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相关概念视频

Actin Filament Depolymerization01:19

Actin Filament Depolymerization

3.1K
Actin filaments (F-actin) are composed of actin subunits. The dissociation of actin monomers can occur from either end of F-actin. The rate of dissociation is faster from the minus-end or the pointed end, where the actin subunits exist with a bound ADP, together known as ADP-actin. The depolymerization of F-actin is aided by proteins, including the actin-depolymerizing factor (ADF) and cofilin family of proteins, gelsolin, and glia maturation factor (GMF).
In F-actin, the ADF/cofilin proteins...
3.1K
Actin Polymerization and Cell Motility01:13

Actin Polymerization and Cell Motility

5.1K
Actin is a family of globular proteins that are highly abundant in eukaryotic cells. It makes up approximately 1-5% of total cell protein concentration. Actin monomers polymerize to form a complex network of polarized filaments, the actin cytoskeleton, that plays a crucial role in many cellular processes, including cell motility, division, endocytosis, and metastasis of cancer cells.
Actin cytoskeleton dynamics can produce pushing, pulling, and resistance forces that help the cell to migrate....
5.1K
Formation of Higher-order Actin Filaments01:11

Formation of Higher-order Actin Filaments

3.0K
The polymerization of G-actin monomers into filamentous F-actin is a multi-step process. Once the F-actins are formed, they can bundle together in different arrangements to form higher-order networks and regulate cellular functions. Common examples include the formation of lamellipodia and filopodia at the cell's leading edge by actin reorganization in a migrating cell. The microvilli on the brush border epithelial cells are also formed through the F-actin network.
The high-order actin...
3.0K
Introduction to Actin01:26

Introduction to Actin

4.9K
Actin is a highly conserved cytoskeletal protein found abundantly in eukaryotic cells. It constitutes 10% weight of the total cellular protein in muscle cells, while in non-muscle cells, it is lower and makes up around 1–5 percent of the total cell protein. Actin found in the unicellular amoebae and complex multicellular animals is around 80% similar, demonstrating their conservation over a billion years of evolution.  Actin coding genes are conserved within species and across...
4.9K
Condensins02:15

Condensins

3.4K
Condensins are large protein complexes that use ATP to fuel the assembly of chromosomes during mitosis. They transform the tangled, shapeless mass of post-interphase DNA into individualized chromosomes by compacting, organizing, and segregating chromosomal DNA.
The plant and animal cells contain two types of condensin complexes—condensin I and condensin II. Both complexes have five subunits: two SMC (Structural Maintenance of Chromosomes) subunits, a kleisin subunit, and two HEAT-repeat...
3.4K
Generation of Straight or Branched Actin Filaments01:14

Generation of Straight or Branched Actin Filaments

2.9K
The straight or branched structure formation of actin filaments is controlled by nucleating proteins such as the formins and Arp2/3 complex. Formin-mediated assembly results in straight filaments, whereas Arp2/3 protein complex-mediated assembly results in branched actin filaments.
Arp2/3 Complex
Arp2/3 complex is a seven-subunit complex consisting of two proteins similar to actin- Arp2 and Arp3, and five other subunits that help keep Arp2 and Arp3 inactive. When required, the complex is...
2.9K

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相关实验视频

Updated: Jun 12, 2025

Aip1p Dynamics Are Altered by the R256H Mutation in Actin
08:57

Aip1p Dynamics Are Altered by the R256H Mutation in Actin

Published on: July 30, 2014

8.0K

凝结物控制着行动蛋白细胞骨架.

Xiaohang Cheng1, Lindsay B Case1

  • 1Department of Biology, Massachusetts Institute of Technology, Cambridge, MA, USA.

Developmental cell
|June 10, 2025
PubMed
概括

含有actin结合蛋白的生物分子凝聚物可以自组装并捆绑actin丝. 即使没有固有的聚合酶或捆绑活动,这种情况也会发生,这揭示了细胞中actin网络形成的新机制.

科学领域:

  • 细胞生物学 细胞生物学
  • 生物化学 生物化学
  • 生物物理学的生物物理.

背景情况:

  • 动蛋白丝网对于细胞功能至关重要,需要精确的架构控制.
  • 控制行为丝的自我组装和组织的机制尚未完全理解.

研究的目的:

  • 为了研究生物分子凝聚物的作用在形成actin丝网的形成.
  • 为了确定缩物中的F-actin结合蛋白是否可以驱动actin组装和捆绑.

主要方法:

  • 采用体外复制试验来研究生物分子凝聚物内的活性丝形成.
  • 研究了在相隔滴中纯化的F-actin结合蛋白和actin单体的行为.

主要成果:

  • 证明了含有F-actin结合蛋白的生物分子凝聚物固有地组装和捆绑actin丝.
  • 显示这种actin组织独立于已知的actin聚合酶或捆绑蛋白的活动.
  • 突出了凝结体内有组织的actin结构的自发形成.

结论:

  • 生物分子凝聚物可以充当支架,通过物理相互作用促进活性丝组织.
  • 这一发现为了解细胞如何建立复杂的actin架构提供了一个新的范式.

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Reconstituting and Characterizing Actin-Microtubule Composites with Tunable Motor-Driven Dynamics and Mechanics
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Reconstituting and Characterizing Actin-Microtubule Composites with Tunable Motor-Driven Dynamics and Mechanics

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Using Microfluidics and Fluorescence Microscopy to Study the Assembly Dynamics of Single Actin Filaments and Bundles
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Using Microfluidics and Fluorescence Microscopy to Study the Assembly Dynamics of Single Actin Filaments and Bundles

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相关实验视频

Last Updated: Jun 12, 2025

Aip1p Dynamics Are Altered by the R256H Mutation in Actin
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Aip1p Dynamics Are Altered by the R256H Mutation in Actin

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Reconstituting and Characterizing Actin-Microtubule Composites with Tunable Motor-Driven Dynamics and Mechanics
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Reconstituting and Characterizing Actin-Microtubule Composites with Tunable Motor-Driven Dynamics and Mechanics

Published on: August 25, 2022

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Using Microfluidics and Fluorescence Microscopy to Study the Assembly Dynamics of Single Actin Filaments and Bundles
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Using Microfluidics and Fluorescence Microscopy to Study the Assembly Dynamics of Single Actin Filaments and Bundles

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  • 暗示了快速活性网络形成的机制,独立于酶活性.