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Homeostasis Maintenance of a stable internal environment

Published byCameron Franklin Modified over 5 years ago

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Presentation on theme: "Homeostasis Maintenance of a stable internal environment"— Presentation transcript:

1 Homeostasis Maintenance of a stable internal environment
Maintaining the proper balance Cell membrane helps maintain the cell’s homeostasis by regulating the movement of substances across the membrane

2 Homeostasis Cell membrane is SEMIPERMEABLE
The cell controls what comes in or goes out

3 Cell Membrane Phospholipid Bilayer Phospholipid Bilayer
Phosphate “head” Two fatty acid “tails” Bilayer Two layers

4 Cell Membrane Phosphate “head” Two fatty acid “tails” Hydrophilic
Hydro = Water Philic = Attraction “Water-loving” Two fatty acid “tails” Hydrophobic Phobic = opposite of attraction = aversion “Water Hating”

5 Cell Membrane Barrier to outside
Only very small substances can pass through it

6 Cell Transport Cells need to move substances in and out of the cell for many reasons Get food, to remove waste, to maintain homeostasis Variety of ways that substances can move across cell membrane Passive transport Active transport

7 Passive Transport Substances move across the membrane without an energy input – Passive Equilibrium State of balance, stability Chemical equilibrium = equal concentration If concentrations are not equal… Cell membrane will move substances to create equilibruim

8 Passive Transport If the concentration on one side of the cell membrane is higher than the other, a CONCENTRATION GRADIENT exists Substances will move from high concentrations to low concentrations DIFFUSION Moving down the concentration gradient No energy input

9

10 Two Types of Diffusion Simple Diffusion Facilitated Diffusion
Small nonpolar substances can move directly through the phospholipid bilayer Facilitated Diffusion Other substances cannot pass through the lipid bilayer They require assistance in movement across the membrane

11 Facilitated Diffusion
Required assistance Cannot just move the membrane wherever it wants Proteins are present in cell membrane Two types of proteins can give assistance: Channel Proteins Carrier Proteins

12 Facilitated Diffusion
Channel Proteins Proteins located in the lipid bilayer that act as tunnels Each protein is made for the transport of a certain substance Sodium ions pass through sodium ion channels

13 Facilitated Diffusion
Carrier Proteins Proteins located in the lipid bilayer that bind to certain substances After the substance binds to its binding site, the protein changes shape This change in shape moves the substance across the membrane

14 Channel Proteins vs Carrier Proteins

15 Osmosis Water can move in and out of the cell too
Water can diffuse across the cell membrane through osmosis

16 Osmosis Water is polar Water uses channel proteins
(only nonpolar substances can move directly across the membrane) Water uses channel proteins Water moves down the concentration gradient for water

17 Osmosis If the sugar were to move down its concentration gradient it would move which direction? If the water were to move down its concentration gradient which way would it move

18 Osmosis in a Cell HYPERTONIC Hyper = excessive
Tonic = solution with concentration High solute concentration outside the cell INSIDE OUTSIDE High water Low water Low solute high solute Water moves OUT

19

20 Osmosis in a Cell HYPOTONIC Hypo = low
Tonic = solution with concentration Low solute concentration outside the cell INSIDE OUTSIDE Low water High water High solute Low solute Water moves IN

21

22 Osmosis in a Cell ISOTONIC Iso = equal
Tonic = solution with concentration Equal solute concentration outside the cell INSIDE OUTSIDE Same water Same water Same solute Same solute Water does NOT move Equilibrium

23

24 Active Transport Sometimes substances have to move against the concentration gradient Working against the concentration gradient requires energy input from the cell ACTIVE

25 Active Transport Facilitated diffusion uses carrier proteins to move substances WITH the concentration gradient No energy needed Active Transport can use carrier proteins to move substances AGAINST the concentration gradient Energy required

26 Pumps Carrier proteins that move substances against the concentration gradient are called PUMPS The substance to be moved attaches to the carrier protein ATP is added for energy The carrier protein then changes shape and moves the substance

27 ACTIVE TRANSPORT - Pumps

28

29 ACTIVE TRANSPORT - Vesicles
Vesicles can trap substances from outside the cell and bring them into the cell Movement into a cell via vesicles ENDOCYTOSIS Movement out of a cell via vesicles EXOCYTOSIS

30 ACTIVE TRANSPORT - Vesicles

31 ACTIVE TRANSPORT - Vesicles

32 CONCENTRATION GRADIENT CARRIER PROTEIN

33 Homework DR Cell Transport : 7-17

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