Draw a graph depicting the relative amounts of nuclear DNA present in the different stages of the cell cycle (G₁,S,G₂,M). On the same graph, plot the amount of mitochondrial DNA present at each stage of the cell cycle.

The cell cycle consists of several stages: G₁ (Gap 1), S (Synthesis), G₂ (Gap 2), and M (Mitosis). During G₁, the cell grows and prepares for DNA replication. In the S phase, DNA is replicated, doubling the amount of nuclear DNA. G₂ involves further growth and preparation for mitosis, while M is the stage where the cell divides. Understanding these stages is crucial for analyzing DNA content changes.

Nuclear DNA is the genetic material found in the nucleus of eukaryotic cells, containing the majority of an organism's genetic information. Mitochondrial DNA, on the other hand, is located in the mitochondria and is inherited maternally. While nuclear DNA quantity changes significantly during the cell cycle, mitochondrial DNA remains relatively constant, making it important to distinguish between the two when plotting their amounts.

Graphing biological data involves visually representing quantitative information to identify trends and relationships. In this context, plotting the amounts of nuclear and mitochondrial DNA across the cell cycle stages allows for a clear comparison of their dynamics. Understanding how to effectively create and interpret such graphs is essential for conveying complex biological processes in a comprehensible manner.