Both binary fission and mitosis are forms of cell division - they will both produce new cells.
Binary fission is used by prokaryotic cells (eg. bacteria) to divide.
Mitosis is used by eukaryotic cells (eg. plants and animals) to divide.
Cytokinesis is the division of a cells cytoplasm to form two new cells, and occurs during the end of mitosis.
The process of binary fission results in two identical cells arising from one. If the process of DNA replication is without error, these two new cells will be genetically identical to each other.
There are two ways for cells to divide and produce more cells. One is through the process of mitosis and the other is through budding. Budding produces a smaller cell off of the larger cell.
Yes. Bacterial reproduction most commonly occurs by a kind of cell division called binary fission. Binary fission results in the formation of two bacterial cells that are genetically identical. Binary fission is an effective way for bacteria to reproduce, however it does produce problems. Through bacterial recombination, bacteria can gain genetic variation by incorporating genes from other bacteria.
It's called cytokinesis. Cytokinesis occurs after the last stage of mitosis which is telophase (nucleus reforms, spindle fiber go away). Cytokinesis is different between plant and animal cells. In plant cells, the cells creates a cell wall through the cytoplasm and between the nuclei, splitting the "mother cell" into two "daughter cells. In animal cells, the cell begins to furrow in the middle and splits off into two. Without cytokinesis, complete cell division cannot occur. If cytokinesis does not occur and only mitosis occurs in the cell, the cell will become cancerous and hazardous to the organism that it is a part of.
noGrowth is involved by mitosis. Mitosis produce identical daughter cells
No, because cytokinesis is the actual division of the cytoplasm which is necessary for true cell division.
The cell will probably go through binary fission.
After cytokinesis, there are two cells.
Daughter cells are actually the product of mitosis. There are two cells made by one cell that has gone through mitosis. Daughter cells are found at the final stages of mitosis, they will then probably go through mitosis themselves and produce two more cells.
Cell will be a di nucleii cell
There are two ways for cells to divide and produce more cells. One is through the process of mitosis and the other is through budding. Budding produces a smaller cell off of the larger cell.
No. There are certain organisms that do not go through cytokinesis and the resulting phenomena is that the organisms cells will contain more than one nucleus (aka multinucleated)
When mitosis is almost complete, it is almost time for the cell to go through cytokinesis. This is where a cell divides into two identical daughter cells.
No, human cells divide by mitosis and meiosis.
Cells that do not undergo cytokinesis will have multiple nuclei, while cells that do undergo cytokinesis will have only one nucleus.
Telophase: Cytokinesis occurs during meiosis and mitosis and is the stage at which the cytoplasm and surface membrane of the two cells divides, and the cells are distinguishable as separate.As a stage of the cell cycle, cytokinesis occurs at the end of mitosis/meiosis, and as a phase of mitosis/meiosis, it is itself a phase.
Mitosis and cytokinesis are elements of cell division. Mitosis is the duplicated genome in the cell is divided into halves which are identical. Cytokinesis is the where the cytoplasm of the cell divides to form two daughter cells.
Yes. Bacterial reproduction most commonly occurs by a kind of cell division called binary fission. Binary fission results in the formation of two bacterial cells that are genetically identical. Binary fission is an effective way for bacteria to reproduce, however it does produce problems. Through bacterial recombination, bacteria can gain genetic variation by incorporating genes from other bacteria.