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2. Actin remodeling - Wikipedia

   en.wikipedia.org/wiki/Actin_remodeling

   Cell surface (cortical) actin remodeling is a cyclic (9-step) process where each step is directly responsive to a cell signaling mechanism. Over the course of the cycle, actin begins as a monomer, elongates into a polymer with the help of attached actin-binding-proteins, and disassembles back into a monomer so the remodeling cycle may commence again.

3. Actin - Wikipedia

   en.wikipedia.org/wiki/Actin

   The nucleation of new actin filaments – the rate-limiting step in actin polymerization – is aided by actin-nucleating proteins such as formins (like formin-2) and the Arp2/3 complex. [118] Formins help to nucleate long actin filaments. They bind two free actin-ATP molecules, bringing them together.

4. Cytochalasin B - Wikipedia

   en.wikipedia.org/wiki/Cytochalasin_B

   The first step in actin polymerization, after polymerization is initiated, is the deprotonation of the thiol group of G-actin. This renders the sulfur atom charged and makes it available for actin polymerization. If cytochalasin B is present in the cell, the deprotonation of thiol is competed.

5. Arp2/3 complex - Wikipedia

   en.wikipedia.org/wiki/Arp2/3_complex

   Many actin-related molecules create a free barbed end for polymerization by uncapping or severing pre-existing filaments and using these as actin nucleation cores. However, the Arp2/3 complex stimulates actin polymerization by creating a new nucleation core. Actin nucleation is an initial step in the formation of an actin filament.

6. Microfilament - Wikipedia

   en.wikipedia.org/wiki/Microfilament

   The following steps describe one force-generating cycle of an actoclampin molecular motor: The polymerization cofactor profilin and the ATP·actin combine to form a profilin-ATP-actin complex that then binds to the end-tracking unit; The cofactor and monomer are transferred to the barbed-end of an actin already clamped filament

7. Treadmilling - Wikipedia

   en.wikipedia.org/wiki/Treadmilling

   Actin polymerization can further be regulated by profilin and cofilin. [6] Cofilin functions by binding to ADP-actin on the negative end of the filament, destabilizing it, and inducing depolymerization. Profilin induces ATP binding to G-actin so that it can be incorporated onto the positive end of the filament.

8. Actin remodeling of neurons - Wikipedia

   en.wikipedia.org/wiki/Actin_remodeling_of_neurons

   Actin plays a role in the formation of new spines as well as stabilizing spine volume increase. [1] The changes that actin brings about lead to the formation of new synapses as well as increased cell communication. Actin remodeling consists of the dynamic changes in actin polymerization that underlie the morphological changes at the neural synapse.

9. Cytoskeletal drugs - Wikipedia

   en.wikipedia.org/wiki/Cytoskeletal_drugs

   Cytoskeletal drugs are small molecules that interact with actin or tubulin.These drugs can act on the cytoskeletal components within a cell in three main ways. Some cytoskeletal drugs stabilize a component of the cytoskeleton, such as taxol, which stabilizes microtubules, or Phalloidin, which stabilizes actin filaments.