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Published byEleanor Black Modified over 9 years ago
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Cell (Plasma) Membrane What is it made of? Why is this a good material for a cell membrane?
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Cell Membrane Phospholipid bilayer Hydrophilic head Hydrophobic tail
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Cell Membrane Homeostasis – Steady state maintained by the body Selectively Permeable – Regulates what can come in and out of the cell
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Selectively Permeable (6.3) CAN Small Nonpolar – (O 2 ) – (CO 2 ) – WATER CANNOT – Large (glucose) – Polar ( exception is water because its so small) – Ion (charged) Breathing
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Proteins in the Cell Membrane “Fluid Mosaic Model” – Many proteins will help transport molecules across the membrane – Proteins drift freely
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Membrane Proteins Embedded 1.Transport Proteins 2.Cell Recognition Proteins- sugars hang off proteins 3.Receptors Proteins- receive signals 4.Enzymes- proteins that make reactions happen
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Cell Recognition Proteins Sugars hang off of proteins in the cell membrane Give us different blood types
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Receptor Protein Receptor Protein- is a cell membrane protein that receives a signal
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Transport
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Passive Transport: Diffusion Diffusion The movement of particles HIGH concentration to LOW concentration Why? Molecules are always in random motion Ex. Perfume, food coloring, tea bag
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Equilibrium- particles equally spread out
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Osmosis Water ONLY! -Diffusion of water from HIGH to LOW concentration Solute: Substance in solution that is dissolved (ex. Sugar or Salt) Solvent: Substance in solution that does the dissolving ( ex. Water)
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Hypotonic Environment Hypertonic Environment Isotonic Environment TONICITY
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Isotonic 97% H 2 O Diagram Where is the most water? Which way does water go? Result? Big words Examples 97% H 2 O Same Inside and outside Even, same concentration overall “dynamic equilibrium” “homeostasis contact lens solution, Gatorade 97% H 2 0
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Hypotonic Diagram Where is the most water? Which way does water go? Result? Big words Examples 97% H 2 O Outside Inside Burst, get bigger; firm “cytolysis”- to burst; “turgid”- get firm; “turgor pressure” :pressure inside plant cells to help stand upright - Distilled water ( 100% Water) - Plants standing upright 92 % H 2 0
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Hypertonic Diagram Where is the most water? Which way does water go? Result? Big words Examples 80% Water Inside Outside Smaller, shrink, go limp “plasmolysis”- to wilt, shrivel, loss of pressure; “flaccid”- go limp 97% H 2 0
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Hypertonic Red Blood Cells
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Check Yourself Is the lettuce in a hypertonic isotonic hypotonic environment and why?? Poll
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Passive Transport: Facilitated Diffusion Facilitated Diffusion -diffusion across a membrane through transport proteins Ex. sugars, ions, alcohol NO ENERGY: From HIGH to LOW concentration
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Active Transport Movement of molecules across a membrane require energy From LOW to HIGH concentrations! Why? To maintain a certain internal environment: 1. Sodium Potassium Pump
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Active Transport Exocytosis & Endocytosis 1. Exocytosis -Removal of materials -Vesicle fuses with membrane, forcing contents out
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Active Transport 2. Endocytosis process of taking in materials by infolding of the cell membrane Pocket breaks and forms a vesicle in the cell Ex. Pinocytosis: take in fluid Phagocytosis: Large particle/food Amoeba
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Concentration Gradient measurement of how the concentration of measurement of how the concentration of something changes from one place to another something changes from one place to another B. Passive Transport: molecules go DOWN concentration gradient from molecules go DOWN concentration gradient from HIGH to LOW concentration HIGH to LOW concentration C. Active Transport: molecule go UP concentration gradient from LOW to HIGH concentration molecule go UP concentration gradient from LOW to HIGH concentration
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Review Video of Transport
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Elodea Plasmolysis
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http://www.youtube.com/watch?v=2 Th0PuORsWY
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“Egg”citing “Eggs”periment Cell membrane
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Egg Lab: Osmosis
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Why does a plant like hypotonic but an animal does not? http://www.phschool.com/science/biology_pl ace/labbench/lab1/watpot.html http://www.phschool.com/science/biology_pl ace/labbench/lab1/watpot.html
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