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At metaphase of mitosis, chromosomes are duplicated, so each chromatid will become a full chromosome. Therefore, with 92 chromatids, you will end up with 92 chromosomes after the completion of mitosis.
A cell containing 92 chromatids at metaphase of mitosis would at its completion produce two nuclei each containing how many chromosomes
Chromosomes are composed of two chromatids during the prophase and metaphase of mitosis. The chromosomes of formed in prophase and line up in metaphase.
Metaphase 1 The chromosomes line up on the equatorial (metaphase) plate. Metaphase 2 Kinetochores of the paired chromatids.
The chromatids line up at the equator of the cell during the metaphase of meiosis. After which the chromatids separate to form individual chromosomes.
Metaphase I or Metaphase II? In metaphase I it would have 24. In metaphase II it would have 6.
Each dividing diploid cell will have 6 chromatids at metaphase - 3 chromatids from the maternal set of chromosomes and 3 chromatids from the paternal set of chromosomes.
Metaphase II In Metaphase I, the tetrads of homologous chromosomes line up along the equator, but they are not individual chromosomes.
The stage of mitosis when the chromatids are visible is the metaphase stage. During metaphase, the duplicated chromosomes line up along the center of the cell, with their chromatids attached to the spindle fibers.
Sister chromatids are visible during metaphase of mitosis, where they align along the metaphase plate in the center of the cell. This is when the chromosomes are most condensed and easily visible under a microscope.
The inability of centrioles to separate chromatids would interfere with the metaphase stage of mitosis. This is because the centrioles play a key role in organizing the microtubules that attach to the chromatids to align them at the metaphase plate. If the centrioles cannot separate the chromatids properly, the alignment of chromosomes during metaphase would be disrupted.
In metaphase I of meiosis, homologous chromosomes align in pairs at the center of the cell, while in metaphase II, individual chromosomes align singularly at the center. Additionally, in metaphase I, homologous chromosomes segregate to opposite poles, while in metaphase II, sister chromatids segregate to opposite poles.