They have a cell wall that can not be split by the cleavage furrow. Instead, they form a cell plate which eventually splits the cell into two daughter cells.
Cells that contain a cell wall, such as plant cells, form a cell plate to separate cells before the cell wall forms.a prokaryotic
Yes
it would turn into a group of organelles and nuclei
If cytokinesis took place before mitosis then the cell would not be able to divide evenly. This would cause one cell to have part of the organelles and the other cell to have to rest of the organelles.
The chromosomes would not have replicated, so the resulting daughter cells will not have the correct ploidy.
In plant cell, cell plate is formed during cytokinesis.
The thick, rigid cell wall in plant cells do not allow the formation of a furrow. Therefore, the cell plate which is the future cell wall is formed.
Cells that contain a cell wall, such as plant cells, form a cell plate to separate cells before the cell wall forms.a prokaryotic
Yes
it would turn into a group of organelles and nuclei
The chromosomes would not have replicated, so the resulting daughter cells will not have the correct ploidy.
If cytokinesis took place before mitosis then the cell would not be able to divide evenly. This would cause one cell to have part of the organelles and the other cell to have to rest of the organelles.
Cytokenesis in plant cells divide with a cell plate, that will later form the cell wall structure of the plant cell. In animal cells, a cleavage furrow forms and splits the cell membranes.
Chloroplasts are only found in plant cells. If they were in animal cells, people would be green.
Cytokinesis would be the final stage.
the plant cells would not exist they would have died because without a neuclius the cells cannot live.
That question is very mind blowing, well I think if the plant cells will be in us human beings instead of the cells we have right now, we will be no longer need to depend our energy source from the plants because we can already undergo the process of photosynthesis by the presence of chloroplast.