5 Must Know Facts For Your Next Test

1. Selective permeability is essential for cellular processes, allowing nutrients to enter and waste products to exit the cell effectively.
2. Membranes are primarily composed of phospholipids, which create a bilayer structure that contributes to selective permeability.
3. Certain proteins embedded in the membrane act as channels or carriers, facilitating the transport of specific molecules across the membrane.
4. Ions and polar molecules typically require specific transport proteins to cross the hydrophobic lipid bilayer due to their inability to diffuse freely.
5. Changes in temperature and pH can affect the selective permeability of membranes, influencing their fluidity and overall functionality.

Review Questions

• How does selective permeability contribute to maintaining cellular homeostasis?
  • Selective permeability is vital for maintaining cellular homeostasis by regulating what enters and exits the cell. It allows essential nutrients to be absorbed while keeping harmful substances out. This control over the internal environment ensures that conditions remain optimal for metabolic processes, thus supporting overall cell function.
• Discuss the role of membrane proteins in facilitating selective permeability.
  • Membrane proteins play a crucial role in selective permeability by acting as channels and carriers that assist specific molecules in crossing the lipid bilayer. For instance, channel proteins provide pathways for ions and polar molecules, while carrier proteins undergo conformational changes to transport substances. This selectivity ensures that only appropriate molecules can enter or exit, maintaining the integrity and functionality of the cell.
• Evaluate how changes in environmental conditions can impact selective permeability and cellular function.
  • Changes in environmental conditions, such as temperature fluctuations or variations in pH, can significantly impact selective permeability by altering membrane fluidity and protein functionality. For example, increased temperature may enhance fluidity, allowing more substances to pass through, which could disrupt cellular processes. On the other hand, extreme conditions may cause membrane proteins to denature, compromising their ability to facilitate transport. Such alterations can lead to impaired cellular function and overall homeostasis.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.