multiple nuclei
Yes, a cell can undergo mitosis without completing cytokinesis, resulting in a multinucleated cell. This can occur in certain conditions, such as in muscle fibers or during certain stages of development. When mitosis occurs without cytokinesis, the cell divides its genetic material but does not physically separate into two distinct cells.
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.
The chromosomes would not have replicated, so the resulting daughter cells will not have the correct ploidy.
Mitosis specifically refers to nuclear division, where the chromosomes are separated into two identical sets in the nucleus. Cytoplasmic division, known as cytokinesis, occurs after mitosis and involves the division of the cytoplasm to create two separate daughter cells.
Cytokinesis is the final stage in the cell cycle where the cell divides into two daughter cells. It ensures the distribution of organelles, cytoplasm, and genetic material to each daughter cell. Without cytokinesis, the cell cycle would not be completed, and new cells would not form.
The cell ensures that mitosis and cytokinesis occurred without any mistakes.
the cell would not form
It would have two nuclei.
Mitosis is the division of the nucleus, and cytokinesis is the division of the cytoplasm. Cytokinesis begins during telophase, and, unlike mitosis, occurs different in plants and animals. In plants, cytokinesis occurs when a new cell wall or cell plate forms between the two, newly formed nuclei. In animals, a cytokinesis is characterized by the formation of a cleavage furrow produced by contractile rings made up of microfilaments. (Campbell, and Reece 227). Cytokinesis would be a pointless process if not for mitosis because mitosis creates two daughter cells. If there weren't two fully formed nuclei by telophase, the cell would split and one "cell" would be left without a nucleus, and therefore useless. Although, by definition , mitosis may occur without cytokinesis, the two daughters must be separated in order to function properly and most efficiently.
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.
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.
The chromosomes would not have replicated, so the resulting daughter cells will not have the correct ploidy.
Mitosis specifically refers to nuclear division, where the chromosomes are separated into two identical sets in the nucleus. Cytoplasmic division, known as cytokinesis, occurs after mitosis and involves the division of the cytoplasm to create two separate daughter cells.
Mitosis alone does not produce daughter cells because the cytoplasm has to divide. This is called cytokinesis and it happens at the end of telophase.
Mitosis will separate the sister-chromatids of each chromosome, and each will now be called a chromosome (or daughter-chromosome).Without cytokinesis, the mother-cell will not split into two daughter-cells. The result will be a cell with twice as many chromosomes as the mother-cell.Since an unfertilized egg (ovum) is a gamete, it must be haploid. Doubling the number of chromosomes will produce a diploid cell.
Cytokinesis is the final stage in the cell cycle where the cell divides into two daughter cells. It ensures the distribution of organelles, cytoplasm, and genetic material to each daughter cell. Without cytokinesis, the cell cycle would not be completed, and new cells would not form.
Yes, mitosis can occur in a cell without cytokinesis, resulting in a cell with multiple nuclei. In the G1 phase of the cell cycle, this cell would appear larger than normal due to the duplicated genetic material but would still have only one set of organelles and cytoplasm, leading to potential issues in cell function and division.