tubulin
Bacteria do not have microtubules in an eukaryotic sense since they do not have tubulin. However, they do have tubulin homologue FtsZ protein that form structures and perform functions similar to microtubules in eukaryotes. Sometimes these structures are referred to as 'bacteria microtubules'.
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.
Mainly in microtubules (a type of cytoskeleton) and centrosomes.
tubulin is present in microtubules and tubulin in these microtubules has other protein molecules interect with the adjacent fiber and push the two halves of the spindle away from each other
Microtubules are polymers of tubulin. Microfilaments are polymers of actin.
Microtubules (actin and tubulin) are cytoskeleton of eukaryote (and not prokaryote). Prokaryote do have cytoskeleton system such as FtsZ.
1. A network of microtubules mainly in ectoplasm2. cytoplasmic network of microfilaments (actin filaments)3. Intermidiate fillamentsthe main protein of cytoskeleton are tubulin, actin, and myosin.
1. A network of microtubules mainly in ectoplasm2. cytoplasmic network of microfilaments (actin filaments)3. Intermidiate fillamentsthe main protein of cytoskeleton are tubulin, actin, and myosin.
Microtubules are biopolymers that are made of a substance called Tubulin. Tubulin is a globular cytoplasmic protien.
disassemble
Cytoskeletal filaments are made up of actin, intermediate filaments that contain 70 different proteins coupled with microtubules with tubulin as the basic subunit.
tubulin
Tubulin. (pronounced: tube-you-lin)
disassemble
Farts on your brain
Bacteria do not have microtubules in an eukaryotic sense since they do not have tubulin. However, they do have tubulin homologue FtsZ protein that form structures and perform functions similar to microtubules in eukaryotes. Sometimes these structures are referred to as 'bacteria microtubules'.