5 Must Know Facts For Your Next Test

1. Eukaryotic cells typically range from 10 to 100 micrometers in size, allowing for more complex structures than prokaryotic cells.
2. They can reproduce sexually or asexually, contributing to genetic diversity within populations.
3. Eukaryotic cells have a cytoskeleton that provides shape and support, facilitating movement and transport within the cell.
4. Plant eukaryotic cells contain chloroplasts for photosynthesis, while animal eukaryotic cells do not have these structures.
5. The presence of a nucleus in eukaryotic cells allows for more organized storage and expression of genetic material compared to prokaryotic cells.

Review Questions

• How do eukaryotic cells differ from prokaryotic cells in structure and function?
  • Eukaryotic cells differ from prokaryotic cells primarily in their complexity. Eukaryotic cells possess a defined nucleus that houses their genetic material, while prokaryotic cells do not have a nucleus and their DNA floats freely in the cytoplasm. Additionally, eukaryotic cells contain membrane-bound organelles such as mitochondria and endoplasmic reticulum, allowing them to perform specialized functions more efficiently than prokaryotic cells.
• Discuss the role of organelles in eukaryotic cells and how they contribute to cellular function.
  • Organelles play crucial roles in eukaryotic cells by compartmentalizing various biochemical processes. For example, mitochondria are responsible for generating ATP through cellular respiration, while the endoplasmic reticulum synthesizes proteins and lipids. This organization allows eukaryotic cells to carry out complex metabolic activities more effectively than prokaryotic cells, leading to greater specialization and efficiency within the cell.
• Evaluate the significance of the nucleus in eukaryotic cells and its impact on genetic regulation.
  • The nucleus is significant in eukaryotic cells as it serves as the control center for genetic regulation. It protects the DNA from damage and provides an organized environment for transcription and RNA processing before proteins are synthesized in the cytoplasm. This separation of transcription and translation allows for more complex regulatory mechanisms compared to prokaryotic organisms, leading to greater diversity in gene expression and cellular functions.

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