CELLS: Active Transport COPY Flashcards

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1
Q

Active transport

A

The movement of molecules or ions into or out of a cell form a region of lower concentration to a region of higher concentration using ATP and carrier proteins.

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2
Q

The movement of molecules or ions into or out of a cell form a region of lower concentration to a region of higher concentration using ATP and carrier proteins.

A

Active transport

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3
Q

In active transport, what is ATP used for?

A
  • to directly move molecules
  • to individually move molecules using a concentration gradient which has already been set up by active transport - co-transport.
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4
Q

What type of proteins are involved in active transport?

A

Carrier proteins.

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5
Q

What are the two main differences between active transport and facilitated diffusion?

A
  • Active transport usually moves soluted from a low to a high concentration - in facilitated diffusion, they always move from a high to a low concentration.
  • Active transport requires energy - facilitated diffusion does not.
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6
Q

Describe the direct active transport of a single molecule or ion:

A
  • Carrier proteins span length of membrane and bind to molecule/ion on one side of membrane.
  • Molecule/ion binds to receptor sites on carrier proteins.
  • On inside of organelle, ATP binds with protein, causing it to split into ADP and a phosphate molecule.
  • Protein molecule changes shape and opens to the opposite side of the membrane.
  • Molecule/ion is released to other side of the membrane.
  • Phosphate molecule released from protein which causes the protein to revert to original shape, ready for the process to repeat.
  • ADP then recombines with phosphate to form ATP, during respiration.
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7
Q

Give an example of an occasion when one ion/molecule is move into a cell at the same time one is being removed:

A

Sodium-potassium pump.

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8
Q

Co-transporters.

A

A type of carrier protein that bind to two molecules at a time.

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9
Q

Briefly describe the role of co-transporters:

A
  1. They bind two molecules at a time.
  2. Concentration gradient of one of the molecules is used to move the other molecule against its own concentration gradient.
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10
Q

What factors affect the rate of active transport?

A
  • Speed of individual carrier proteins.
  • Number or carrier proteins present.
  • Rate of respiration of the cell and the availability of ATP.
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11
Q

How does the speed of individual carrier proteins affect the rate of active transport?

A

The faster they work, the faster the rate of active transport.

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12
Q

How does the number of carrier proteins present affect the rate of active transport?

A

The more proteins there are, the faster the rate.

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13
Q

Hows does the rate of respiration and availability of ATP affect the rate of active transport?

A

If respiration is inhibited, active transport cannot take place.

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14
Q

How s glucose absorbed in the mammalium ileum?

A

Co-transport.

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15
Q

What is the mammalian ileum?

A

Small intestine in mammals.

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16
Q

In the ileum, why is there an issue with glucose diffusing into the blood?

What must happen to overcome this?

A

The concentration is too low for it to diffuse into the blood.

So, glucose is absorbed from the lumen of the ileum by co-transport.

17
Q

What happens in the sodium-potassium pump?

A
  • Sodium ions are actively removed from the cell/organelle.
  • Potassium ions are actively taken in from surroundings.

Essential for important processes, such as the creation of nerve impulses.

18
Q

7 ponts

Describe the co-transport of glucose in the mammalian ileum:

A
  • Sodiumions actively transported out of the ileum epithelial cells, into blood, by sodium-potassium pump.
  • Concentration of sodium ions in lumen higher than inside cell.
  • Causes sodium ions to diffuse from the lumen into the epithelial cell, down concentration gradient.
  • Do this via sodium-glucose co-transporter proteins.
  • Co-transporter carries glucose into the cell with the sodium.
  • Results in concentration of glucose inside the cell increasing.
  • So, glucose diffuses out of cell, into the blood, down the concentration gradient through a protein channel by facilitated diffusion.
19
Q

A type of carrier protein that bind to two molecules at a time.

A

Co-transporters.

20
Q

Why is co-transport an indirect form of active transport?

A
  • Sodium ion concentration gradient, rather than ATP directly, that powers the movement of glucose and amino acids into the cells.