Movement Through Cell Membrane Flashcards
diffusion
Movement of substances from an area of high concentration to an area of low concentration
along a concentration gradient
slow process
works quickly over short distance
EXAMPLES
- oxygen passing from alveoli into blood
- CO2 passing from blood into alveoli
passive process
does not require energy to occur
Active Transport:
opposite of diffusion
•The substance goes from an area of low concentration to an area of high concentration. i.e. against the concentration gradient
•It requires energy (ATP) produced by mitochondria
•Cells that do a lot of active transport have many mitochondria
osmosis
Movement of water / from an area of high water concentration / to an area of low water concentration / across a selectively permeable membrane
Cell membranes
- Selectively permeable
- Controls what enters and leaves the cell
- Water can pass through freely in both directions
selectively permeable
only allows certain substances to pass through
To Demonstrate Osmosis
- Take 2 pieces of Visking Tubing (selectively permeable membrane)
- Put some distilled water into one and tie both ends.
- Put glucose solution into the other and tie both ends
- Weigh both tubes and note how full each is.
- Place both tubes in a beaker of distilled water and leave for 1 hour.
- Remove both tubes,
a. Dry with tissue
b. Weigh
c. Note how full each is
results
- The tube with deionised water weighs the same and is just as full as it was at the start
- The tube with the glucose solution is heavier and is swollen (turgid)
conclusion
- Osmosis has occurred.
- Water has passed through the Visking tubing from an area where it (water) is in high concentration to an area where it is in low concentration.
Turgor Pressure
the pressure of the cytoplasm and vacuole against the cell wall in plant cells
. Cell contents are more concentrated
. cell placed in a solution with high water concentration water enters the cytoplasm and vacuole
. causes them to swell and push the cell membrane against cell wall
. cell wall prevents cell from bursting
. cell in this state is called turgid pressure produced is called turgor pressure
. animal cell the cell will burst causing lysis
Plasmolysis
- If a plant is placed in a solution with a lower water concentration than the cell contents (higher salt concentration).
- Water will move out through the cell membrane by osmosis
- This will cause the cell contents to shrink and the cell membrane will move away from the cell wall
- A plant cell in this condition is said to be plasmolysed
Crenation
- If an animal cell (e.g. a red blood cell) is placed in a solution with a lower water concentration than the cell contents (a higher salt concentration)
- Water will move out of the cell by osmosis and the cell will shrink (and become irregular in shape)
- An animal cell in this condition is said to be crenated
Wilting
a plant that has drooped due to its cells having lost turgidity due to lack of water is described as wilted
Locations of Selectively Permeable Membranes within Cells
- Around Nucleus
- Around Chloroplasts
- Around Mitochondria
- Around Vacuoles:
- In plant cells the large permanent vacuole is surrounded by a membrane called the Tonoplast
Effects of Osmosis
1. Stomatal opening
- Stomata are the pores in the lower epidermis of leaf
- Allow gases and water vapour to enter and leave the leaf
- Surrounded by 2 cells called guard cells which contain chloroplasts
- When the chloroplasts photosynthesise they produce glucose so the concentration of water decreases
- This causes water to move into them by osmosis causing them to swell and the stomata to open
- At night glucose is used in respiration so the concentration of water increases causing water to move out, so the cells become flaccid and the stomata close
