Lecture 19 Flashcards

1
Q

What is diffusion?

A

the process which molecules move from an area of high concentration to an area of low concentration by random thermally driven motion

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2
Q

Rate of diffusion across membranes depends on

A
  1. Size: smaller = faster diffusion
  2. solubility: hydrophobic = faster diffusion
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3
Q

Order molecules on their membrane permeability

A
  1. small non polar molecules (O2)
  2. small uncharged polar molecule (H2O)
  3. larger uncharged polar molecules (amino acid)
  4. ions (Cl-)
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4
Q

What ions concentration contribute the most in the cell

A

Na+ : in = [5-15], out = [145]
K+ : in = 140, out = [5]
Cl- : in = [5-15], out = [110]

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5
Q

what is membrane potential

A
  • it is the voltage difference across the membrane around -200mV
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6
Q

What is the difference between transporters and channels

A
  1. transporters: transport only molecules or ions that fit into specific binding sites
  2. channels: transport solutes through channels, discriminating based on size and electric charge
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7
Q

What is passive transport

A
  • spontaneous movement of solute down its electrochemical gradient
  • both channels and transporters can perform passive transport
  • it is also possible that passive transport require energy
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8
Q

What is active transport

A
  • movement of a solute against its electrochemical gradient
  • performed by transporters known as “pumps” which utilize energy
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9
Q

what the the electrochemical gradient

A
  • the driving force determining how an ion will move across a plasma membrane. it is a combined influence of ions concentration and membrane potential
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10
Q

Why doesn’t K+ diffuse out of the cell spontaneously

A
  • it doesn’t because the membrane potential is negative therefore the K+ ions are attracted back into the cell due to it’s electrochemical gradient
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11
Q

what is osmosis

A
  • osmosis is the movement of water down its concentration gradient from and area of low solute concentration to an area of high solute concentration
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12
Q

what are aquaporins

A
  • special channel proteins that allow the flow of water across the plasma membrane
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13
Q

glucose transporter

A
  • multipass transmembrane protein
  • performs passive transport by changing conformations
  • after a meal, concentration of glucose is high and bind to liver cell, causing its import into the cytosol
  • when blood sugar is low, glucagon stimulates liver cell breakage of glycogen to release glucose in the blood resulting in a higher concentration of glucose in the cell than outside the cell
  • the flow of glucose can go in either ways according the direction of the concentration gradient
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14
Q

What are pumps? And provide examples

A

Pumps perform active transport in 3 way:
1. Coupled pump: link uphill transport of one solute with the downhill transport of another
2. ATP-driven pump: hydrolyze ATP to drive uphill transport
3. Light-driven pump: use energy derived from sunlight to drive uphill transport

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15
Q

The Na+ - K+ pump

A
  • pumps 3 Na+ out of the cell and 2 K+ into the cell at the expense of ATP. A phosphate is transiently added to the pump
  • maintains a steep concentration gradient: high Na+ outside of the cell and high k+ inside the cell
  • high [Na+] outside of the cell acts like a dam, storing energy. Influx of Na+ can be coupled with the transport of other molecules
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16
Q

The Ca2+ pump

A
  • pumps Ca2+ outside of the cell at the expense of ATP
  • Ca2+ can modify the activity of a variety of proteins (involved in cell communication and muscle contraction)
  • pump can be found in plasma membrane and the ER membrane (both pump the Ca2+ out of the cytosol)
  • similar structure and mechanism to the Na+ pump
17
Q

Uniport

A
  • only ferries one solute
18
Q

Symport

A
  • moves two solutes in the same direction
19
Q

antiport

A
  • moves two solutes in the opposite directions
20
Q

Glucose-Na+ symport

A
  • found in apical side of gut cells
  • utilizes import of Na+ to drive the import of glucose
  • the binding of Na+ and glucose is cooperative meaning that both molecules need to be present for transport to occur
  • passive glucose transporter on basal and lateral side of guy cells
21
Q

electrochemical H+ gradients

A
  • plants, bacteria and fungi primarily use H+ gradients rather than Na+ gradients to transport molecules
  • gradient is generated by H+ pump which pumps H+ outside of the cell
  • some pumps are driven by ATP or energy from light
  • H+ pumps are also found in membranes of intracellular organelles like lysosomes and vacuoles