During anaphase in a human intestinal cell, there are 92 chromosomes. During anaphase, the 92 chromosomes are separating into two sets of 46, so that at the end of mitosis, there will be two genetically identical nuclei, each containing 46 chromosomes. As the new nuclei are forming, the cytoplasm splits in the process of cytokinesis, resulting in two genetically identical daughter cells, each having 46 chromosomes.
metaphase I of meiosis
A typical human cell contains 46 chromosomes at anaphase, which is the stage of cell division when the chromosomes separate and move to opposite ends of the cell. This is because each chromosome in the cell is composed of two identical sister chromatids, resulting in a total of 46 individual chromosomes.
It depends on whether you're talking about mitosis or meiosis. In mitosis, it is during anaphase. In meiosis, where the cell divides twice, centromeres aren't separated until anaphase II. In anaphase I, chromosomes are arranged as tetrads, and these tetrads are pulled apart to create two daughter cells, each with a full copy of the original cells' diploid chromosome.
The proportion of paternal chromosomes in a human skin cell is 50 percent.
50%
In a human cell at anaphase, there are two daughter chromosomes for each pair of sister chromatids. Each sister chromatid is considered a daughter chromosome once they separate and move to opposite ends of the cell.
the homologous chromosome are pulled apart by spindles to each pole of the cell.
A chromosome holds genetic information for the organism.
Anaphase is the phase in which chromosome strands separate and move towards opposite ends of the cell. This movement is facilitated by spindle fibers pulling the sister chromatids apart towards the centrosomes at opposite poles of the cell.
Anaphase is the stage of cell division where the chromosomes are pulled apart to opposite ends of the cell. During anaphase, each chromosome consists of two chromatids, so the number of cells remains the same as in earlier stages of cell division.
metaphase I of meiosis
A typical human cell contains 46 chromosomes at anaphase, which is the stage of cell division when the chromosomes separate and move to opposite ends of the cell. This is because each chromosome in the cell is composed of two identical sister chromatids, resulting in a total of 46 individual chromosomes.
It depends on whether you're talking about mitosis or meiosis. In mitosis, it is during anaphase. In meiosis, where the cell divides twice, centromeres aren't separated until anaphase II. In anaphase I, chromosomes are arranged as tetrads, and these tetrads are pulled apart to create two daughter cells, each with a full copy of the original cells' diploid chromosome.
2
Chromosome#19 is autosomal cell when refering to the human system. The #23 chromsomes is the sex cell in the human body system.
The proportion of paternal chromosomes in a human skin cell is 50 percent.
Meiosis refers to a type of cell division that results in 4 daughter cells. In meiosis II, there is only 1 chromatid per chromosome that exists following anaphase II.