Which process yields two genetically identical daughter cells?

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Multiple Choice

Which process yields two genetically identical daughter cells?

Mitosis is the process that creates two genetically identical daughter cells. Before mitosis, the cell duplicates its DNA, so each chromosome has two sister chromatids. During mitosis, these chromatids separate into two new nuclei, and the cell splits its cytoplasm in cytokinesis, giving rise to two daughter cells that have the same genetic information as the original cell. This is why two daughter cells are genetically identical. Meiosis, on the other hand, reduces chromosome number and shuffles genes to create variation, while budding and fragmentation are forms of asexual reproduction that don’t produce two identical somatic daughter cells from a single cell division in the same way.

Which process yields two genetically identical daughter cells?

Study for the Florida Statewide Science Assessment (SSA) to enhance your academic skills. Prepare with interactive questions, in-depth explanations, and detailed study guides. Achieve success in your Florida science exam!

Which process yields two genetically identical daughter cells?

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