Cytokinesis (Cylokinesis)

Cytokinesis (Cylokinesis) is the process of division of a cell's cytoplasm between two daughter cells, which occurs after telophase, when the nucleus separates. This process results in the formation of two daughter cells.

Cell division is the process by which one cell divides into two or more daughter cells. Cell division consists of two main stages: mitosis and cytokinesis. Mitosis is the process during which the cell nucleus divides into two daughter nuclei. Cytokinesis is the process of separation of cytoplasm between two daughter cells.

Cytokinesis begins with the formation of a ring of actin microfilaments around the central part of the cell. This ring contracts until the cytoplasm divides into two parts. This process results in the formation of a new cell membrane that surrounds each of the daughter cells.

Cytokinesis is an important process for the growth and development of the body. This process is necessary for the formation of new cells during embryonic development, as well as for the replacement of damaged or obsolete cells in the body.

It is important to note that cytokinesis must be distinguished from karyokinesis. Karyokinesis is the process of cell nuclear division that occurs during mitosis and meiosis. This process does not involve division of the cytoplasm and does not result in the formation of two daughter cells.

In conclusion, cytokinesis is an important process of cell division that results in the formation of two daughter cells. It is a key process for the body's growth and development and for replacing damaged or obsolete cells. The separation of the cytoplasm occurs after the separation of the nucleus in telophase and occurs due to the contraction of the ring of actin microfilaments.



Cytokinesis (from ancient Greek κύτος “cell” + κίνησις “movement”) is the process of dividing the cytoplasm of the mother cell into two parts, resulting in the formation of two daughter cells. Cytokinesis is a key step in mitosis and meiosis.

Cytokinesis occurs after telophase, when the cell nucleus splits into two separate nuclei. As a result of cytokinesis, the cytoplasm of the mother cell is divided between two daughter cells. This process occurs through special mechanisms such as cytoskeleton movement and microtubule formation.

The division of the cytoplasm can occur either through uniform distribution between daughter cells, or through the formation of special structures that divide the cytoplasm into smaller parts. For example, when eukaryotic cells such as animals and plants divide, cytokinesis typically occurs through the formation of a spindle composed of microtubules that divide the cytoplasm evenly between the two daughter cells.

Unlike karyokinesis, which involves nuclear division, cytokinesis does not affect the number of chromosomes in daughter cells. However, it is important for the proper functioning of cells and the body as a whole, as it ensures the correct distribution of genetic information between daughter cells and prevents the loss of important proteins and other substances necessary for the life of the cell.

Thus, cytokinesis is an important process that occurs in eukaryotic cells and ensures proper cell division and the functioning of the organism as a whole.



Cytokinesis (from ancient Greek κυτός “cell” + ancient Greek —,νεσια — “division”) is the process of forming identical daughter cells from the mother cell by constriction of the latter. In multicellular organisms, it occurs when it is necessary to create identical cells through mitosis. The intercellular material for the new layer divides during the process of interkinesis and forms two new cell walls and intercellular substance. Cytokinesis occurs when internal structures pass through cell walls during asexual reproduction of seaweeds. Common in higher plants, fish, and some insects. In mollusks, zygote division is slow and uneven.

Cytokinesis is an important process in biology because it ensures the duplication of genetic information between cells. When a cell begins to divide, it first splits into two daughter specimens with the same number of chromosomes. This is achieved through karyokinesis, which is the splitting of the cell nucleus into two parts, each containing half of the cell's genetic material. However