Cell movement
By @SmartBiology3D
The components of cell movement include: Cytoskeleton; Motor proteins; Adhesion molecules with Membrane receptors (Extracellular matrix); Signaling pathways and Energy sources
Cytoskeleton - a network of protein fibers that provides structural support and facilitates movement, consisting of microfilaments for shape and movement, intermediate filaments for strength and anchoring, and microtubules for structure, cell division, transport, and cilia/flagella movement.
via Mind the GRAPH
Motor proteins use energy to move along the cytoskeleton and include myosin for actin filaments, kinesin for microtubules (organelle/vesicle transport), and dynein for the opposite direction of kinesin (organelle transport, cilia/flagella movement). They are crucial for cellular movement and many processes. via Ron Vale Lab @UCSF
Adhesion molecules are proteins on the cell surface that allow cells to stick to one another and to other surfaces. Examples of adhesion molecules include integrins, cadherins, selectins, and immunoglobulin superfamily proteins. Adhesion molecules play important roles in cell signaling, tissue development, wound healing, and immune function.
Cell Adhesion Molecules | Structure and Types via Hussain Biology
Membrane receptors are proteins on the cell membrane that receive signals from outside and transmit them inside. Examples include GPCRs, RTKs, ion channels, nuclear hormone receptors, and cytokine receptors. They play crucial roles in cell signaling, growth, differentiation, and immune function.
Signaling pathways are complex networks that regulate cell migration and motility. That includes the Rho GTPase and integrin signaling pathways, which regulate the assembly and disassembly of the actin cytoskeleton and adhesion to the extracellular matrix, respectively. Other pathways, such as Wnt, TGFbeta, Hedgehog, and Notch, play roles in cell differentiation and migration during embryonic development and tissue homeostasis. These pathways are critical for many physiological processes, including tissue development, wound healing, and immune responses.
Cell movement requires energy primarily derived from ATP, the cell's primary energy currency. Glucose, fatty acids, oxygen, and calcium ions can also contribute to powering cell movement. ATP is used to power molecular motors involved in cytoskeletal organization and movement. These motors, such as myosin, kinesin, and dynein, use ATP hydrolysis to move along the cytoskeleton and perform various functions, including muscle contraction, organelle transport, and cilia/flagella movement.
Myosin ATPase cycle on actin
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