breaks off and attach to adjacent chromatids on the homologous chromosome
Yes, sister chromatids separate during mitosis.
The process is called crossing over or genetic recombination. It results in genetic diversity by shuffling genetic information between homologous chromosomes, leading to unique combinations of genes in the offspring.
Sister chromatids are the chromatids that are attached at the centromere. Sister chromatids are two identical copies of a chromosome produced during DNA replication, and they remain attached until they are separated during cell division.
Yes, chromatids separate during telophase to form individual chromosomes. This process occurs after the sister chromatids have been pulled to opposite poles of the cell during anaphase by the spindle fibers. The cell then undergoes cytokinesis to complete the cell division process.
Chromatids in eukaryotic cells separate during the process of mitosis or meiosis. In mitosis, chromatids separate during anaphase to form individual chromosomes, while in meiosis, chromatids separate during anaphase II to produce haploid daughter cells.
The two identical portions that are attached by their centromere are known as sister chromatids. They are produced during DNA replication and are separated during cell division.
By crossingover.
A duplicated chromosome, with two identical portions attached by their centromere, is referred to as a sister chromatid. Sister chromatids are produced during DNA replication and are important for ensuring accurate distribution of genetic material during cell division.
Yes, sister chromatids separate during mitosis.
Sister Chromatids separate during anaphase.
The process is called crossing over or genetic recombination. It results in genetic diversity by shuffling genetic information between homologous chromosomes, leading to unique combinations of genes in the offspring.
Sister chromatids are the chromatids that are attached at the centromere. Sister chromatids are two identical copies of a chromosome produced during DNA replication, and they remain attached until they are separated during cell division.
Yes, chromatids separate during telophase to form individual chromosomes. This process occurs after the sister chromatids have been pulled to opposite poles of the cell during anaphase by the spindle fibers. The cell then undergoes cytokinesis to complete the cell division process.
Chromatids in eukaryotic cells separate during the process of mitosis or meiosis. In mitosis, chromatids separate during anaphase to form individual chromosomes, while in meiosis, chromatids separate during anaphase II to produce haploid daughter cells.
During the anaphase stage of mitosis, the centromeres of sister chromatids disjoin and the chromatids are pulled apart to opposite ends of the cell by the spindle fibers.
During the S-phase of the cell cycle, chromatids are duplicated. Precise duplication of the chromatids is important in order to prevent genetic abnormalities.
During anaphase in mitosis, the paired chromatids break apart and move to opposite ends of the cell.