Cleavage furrow, which is what is shown during cytokinesis, "makes the cell smaller" because it is dividing it in two. During interphase, the cell had to enlarge its size by almost double, and cytokineses divides it into normal sized cells.
The indentation at the equator of a cell is called the cleavage furrow. It forms during cytokinesis to separate the two daughter cells after the nucleus has divided. The cleavage furrow is generated by the contractile ring, which is composed of actin and myosin filaments that constrict the cell membrane.
Organisms such as animal cells, including those of humans and other animals, divide by cleavage furrow. This process involves the inward pinching of the cell membrane to separate the two daughter cells during cytokinesis.
The furrow during cleavage is caused by the contraction of a ring of actin and myosin filaments, which are part of the cytoskeleton in the cell. This contraction creates a cleavage furrow that pinches the cell membrane inward, ultimately leading to the division of the cell into two daughter cells. The process is regulated by cellular signaling pathways and is crucial for proper cell division during embryonic development.
A cleavage furrow forms during late telophase and then cytokinesis occurs in which the two identical cells are separated.
The cleavage furrow is observed during the anaphase and telophase of mitosis. It is the indentation that forms in the cell membrane as the cytoplasm begins to divide, leading to the separation of the two daughter cells. This structure is a result of the contractile ring of actin and myosin filaments that constrict the cell membrane. The cleavage furrow ultimately facilitates cytokinesis, the final step of cell division.
Cleavage Furrow is a groove in the plasma membrane between daughter nuclei "The cleavage furrow is an actin rich "purse sting" that draws tight to separate daughter cells to complete cytokinesis in cell division."
The cell membrane creates a cleavage furrow in animal cells, pinching the original (mother) cell in to two pieces. New cell walls are constructed at the midline of the original cell in plant cells.
The cleavage furrow forms during cytokinesis and marks the site of cell division in animal cells. It is responsible for physically separating the two daughter cells by constricting like a belt around the cell, eventually leading to their complete separation.
A cleavage furrow forms during the Telophase phase. During the Metaphase phase chromosomes line up in the center of cell at the metal plate.
The indentation at the equator of a cell is called the cleavage furrow. It forms during cytokinesis to separate the two daughter cells after the nucleus has divided. The cleavage furrow is generated by the contractile ring, which is composed of actin and myosin filaments that constrict the cell membrane.
A cleavage furrow appears during cytokinesis, which is the final stage of cell division. It marks the site where the cell will eventually split into two daughter cells. The cleavage furrow is formed by a contractile ring of actin and myosin filaments that gradually constrict and divide the cell.
Organisms such as animal cells, including those of humans and other animals, divide by cleavage furrow. This process involves the inward pinching of the cell membrane to separate the two daughter cells during cytokinesis.
The furrow during cleavage is caused by the contraction of a ring of actin and myosin filaments, which are part of the cytoskeleton in the cell. This contraction creates a cleavage furrow that pinches the cell membrane inward, ultimately leading to the division of the cell into two daughter cells. The process is regulated by cellular signaling pathways and is crucial for proper cell division during embryonic development.
What kind of cleavage are you referring to? Cleavage could refer to a cleavage furrow during cytokinesis or to the splitting of cells in an embryo or to any other sort of separation. Please specify.
Cleavage furrow formation. It is the process by which the cytoplasm of a cell is divided into two daughter cells following cell division. This process involves the constriction of the cell membrane to form a furrow that eventually pinches the cell into two separate, identical daughter cells.
A cleavage furrow forms during late telophase and then cytokinesis occurs in which the two identical cells are separated.
The word you're thinking of is likely "mitosis." In this process, a cleavage furrow forms during cytokinesis to divide the cell into two daughter cells.