Cell Division (DP IB Biology)
Revision Note
Formation of New Cells
According to the cell theory, new cells are produced from pre-existing ones
The cells that make up a multicellular organism are the result of a single cell undergoing many cycles of cell division
This single cell will initially form embryonic stem cells which will specialise to form the organs and tissues of the organism
A cell that divides is known as a parent (or 'mother') cell
Each parent cell will produce two daughter cells after cell division has occurred
Two types of cell division exist
One results in daughter cells that are genetically identical to each other and to the parent cell
The other produces cells that are genetically different from each other and from the parent cell
This type of cell division is an important source of genetic variation within populations
Cytokinesis
During cell division, the nucleus of the cell will divide first
This is known as nuclear division
Once the nucleus has divided into two nuclei, the cytoplasm divides in two with one nucleus moving into each cell to create two daughter cells
The division of the cytoplasm is called cytokinesis
Cytokinesis in animal and plant cells
The process differs slightly in animal and plant cells
In animal cells:
A ‘cleavage furrow’ forms and separates the daughter cells
The cleavage furrow forms when actin and myosin proteins form a contractile ring just under the plasma membrane
This ring is formed at the equator (centre) of the cell
As the proteins contract, they pull the plasma membrane towards the centre eventually separating the cell into two daughter cells
In plants cells:
A ‘cell plate’ (the precursor to a new cell wall) forms at the equator. Once the cell plate reaches the cell walls of the parent cell, new cell walls are produced, separating the new daughter cells
The cell plate is formed from vesicles carrying carbohydrates, lipids and proteins fusing together to create the two plasma membranes
After this other vesicles, carrying pectin and cellulose, deposit these substances by exocytosis in the gap between the two new membranes leading to the formation of new cell walls
Cytokinesis in an animal cell and a plant cell
Examiner Tips and Tricks
Remember that cytokinesis will only occur after nuclear division has happened.
Equal & Unequal Cytokinesis
During cytokinesis, the division of the cytoplasm is usually equal
This produces daughter cells that are of a similar size
It is also important to ensure that each daughter cell receives at least one mitochondrion for cellular respiration
Plant cells would also need to receive at least one chloroplast in order to photosynthesise
These organelles can only be made by dividing a pre-existing structure
There are however cases where the division of the cytoplasm is not equal, such as:
Oogenesis in humans
Budding in yeast
Oogenesis as an example of the unequal division of cytoplasm
The production of ova begins in the ovaries of the female foetus before birth
Germinal epithelial cells will divide to form an immature ovum called a primary oocyte
During puberty, the primary oocyte will divide to form a secondary oocyte and a smaller structure called a polar body
These structures are the result of the unequal division of cytoplasm
The secondary oocyte will divide again to form an ovum and another polar body
The polar bodies will degenerate and form part of the final ovum
Oogenesis is an example of unequal cytokinesis
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