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BIOLOGY: DIFFUSION AND THE CELL MEMBRANE

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biology: diffusion and the cell membrane i. the plasma membrane: controls what goes in and out of the cells (homeostasis) or it will die. only certain particles can ... – PowerPoint PPT presentation

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Title: BIOLOGY: DIFFUSION AND THE CELL MEMBRANE


1
BIOLOGY DIFFUSION AND THE CELL MEMBRANE
  • I. THE PLASMA MEMBRANE CONTROLS WHAT GOES IN
    AND OUT OF THE CELLS (HOMEOSTASIS) OR IT WILL
    DIE.
  • ONLY CERTAIN PARTICLES CAN PASS THROUGH this is
    called being SELECTIVELY PERMEABLE
  • DIFFERENT TYPES OF CELLS LET IN DIFFERENT
    SUBSTANCES

2
  • The fluid mosaic model (above) shows that the
    proteins move and bounce like buoys within the
    fats.
  • THE MORE UNSATURATED FATTY ACIDS IN A CELL
    MEMBRANE, THE MORE FLUID IT IS.
  • Example Hooves of caribou dont freeze or get
    frost bite because they have more unsaturated
    fatty acids in their membranes.

3
  • CELL MEMBRANE STRUCTURE BILAYER (2 LAYERS) OF
    PHOSPHOLIPIDS WITH PROTEINS AND CHOLESTEROL
    EMBEDDED
  • PHOSPHOLIPIDS 2 FATTY ACIDS (TAILS) WITH A
    GLYCEROL (HEAD)
  • HEADS ARE WATER SOLUABLE
  • HYDROPHILIC
  • TAILS ARE WATER INSOLUABLE HYDROPHOBIC
  • So therefore the bottom layer is inverted and the
    tails face each other.

4
  • 2. CHOLESTEROL IMPORTANT IN MEMBRANE GIVES
    STRENGTH AND RIGIDITY TO MEMBRANE. FOUND BETWEEN
    FATS.
  • 3. PROTEINS CARRIES OUT MOST OF THE FUNCTIONS
    OF THE MEMBRANE
  • TYPE 1
  • INTEGRAL (Carrier) GO ALL THE WAY THROUGH THE
    MEMBRANE
  • JOB OF CARRIER PROTEINS DETERMINE WHAT SHOULD
    PASS INTO THE CELL.

5
2 types of integral proteins
  • 1. Carrier protein Changes shape to allow a
    substance through
  • 2. Channel protein Always has an open slide to
    allow small substances with a specific shape in.

6
TYPE TWO PERIPHERAL
  • LOCATED ONLY HALF WAY THROUGH THE FAT LAYER
  • JOB OF PERIPHERAL PROTEINS
  • MARKER
  • IDENTIFICATION (TYPE OF CELL)

7
CELLULAR TRANSPORT
  • VOCABULARY

8
  • CELLULAR TRANSPORT
  • DIFFUSION Movement
  • of particles from higher
  • concentration to lower
  • concentration across a
  • membrane
  • CONTINUOUS MOVEMENT
  • UNTIL DYNAMIC EQUILIB-
  • RIUM which is equal amounts
  • of a substance on either side.

9
  • OSMOSIS DIFFUSION OF WATER
  • Note that diffusion and osmosis are very
    similardiffusion is the movement of ANY
    substance across a membrane while osmosis is the
    movement specifically of WATER across a membrane.
  • Reverse Osmosis is a term you have heard of in
    purifying water. The water solution is forced
    through a membrane (filter) to be cleaned of
    particles. The water crossing the membrane gives
    it the osmosis part and the forcing of the
    soltion across the membrane give it the reverse
    as it isnt natural but requires energy.

10
TYPES OF SOLUTIONS
  • Keep in mind the solution around your cells
    would be your blood.

11
3 TYPES OF SOLUTIONS (blood) AROUND A CELL
  • 1. ISOTONIC THE CONCENTRATION OF DISSOLVED
    SUBSTANCES AND WATER IS THE SAME ON BOTH SIDES OF
    MEMBRANE
  • WATER MOLECULES STILL MOVE, BUT NOT ALL
    IN ONE DIRECTION DYNAMIC EQUILIBRIUM

12
2. HYPOTONIC SOLUTION WHERE CONC. OF DISSOLVED
SUBS. LOWER THAN IN THE CELL
  • WATER MOVES INTO THE CELL AND CELL SWELLS
    AND INTERNAL PRESSURE (TURGOR PRESSURE) INCREASES
  • If turgor pressure increases so much the cell
    could burst. The plant cell uses the cell wall
    to prevent this bursting. For animal cells, we
    have the

13
  • CONTRACTILE VACUOLES (animal only cells)-
    COLLECT EXCESS WATER AND EXCRETE IT SO CELL
    DOESNT BURST

14
3. HYPERTONIC SOLUTION WHERE CONC. OF
DISSOLVED SUBSTANCE IS HIGHER OUTSIDE THAN IN THE
CELL
  • THIS HAS THE WATER LEAVING THE CELL SO IT SHRINKS
  • This shrinking is called PLASMOLYSIS.
  • PLASMOLYSIS is the drop of turgor pressure
    because water is leaving the cell. An example of
    this is wilting of a plant. The cells have less
    water so they are smaller and cannot hold up the
    stem and leaves as usual. Water your plant and
    the wilting (plasmolysis) goes away.

15
3 solutions illustrated
Hypotonic Isotonic
Hypertonic
16
TYPES OF TRANSPORT
  • Compare the three types of cellular
    tranpsportation

17
1. PASSIVE TRANSPORT
  • THIS REQUIRES NO ENERGY TO MOVE SUBSTANCE ACROSS
    MEMBRANE DIFFUSION (move from high to low
    conc.)
  • LIPID BILAYER KEEPS MOST SUBSTANCES OUT BECAUSE
    THEYRE REPELLED OR TOO LARGE
  • WATER, OXYGEN, NITROGEN, CARBON DIOXIDE AND A FEW
    OTHER SMALL NONPOLAR MOLECULES CAN DIFFUSE
    DIRECTLY ACROSS THE MEMBRANE

18
  • FACILITATED DIFFUSION A substance travels from
    HIGH concentration to LOW concentration but goes
    through an integral protein instead of the fats
    due to its size. This is a type of passive
    transport. Uses some energy.

19
2. ACTIVE TRANSPORT
  • A substance moves from LOW concentration to HIGH
    concentration. This goes AGAINST CONC. GRADIENT
    and uses a great deal of ENERGY.

20
Think about it
  • There is a hill. Is it easier to roll DOWN the
    hill or roll UP the hill? Rolling DOWN the hill
    is going from high to low concentrationnot
    needing a lot of energy so basically this is
    passive transport. Going UP the hill takes
    energy and you are going from a low point to a
    high pointactive transport.

21
2 types of active transport
  • 1. ENDOCYTOSIS (phagocytosis) CELL SURROUNDS
    THE PARTICLES - DOESNT PASS THROUGH CELL
    MEMBRANE

22
  • 2. EXOCYTOSIS RELEASE OF WASTES FROM CELL
    VACUOLE.
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