Microtubules and microfilaments are cellular cytoskeletal networks. Microtubules are tubular proteins made by tubulin polymers. they have role in cell structure, cell movement, mitosis, gene regulation and so on.
Microtubules. Dynein proteins help move cargo along microtubules by sliding past one another in a process known as retrograde transport.
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No, centrioles do not make proteins. They are cylindrical structures composed of microtubules and play a role in organizing the microtubules during cell division. Proteins are typically synthesized in ribosomes, not in centrioles.
Small unit proteins polymerise when calcium ions are present.
Microtubules are conveyor belts inside the cells. They move vesicles, granules, organelles like mitochondria, and chromosomes via special attachment proteins. They also serve a cytoskeletal role. (from cytochemistry.net)
microtubules
Microtubules. Dynein proteins help move cargo along microtubules by sliding past one another in a process known as retrograde transport.
microtubules
balls
The microtubules produce enzymes that are taken to the golgi. The golgi then takes those enzymes and uses them to make amino acids which are necessary for making proteins . The proteins are then... SHOVED UP YOUR MOM!
Yes, it is true
No, centrioles do not make proteins. They are cylindrical structures composed of microtubules and play a role in organizing the microtubules during cell division. Proteins are typically synthesized in ribosomes, not in centrioles.
Small unit proteins polymerise when calcium ions are present.
Microtubules are conveyor belts inside the cells. They move vesicles, granules, organelles like mitochondria, and chromosomes via special attachment proteins. They also serve a cytoskeletal role. (from cytochemistry.net)
Dynein and kinesin are motor proteins that move along microtubules within cells to transport various cargoes. Dynein typically moves towards the minus end of microtubules, while kinesin moves towards the plus end. They play crucial roles in intracellular transport, cell division, and maintaining cell structure.
Assembly of microtubules is the process by which tubulin proteins polymerize to form a hollow tube structure. This process is highly regulated and essential for various cellular functions, including cell division, intracellular transport, and cell shape maintenance. Microtubules are a critical component of the cytoskeleton in eukaryotic cells.
The microtubules of the cytoskeleton form the mitotic spindle during cell division, along with associated proteins. These microtubules help separate the chromosomes during mitosis.