They are found in the center of the cell, inside the nucleus
It depends on the type of cell. In ordinary somatic (body) cells it is the same as the parent cell. In sex cells it is half the number. Many animals and plants have numbers of chromosomes that are different from human cells numbers.
During mitosis, the chromatin condenses to form chromosomes. Each chromosome consists of two identical strands, or chromatids.
In a cell with 6 chromosomes, each consisting of 2 chromatids, there are a total of 12 chromatids present.
After your 46 chromosomes are duplicated, your cell will have a total of 92 chromatids.
Each daughter cell will contain the same number of chromatids as the original cell at the start of mitosis. This means that each daughter cell will have half the number of chromatids compared to the original parent cell at the beginning of cytokinesis.
It depends on the type of cell. In ordinary somatic (body) cells it is the same as the parent cell. In sex cells it is half the number. Many animals and plants have numbers of chromosomes that are different from human cells numbers.
During mitosis, the chromatin condenses to form chromosomes. Each chromosome consists of two identical strands, or chromatids.
58 chromatids
In a cell with 6 chromosomes, each consisting of 2 chromatids, there are a total of 12 chromatids present.
Chromatids line up during the metaphase of the cell cycle.
After your 46 chromosomes are duplicated, your cell will have a total of 92 chromatids.
Each daughter cell will contain the same number of chromatids as the original cell at the start of mitosis. This means that each daughter cell will have half the number of chromatids compared to the original parent cell at the beginning of cytokinesis.
Anaphase and telephase-Anaphase begins when the paired centromeres of each chromosome separate, liberating the sister chromatids, which begin moving toward opposite poles of the cell. At telophase, the chromosomes have reached the poles and daughter nuclei form.
During the S-phase of the cell cycle, chromatids are duplicated. Precise duplication of the chromatids is important in order to prevent genetic abnormalities.
The cell structure that joins two sister chromatids into one single chromosome is called the centromere. This is at the center of the sister chromatids.
In mitosis, chromatids line up in the middle of the cell during metaphase. This alignment ensures that, during anaphase, the chromatids can be separated and pulled to opposite poles of the cell, ensuring each daughter cell receives an identical set of chromosomes.
The number of sister chromatids in a human body cell entering cell division is twice the haploid number, as each chromosome is replicated and consists of two sister chromatids held together by a centromere. This means that there are 46 pairs of sister chromatids in a normal human body cell entering cell division.