Because they both result in the formantion of gametes; however there is no genetic variation in meiosis.
Mossie Auer
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β 11y agoBecause no crossing over or independant assortment occur.There are no homologus pairs.Centromere is splited and chromatids are pulled apart as mitosis.
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β 12y agoMeiosis 2
The part of meiosis that is similar to mitosis is inter-phase.
No, prometaphase is a stage in mitosis, not meiosis. In meiosis, there is a prophase I stage that is similar to prometaphase in mitosis.
Meiosis II is similar to mitosis in that both processes involve the separation of sister chromatids. In meiosis II, the sister chromatids that were formed during meiosis I are separated into individual chromosomes, similar to how sister chromatids are separated in mitosis. This results in the formation of haploid daughter cells in both meiosis II and mitosis.
Meiosis I better mirrors the mitosis process because during this stage the homologous chromosomes separate, similar to the way sister chromatids separate during mitosis. Meiosis II, on the other hand, involves separating sister chromatids, which is not seen in mitosis.
yes it does
The part of meiosis that is similar to mitosis is inter-phase.
No, prometaphase is a stage in mitosis, not meiosis. In meiosis, there is a prophase I stage that is similar to prometaphase in mitosis.
Meiosis II is identical to Mitosis. Meiosis is split into two stages, Meiosis I and Meiosis II. Meiosis I is similar to mitosis however the cells resulting from it have half as many chromosomes as the parent cell.
Mitosis is most closely related to the second division of meiosis, also known as meiosis II. Both processes involve the separation of sister chromatids into separate cells.
they both have a prophase and an anaphase.
They have many similar steps they both have a prophase and an anaphase
Meiosis involves two rounds of division (meiosis I and meiosis II), while mitosis involves only one round of division.
Meiosis II is similar to mitosis in that both processes involve the separation of sister chromatids. In meiosis II, the sister chromatids that were formed during meiosis I are separated into individual chromosomes, similar to how sister chromatids are separated in mitosis. This results in the formation of haploid daughter cells in both meiosis II and mitosis.
After mitosis, you end up with 2 identical daughter cells. After meiosis, you end up with 4 genetically diverse haploid daughter cells.
Because they both result in the formantion of gametes; however there is no genetic variation in meiosis.
Yes, mitosis is similar to the first four steps of meiosis in that they both involve cell division and the separation of replicated chromosomes. However, meiosis also includes unique steps such as homologous chromosome pairing and crossing over, which are essential for genetic diversity in sexually reproducing organisms.
Meiosis I better mirrors the mitosis process because during this stage the homologous chromosomes separate, similar to the way sister chromatids separate during mitosis. Meiosis II, on the other hand, involves separating sister chromatids, which is not seen in mitosis.