization of 1,2-Dithiolane Modified Self-Assembling Peptides
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科学领域:

  • 生物化学和分子生物学
  • 材料科学 材料科学 材料科学
  • 结构化学 结构化学

背景情况:

  • 的结构稳定性对于它们的功能至关重要.
  • 结合非天然的氨基酸可以调节的结构和特性.
  • 层次方法为设计稳定的纳米结构提供了潜力.

研究的目的:

  • 通过使用等级方法来增强的结构稳定性.
  • 为了研究将跨-(1S,2S) -2-氨基cyclopentanecarboxylic 酸 (跨-ACPC) 纳入序列的影响.
  • 探索改性的自我组装和纳米结构的形成.

主要方法:

  • 循环二重化 (CD) 光谱用于构造分析.
  • 分析超离心 (AUC) 用于评估聚合和稳定性.
  • 振动光谱 (例如,FTIR,拉曼) 用于结构洞察.
  • 传输电子显微镜 (TEM) 用于可视化纳米结构.

主要成果:

  • 纳入跨ACPC显著增加了研究的结构稳定性.
  • 修改后的具有增强的自我组装特性.
  • 通过跨-ACPC促进的受约束的β-氨基酸残留物的存在促进了稳定的纳米结构的形成.
  • 光谱和显微分析证实了结构完整性,并下令组装.

结论:

  • 跨-ACPC的层次整合是稳定形状的有效策略.
  • 这种方法促进了明确定义的纳米结构的形成.
  • 受约束的β-氨基酸残留物在驱动的自我组装和稳定性方面发挥着关键作用.