A protein filament is a long chain of protein subunits, like those found in hair, muscle. They are always bundled together for strength and rigidity.
Myosin is a protein that is not found in the thin filament. Myosin is a motor protein that is primarily found in the thick filament of muscle cells and is responsible for muscle contraction. The thin filament contains proteins such as actin, tropomyosin, and troponin.
The filament in a bacterial flagellum is made of a protein called flagellin. Flagellin forms the helical structure of the flagellum filament, providing the bacterium with motility.
The bacterial flagellum is primarily composed of a filament, hook, and basal body. The filament is made up of protein subunits called flagellin, which form the helical structure. The hook acts as a flexible joint between the filament and the basal body, which anchors the flagellum to the cell membrane and provides the rotary motor for movement.
Calmodulin is a protein that changes shape when it binds to calcium ions. This change in shape allows calmodulin to interact with and activate various target proteins involved in signaling pathways within cells.
The thick protein filaments in a cell are primarily made of a protein called myosin. Myosin filaments are involved in muscle contraction and various other cellular processes such as cell motility and cytokinesis.
A protein filament is a long chain of protein subunits, like those found in hair, muscle. They are always bundled together for strength and rigidity.
In essence, a protein filament is a long strand (aka filament) that's made of protein (hence, "protein filament"). So they are composed of smaller, protein subunits, which are single protein molecules.
Myosin is a protein that is not found in the thin filament. Myosin is a motor protein that is primarily found in the thick filament of muscle cells and is responsible for muscle contraction. The thin filament contains proteins such as actin, tropomyosin, and troponin.
The filament in a bacterial flagellum is made of a protein called flagellin. Flagellin forms the helical structure of the flagellum filament, providing the bacterium with motility.
mysin
Actin
The bacterial flagellum is primarily composed of a filament, hook, and basal body. The filament is made up of protein subunits called flagellin, which form the helical structure. The hook acts as a flexible joint between the filament and the basal body, which anchors the flagellum to the cell membrane and provides the rotary motor for movement.
Hair is a filament, mostly protein, that grow from hair folicles, found in the dermis.
Hair is a filament, mostly protein, that grow from hair folicles, found in the dermis.
Hair is a filament, mostly protein, that grow from hair folicles, found in the dermis.
The main components of thin filament include actin, tropomyosin, and troponin. Actin is the primary protein that forms the filament, while tropomyosin and troponin regulate the interaction between actin and myosin during muscle contractions.
They are the micro tubules. They arrange in 9+2 structure.