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Destabilization of Microtubules01:45

Destabilization of Microtubules

The destabilization of microtubules can occur during different stages of the microtubule lifecycle, such as nucleation or elongation. It can take place at either end of the microtubule or in the microtubule lattices as a whole. The lifespan of individual microtubules within a cell varies according to the cell type and stage of the cell cycle. During interphase, the lifespan of the microtubule is about 30 minutes, while during cell division, it is about 15 minutes. In axonal microtubules of...
Microtubule Instability02:17

Microtubule Instability

Microtubules are hollow cylindrical filaments having a diameter of approximately 25 nm and a length that varies from 200 nm to 25 μm. GTP-bound tubulin subunits form αβ-heterodimers for microtubule assembly. These core building blocks interact longitudinally, polymerizing into protofilaments. The protofilaments then interact with one another through lateral bonding forces to form stable cylindrical microtubules. These cylindrical filaments are dynamic as they undergo repeated assembly and...
Microtubule Instability02:17

Microtubule Instability

Microtubules are hollow cylindrical filaments having a diameter of approximately 25 nm and a length that varies from 200 nm to 25 μm. GTP-bound tubulin subunits form αβ-heterodimers for microtubule assembly. These core building blocks interact longitudinally, polymerizing into protofilaments. The protofilaments then interact with one another through lateral bonding forces to form stable cylindrical microtubules. These cylindrical filaments are dynamic as they undergo repeated assembly and...
Microtubule Associated Proteins (MAPs)01:42

Microtubule Associated Proteins (MAPs)

Microtubule function and architecture are regulated by an array of specialized proteins called microtubule-associated proteins or MAPs. These proteins are widespread across different organisms and have conserved protein motifs, like the multi-TOG domain for tubulin binding found in the CLASP family of MAPs. Some MAPs are lineage-specific based on their conserved domains. Their functions depend upon the cytoskeletal architecture and cell type they are located within. In-plant cells, a specific...
Drugs that Stabilize Microtubules01:15

Drugs that Stabilize Microtubules

Microtubules are dynamic structures that undergo cycles of catastrophe and rescue. The microtubules play a central role in cell division by forming the spindle apparatus for segregating the chromosomes. This makes them ideal targets for regulating dividing cells in tumors and malignant cancer cells. Microtubule stabilizing drugs help stabilize the microtubule formation and promote its polymerization. Paclitaxel was the first microtubule stabilizing agent used as anticancer drug in chemotherapy...
Generation of Straight or Branched Actin Filaments01:14

Generation of Straight or Branched Actin Filaments

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...

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Related Experiment Video

Updated: Jul 3, 2026

Quantitative Microtubule Fractionation Technique to Separate Stable Microtubules, Labile Microtubules, and Free Tubulin in Mouse Tissues
07:21

Quantitative Microtubule Fractionation Technique to Separate Stable Microtubules, Labile Microtubules, and Free Tubulin in Mouse Tissues

Published on: November 17, 2023

Microtubule stabilization: formins assert their independence.

Aaron D DeWard1, Arthur S Alberts

  • 1Laboratory of Cell Structure and Signal Integration, Van Andel Research Institute, 333 Bostwick Ave., N.E., Grand Rapids, Michigan 49503, USA.

Current Biology : CB
|July 23, 2008
PubMed
Summary
This summary is machine-generated.

Mammalian Diaphanous-related formins (mDia) are known for actin regulation. A new study reveals mDia2 also stabilizes microtubules, independent of its actin-binding functions.

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Last Updated: Jul 3, 2026

Quantitative Microtubule Fractionation Technique to Separate Stable Microtubules, Labile Microtubules, and Free Tubulin in Mouse Tissues
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Simultaneous Visualization of the Dynamics of Crosslinked and Single Microtubules In Vitro by TIRF Microscopy

Published on: February 18, 2022

Area of Science:

  • Cell Biology
  • Cytoskeletal Dynamics

Background:

  • Mammalian Diaphanous-related (mDia) formins are key regulators of actin dynamics.
  • Recent research suggests mDia proteins also interact with microtubules.

Purpose of the Study:

  • To investigate the role of mDia2 in microtubule stabilization.
  • To determine if mDia2's microtubule-binding activity is linked to its actin nucleation function.

Main Methods:

  • Immunofluorescence microscopy to visualize actin and microtubules.
  • Biochemical assays to assess protein-protein interactions.
  • Cellular perturbation experiments to analyze mDia2 function.

Main Results:

  • mDia2 binds to microtubules and promotes their stabilization.
  • This microtubule-stabilizing activity of mDia2 is independent of its formin homology 2 (FH2) domain, which is essential for actin nucleation.
  • mDia2's role in microtubule stability is distinct from its established functions in actin dynamics.

Conclusions:

  • mDia2 possesses a dual role in regulating both actin and microtubule cytoskeletons.
  • mDia2's microtubule stabilization function offers a new avenue for understanding cytoskeletal coordination and cellular processes.