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Cell Membrane

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Cell Membrane Cell Membrane is very complex. It s made of phospholipid bilayer with proteins throughout. some proteins extend all the way through (Integral Proteins ... – PowerPoint PPT presentation

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Title: Cell Membrane

1
Cell Membrane

Cell Membrane is very complex. Its made of
phospholipid bilayer with proteins throughout.

some proteins extend all the way through
(Integral Proteins) and some stay on surface
(Peripheral Proteins)
integral proteins form channels or carriers
peripheral act as recognition sites

3
Phospholipid Bilayer

Hydrophilic water loving (phophate head)
Hydrophobic water fearing (lipid tails)

4
Fluid Mosaic Model

lipids and proteins of cell membrane are
always in motion, drifting around, hence name
Fluid Mosaic Model of membrane structure

5
Fluid Mosaic Model

Cell membrane acts as a dam or pump for
water-soluble molecules that cant pass freely
through.Interactive Educational Animations
Water diffuses across the membrane, called
osmosis. This regulation of water across the
cell membrane is vital to homeostasis.

6
DIFFUSION

All particles are moving and therefore have
energy of motion called kinetic energy, whether
living or nonliving.
When there is a difference in concentration
across a space this is called a concentration
gradient.

7
DIFFUSION

The movement from higher concentration to lower
concentration. This happens b/c of kinetic
energy.
Diffusion

8
Rate of diffusion

Concentration- more concentrated diffuses faster.
Pressure- increasing pressure will increase
kinetic energy and diffusion.
Temperature- higher temps increase kinetic energy
and also diffusion.

9
Dynamic Equilibrium

Once diffusion has occurred and there are equal
concentrations, there is still continuous
movement (kinetic energy), however there is no
more concentration change

10
Osmosis

Diffusion with water across a semipermeable
membrane.
Very vital to biology.
Osmosis animation

11
HYPERTONIC SOLUTION

The concentration of solute molecules outside the
cell is higher than conc. inside the cell. H2O
diffuses out of the cell to equilibrium.
-Cell in hypertonic solution shrink. Plant cells
detach from cell wall (PLASMOLYSIS), plants wilt.

12
HYPOTONIC SOLUTION

The conc. of solute molecules outside the cell is
lower than conc. inside the cell cytosol. H2O
diffuses into the cell to equilibrium.
-Cell in hypotonic solution swell. Animal cells
in this environ. will burst (CYTOLYSIS). Plant
cells have cell wall and just become rigid.

13
ISOTONIC SOLUTION

conc. of solutes is equal in and out of cell.
Cells must be able to attempt to adapt to these
environments. Must actively transport water and
materials into and out of cell.

14
Passive Transport- no energy required.

1. Diffusion, Osmosis- most molecules can not
enter or exit cell this way. (oxygen, H2O)

15
Passive Transport

2. Facilitated Diffusion- no energy required.
Molecules are diffused into and out of cell with
the help of molecule-specific carrier proteins
and ion channels (protein tunnel). (Glucose,
Na, K)

16
Active Transport- requires energy (ATP)- usually
against the conc. gradient- uses carrier
proteins.

1. Sodium-Potassium Pumps- animal cells, pump Na
out and K in.

17
Active Transport

2. Plant roots- nutrients inside roots more conc.
than out. Pumped in.

18
Active Transport

3. Bulk Transport- large molecules, food packaged
in membrane-bound sacs (vesicles) to move across
membrane.
a. Endocytosis- cell membrane folds in,
surrounds molecule, becomes sac

19
Active Transport