there are two main stages in a cells life interphase and mitosis in interphase the cell grows and copies it's chromosomes and then in mitosis is when it starts to divide
It takes place when the cell becomes to large to correct the surface area to volume ratio of the cell. More surface area means that it is easier to transport nutrients into the cell and wastes out of the cell.
the nucleus divides when all cell contained becomes double and cytoplasm divides which process is called cytokinesis and then nucleus divides which process is called karyokinesis.
when the cells divide
It is mitosis.
Interphase
Mitosis.
mitosis
The cell grows and the nuclear DNA is replicated.Growth occurs in early interphase (the G1 stage) and late interphase (the G2 stage). DNA replication takes place during mid-interphase (the S stage).Growth involves, among other processes, transcription of activated genes and translation of messenger RNA, resulting in protein synthesis.The Cell carries out metabolic processes primarily concerned with Growth, and DNA is replicated during S-Phase, which is found between the G1 and G2 Phases.Interphase begins with and ends with a Nuclear Division. Nuclear Division will not occur during Interphase.
No, anaphase is the stage of cell division when the chromosomes are pulled and pushed apart and head to opposite polls of the cell. Infact Anaphase is the stage of nuclear division rather than cell division and cell division is achieved by cytokinesis which may be by cell plate formation (as in case of many plants) or by furrowing (as in case of animal cells).
In prophase stage, the replicated chromosomes condense and the nuclear envelope disappears. Earlier in prophase, chromatin visible condenses into the chromosomes.
The product is a multi-nucleated cell. In the early Drosophila embryo, for example, the first 13 rounds of nuclear division occur without cytoplasmic division, resulting in the formation of a single large cell containing 6000 nuclei. Nuclear division without cytokinesis also occurs in some types of mammalian cells. Osteoclasts, trophoblasts, and some hepatocytes and heart muscle cells are multi-nucleated.. You're welcome -Scott
Yes mitosis is a nuclear division - Mitosis is the process of nuclear division of either diploid or haploid eukaryotic cells whereby two daughter nuclei are produced that are genetically identical to the parent nucleus.Cell division then follows nuclear division.
Yes.
M phase
4 I think
you probably asked this a long time ago but the answer is nuclear division, because interphase is befor cell division. :)
Anaphase is one of the stages of nuclear division, known as mitosis. More specifically, anaphase is the third phase and it's where the chromosomes begin to pull apart.
the answer should be gamete and if not its either mitosis or meiosis
The cell grows and the nuclear DNA is replicated.Growth occurs in early interphase (the G1 stage) and late interphase (the G2 stage). DNA replication takes place during mid-interphase (the S stage).Growth involves, among other processes, transcription of activated genes and translation of messenger RNA, resulting in protein synthesis.The Cell carries out metabolic processes primarily concerned with Growth, and DNA is replicated during S-Phase, which is found between the G1 and G2 Phases.Interphase begins with and ends with a Nuclear Division. Nuclear Division will not occur during Interphase.
A stage of development beginning with pH is the prophase stage of mitosis, where the nuclear envelope breaks down and chromosomes condense. This stage is essential for preparing the cell for division.
Mitosis is a stage of nuclear division in the cell cycle represented by the letter"M"
Two successive nuclear divisions occur, Meiosis I (Reduction) and Meiosis II (Division)
the sperm
No, anaphase is the stage of cell division when the chromosomes are pulled and pushed apart and head to opposite polls of the cell. Infact Anaphase is the stage of nuclear division rather than cell division and cell division is achieved by cytokinesis which may be by cell plate formation (as in case of many plants) or by furrowing (as in case of animal cells).