Cleavage furrow
Cleavage furrow is a term used in cell biology to describe the indentation that begins to form in the cell membrane of a cell during the late stages of cell division, specifically during cytokinesis, the process that physically separates the cytoplasm of a parental cell into two daughter cells. The formation of the cleavage furrow is an essential step in cell division in animal cells and some protist cells, but it does not occur in plant cells, which instead form a cell plate during cytokinesis.
Formation and Mechanism[edit | edit source]
The cleavage furrow is initiated by the contractile ring theory, which posits that a ring composed of actin filaments and myosin motor proteins contracts around the equator of the cell. This contraction pulls the plasma membrane inward, creating the furrow that eventually deepens and divides the cell into two. The process is regulated by signals from the mitotic spindle, ensuring that the division is symmetric and that each daughter cell receives an appropriate set of chromosomes.
Function[edit | edit source]
The primary function of the cleavage furrow is to ensure that the cell divides properly, ensuring that each daughter cell receives the correct amount of cellular components and genetic material. This is crucial for the maintenance of genetic stability and proper cell function. The cleavage furrow's formation and progression are tightly controlled processes, involving a complex interplay of cytoskeletal elements, motor proteins, and signaling pathways.
Differences in Other Organisms[edit | edit source]
While the cleavage furrow is a common mechanism for cell division in animal cells, other organisms have developed different methods. For example, plant cells, which have a rigid cell wall, cannot form a cleavage furrow. Instead, they form a cell plate in the middle of the dividing cell, which eventually develops into a new cell wall, separating the two daughter cells. Some protists and fungal cells also have unique mechanisms for cytokinesis, reflecting the diversity of life and the various evolutionary solutions to the problem of cell division.
Clinical Significance[edit | edit source]
Understanding the mechanisms of cleavage furrow formation and cytokinesis is important in the field of biomedicine, as errors in cell division can lead to diseases such as cancer. Research into the molecular details of the cleavage furrow could lead to new therapeutic targets for controlling cell division in cancerous cells.
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