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相关概念视频

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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Assembly of Signaling Complexes01:30

Assembly of Signaling Complexes

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Multiprotein signaling complexes are formed in a dynamic process involving protein-protein interactions at the cytoplasmic domain of transmembrane receptors or enzymatic and non-enzymatic proteins associated with the receptor. These complexes ensure the activation and propagation of intracellular signals that regulate cell functions.
Interaction domains in cell signaling
Interaction domains recognize exposed features of their binding partners containing post-translationally modified sequences,...
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Coat Assembly and GTPases01:33

Coat Assembly and GTPases

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Vesicles incorporate different coat protein subunits in different cell locations, which changes the properties of the coat, such as the shape and geometry of the transport vesicles. Thus, vesicle coat proteins also play a significant role in cargo selection.
Coat assembly depends on the local availability of phosphatidylinositol phosphates or PIPs and GTP-binding proteins. Adaptor proteins, which link the coat proteins to the membrane, bind to these PIPs and play a crucial role in controlling...
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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
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Assembly of Cytoskeletal Filaments01:18

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Cytoskeletal filaments are polymeric forms of smaller protein subunits. However, individual cytoskeletal filaments may easily disassemble or associate with other similar filaments to form rigid structures. Microfilaments, made of actin monomers, rely on actin-binding proteins to form bundles and create networks of individual actin filaments. Microtubules rely on microtubule-associated proteins (MAPs) to form sturdy cylindrical structures. However, the proteins involved in forming complex...
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Translocation of Proteins into the Mitochondria01:19

Translocation of Proteins into the Mitochondria

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Mitochondrial precursors are translocated to the internal subcompartments via independent mechanisms involving distinct protein machineries called translocases.
Sorting of outer membrane proteins:
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相关实验视频

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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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由酶指导的细胞内组件

Zhiyu Liu1, Jiaqi Guo1, Yuchen Qiao1

  • 1Department of Chemistry, Brandeis University, 415 South Street, Waltham, Massachusetts 02453, United States.

Accounts of chemical research
|October 26, 2023
PubMed
概括
此摘要是机器生成的。

酶指导自我组装 (EISA) 创建用于新生物医学的细胞内组件,包括癌症纳米药物和细胞形态发生控制. 这种方法可以精确地准具有高选择性的细胞组件.

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Directed Assembly of Elastin-like Proteins into defined Supramolecular Structures and Cargo Encapsulation In Vitro
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科学领域:

  • 生物医学工程 生物医学工程
  • 超分子化学 超分子化学
  • 纳米医学是一种纳米医学.

背景情况:

  • 超分子组合对细胞功能至关重要,并激发了合成仿生疗法.
  • 组件,特别是通过酶反应形成的组件,正在迅速发展成为一种新的治疗类.

研究的目的:

  • 审查酶指导自组合 (EISA) 的应用,以产生细胞内组合.
  • 突出EISA在开发新型癌症纳米药物和控制细胞形态发生的潜力.

主要方法:

  • 由酶指导的自我组装 (EISA) 来创建细胞内组件.
  • 使用EISA形成的组件准亚细胞器官 (线粒体,ER,戈尔吉,溶解体,核).
  • 探索转细胞形成以控制细胞形态发生.

主要成果:

  • 通过EISA可以在细胞内形成局部的非扩散性组.
  • 针对潜在的癌症疗法的各种亚细胞器官进行选择性向.
  • 展示了EISA在通过转细胞形成调节细胞形态发生的作用.

结论:

  • EISA是一种多功能且与细胞兼容的方法,用于创建目标细胞内组件.
  • 由EISA生成的组件对疾病理解,细胞行为控制和新疗法开发具有重大前景.
  • 这种方法利用酶基质作为生物医学中先进自组装的构建块.