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Ch 4 Movement across membranes Sp 2018 blank

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C Ebeling

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Movement across membranes
Concentration Gradient
Section 4.5 This image is a concentration gradient of black pixels, with high concentration at the top and low concentration at the bottom. At the top, the black pixels are abundant and close together. High concentration of black pixels Low concentration of black pixels At the bottom, the black pixels are sparse. “Gradient” Describes a Difference Between Neighboring Regions
Section 4.5 The balls within this box have the same concentration gradient as the black pixels did. High concentration of balls Low concentration of balls This arrow points down the concentration gradient since it starts at high concentration and ends at low concentration of balls. Concentration Gradients Have a Tendency to Dissipate
Movement across membranes • Passive Transport – does not require input of energy – leads to equilibrium – Simple diffusion – Facilitated diffusion – Osmosis • Active Transport – requires energy input – can concentrate substances
Section 4.5 In simple diffusion, particles move from high concentration to low concentration—that is, they move down their concentration gradient. Low concentration areas High concentration areas Figure 4.15 Passive Transport Does Not Require Energy
Section 4.5 Facilitated diffusion is passive transport that requires membrane proteins. Table 4.2 Passive Transport Does Not Require Energy
Membrane Proteins Transport Ions and Polar Molecules Section 4.5 The hydrophobic tails of phospholipids repel hydrophilic substances. Therefore, ions (such as Cl- and Na+) and polar substances must pass through a protein channel to cross the membrane. Table 4.2 Return to AP
Section 4.5 Osmosis, the diffusion of water down its concentration gradient, is also a type of passive transport. Figure 4.16 Passive Transport Does Not Require Energy
Section 4.5 Water moves toward high solute concentrations as it moves down its concentration gradient. Figure 4.17 Passive Transport Does Not Require Energy All blood cells: © Dr. David M. Phillips/Visuals Unlimited
Turgor Pressure
Active Transport
Active Transport Requires Energy Section 4.5 In active transport, the cell uses energy and a transport protein to move a substance against its concentration gradient. Table 4.2
For example, the sodium- potassium pump uses ATP to transport Na+ and K+ across the membrane. Figure 4.19Section 4.5 Active Transport Requires Energy
Endocytosis
Membrane Transport Summary Is the substance nonpolar? Yes No Is the substance moving down its concentration gradient? Yes No Is the substance very large? No Yes Is the substance entering or leaving the cell? Exocytosis Facilitated diffusion Simple diffusion Active transport Entering Endocytosis Leaving Section 4.5

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Ch 4 Movement across membranes Sp 2018 blank

  • 3. Section 4.5 This image is a concentration gradient of black pixels, with high concentration at the top and low concentration at the bottom. At the top, the black pixels are abundant and close together. High concentration of black pixels Low concentration of black pixels At the bottom, the black pixels are sparse. “Gradient” Describes a Difference Between Neighboring Regions
  • 4. Section 4.5 The balls within this box have the same concentration gradient as the black pixels did. High concentration of balls Low concentration of balls This arrow points down the concentration gradient since it starts at high concentration and ends at low concentration of balls. Concentration Gradients Have a Tendency to Dissipate
  • 5. Movement across membranes • Passive Transport – does not require input of energy – leads to equilibrium – Simple diffusion – Facilitated diffusion – Osmosis • Active Transport – requires energy input – can concentrate substances
  • 6.
  • 7. Section 4.5 In simple diffusion, particles move from high concentration to low concentration—that is, they move down their concentration gradient. Low concentration areas High concentration areas Figure 4.15 Passive Transport Does Not Require Energy
  • 8.
  • 9. Section 4.5 Facilitated diffusion is passive transport that requires membrane proteins. Table 4.2 Passive Transport Does Not Require Energy
  • 10. Membrane Proteins Transport Ions and Polar Molecules Section 4.5 The hydrophobic tails of phospholipids repel hydrophilic substances. Therefore, ions (such as Cl- and Na+) and polar substances must pass through a protein channel to cross the membrane. Table 4.2 Return to AP
  • 11. Section 4.5 Osmosis, the diffusion of water down its concentration gradient, is also a type of passive transport. Figure 4.16 Passive Transport Does Not Require Energy
  • 12. Section 4.5 Water moves toward high solute concentrations as it moves down its concentration gradient. Figure 4.17 Passive Transport Does Not Require Energy All blood cells: © Dr. David M. Phillips/Visuals Unlimited
  • 13.
  • 14.
  • 15.
  • 18. Active Transport Requires Energy Section 4.5 In active transport, the cell uses energy and a transport protein to move a substance against its concentration gradient. Table 4.2
  • 19.
  • 20. For example, the sodium- potassium pump uses ATP to transport Na+ and K+ across the membrane. Figure 4.19Section 4.5 Active Transport Requires Energy
  • 22.
  • 23.
  • 24. Membrane Transport Summary Is the substance nonpolar? Yes No Is the substance moving down its concentration gradient? Yes No Is the substance very large? No Yes Is the substance entering or leaving the cell? Exocytosis Facilitated diffusion Simple diffusion Active transport Entering Endocytosis Leaving Section 4.5