Axial filaments in spirochetes bacteria that are anchored at the end of a cell causing rotation and movement of the cell.
The organism spirogyra longata moves toward light by repeated rolling and stretching of filaments.
Most bacteria are motile, meaning they move by self-propulsion. They use their flagella and axial filaments as their modes of locomotion.
Non-motile bacteria are ones that cannot move on their own accord. Many kinds of bacteria can move using flagella, axial filaments or can glide by producing slime. But non-motile ones can't move themselves.
Interactions between actin and myosin filaments of the sarcomere are responsible for muscle contractions. The I bands contain only thin (actin) filaments, whereas the A bands contain thick (myosin) filaments.
* the flagella is a project as strand while the axial filaments are spirochetes. * flagella : move cell by propeller like action , axial filaments : snake-like movement. flagella : present in gram (+)and gram (-) , while the filaments only in gram (-) . both of them have the same function
A spirochete can move by rotating its axial filaments.
Axial filaments in spirochetes bacteria that are anchored at the end of a cell causing rotation and movement of the cell.
A cylindrical basal body of flagellates that is composed of parallel peripheral rods connected to the axial filaments of flagella or cilia.
A cylindrical basal body of flagellates that is composed of parallel peripheral rods connected to the axial filaments of flagella or cilia.
The organism spirogyra longata moves toward light by repeated rolling and stretching of filaments.
Most bacteria are motile, meaning they move by self-propulsion. They use their flagella and axial filaments as their modes of locomotion.
Actin Filaments (Microfilaments) Microtubules Intermediate Filaments Those are the three major cytoskeleton filaments in eukaryotics cells.
It is axial.
The cytoskeletal filaments are microtubules.
Actin filaments
thick filaments and thin filaments