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Cell Membranes Osmosis and Diffusion

Cell Membranes Osmosis and Diffusion. Functions of Membranes. 1. Protect cell 2. Control incoming and outgoing substances 3. Maintain ion concentrations of various substances 4. Selectively permeable - allows some molecules in, others are kept out. Phospholipid Bilayer.

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Cell Membranes Osmosis and Diffusion

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  1. Cell MembranesOsmosis and Diffusion

  2. Functions of Membranes 1. Protect cell 2. Control incoming and outgoing substances 3. Maintain ion concentrations of various substances 4. Selectively permeable - allows some molecules in, others are kept out

  3. Phospholipid Bilayer

  4. Fluid Mosaic Model

  5. Blood-Brain Barrier • Allows some substances into the brain, but screens out toxins and bacteria • Substances allowed to cross include: water, CO2, Glucose, O2, Amino Acids, Alcohol, and antihistamines. HIV and bacterial meningitis can cross the barrier.

  6. Solutions • Solutions are made of solute and a solvent • Solvent - the liquid into which the solute is poured and dissolved. We will use water as our solvent today. • Solute - substance that is dissolved or put into the solvent. Salt and sucrose are solutes. • Concentration Gradient- conentration diference across the membrane. • Equilibrium- • concentration of molecules is equal throughout the space • Molecule still move even in equalibrium

  7. Methods of Transport Across Membranes 1. Diffusion 2. Osmosis 3. Facilitated Diffusion 4. Active Transport

  8. Methods of Transport Across Membranes 1. Diffusion -passive transport - no energy expended 2. Osmosis - Passive transport of water across membrane 3. Facilitated Diffusion - Use of proteins to carry polar molecules or ions across 4. Active Transport- requires energy to transport molecules against a concentration gradient – energy is in the form of ATP

  9. Diffusion • Movement of molecules from an area of high concentration to an area of low concentration. • Movement from one side of a membrane to another, un-facilitated

  10. 1 4 2 3 Diffusion (water) • Solute molecules moving from an area of high concentration to an area of low concentration • Random motion drives diffusion • Movement is based on kinetic energy (speed), charge, and mass of molecules • Equilibrium is reached when there is an even distribution of solute molecules

  11. Diffusion

  12. Factors that affect diffusion • Concentration gradient • Size of molecules • Type of molecules • Chemical nature of the membrane

  13. Osmosis • WATER molecules difule across a membrane- high to low conc. Of WATER

  14. Osmosis

  15. Tonicity is a relative term • Hypotonic Solution - One solution has a lower concentration of solute than another.- water moves in • Hypertonic Solution - one solution has a higher concentration of solute than another. - Water moves out • Isotonic Solution - both solutions have same concentrations of solute.- water moves back and forth in equalibrium

  16. Plant and Animal Cells put into various solutions

  17. Single Cell organisms • Contractile Vacuoles collect excess water in the cell and excrete it • Animation • http://www.thaigoodview.com/library/contest2551/science04/45/2/cell/image/contractile_vacuole.gif

  18. Osmosis in Red Blood Cells Isotonic- equilibrium movement of water Normal cells Hypertonic- higher conc inside- water moves out plasmolysis- cells shrink Hypotonic- higher conc outside- water moves in Cytolysis- cells swell and burst

  19. Hypertonic Hypotonic Osmosis in Plant Cells Plasmolysis- cells are “wilted” Turgor pressure- cells are rigid

  20. Types of Transport

  21. Passive Transport • When a cell uses no energy to move particles across a membrane passive transport occurs • Particles go DOWN their concentration gradient. • Diffusion & osmosis are passive transport. Plasma membrane Concentration gradient

  22. Passive Transport by proteins • Passive transport of materials across the membrane using transport (carrier) proteins specific for each moleule is called facilitated diffusion. • Beneficial because it can move both directions Channel proteins Plasma membrane Concentration gradient

  23. Gated Ion Channels

  24. Diffusion through Ion Channels • Type of passive transport that involves membrane proteins known as ion channels: sodium (Na+), potassium (K+), calcium (Ca2+), chloride (Cl-) • Ion channels provide small passageways through which ions can diffuse. Each types of channel is specific for one type of ion. • Some are always open, others have gates which open and close in response to stimuli (stretching of cell membrane, electrical signals, chemicals in cytosol or external environment)

  25. Active Transport • active transport :Movement of materials through a membrane against a concentration gradient and requires energy from the cell. Cellular energy Carrier proteins Plasma membrane Concentration gradient Cellular energy

  26. Animation:http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_the_sodium_potassium_pump_works.htmlAnimation:http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_the_sodium_potassium_pump_works.html • Sodium Potassium Pump animation

  27. Transport of Large Particles • Endocytosis is a process by which a cell surrounds and takesin material from its environment. • The material is engulfed and enclosed by a portion of the cell’s plasma membrane. • Phagocytosis- “cell eating” • Pinocytosis- “cell drinking” • resulting vacuole with its contents moves to the inside of the cell • Exocytosis is the expulsion or secretion of materials from a cell. Endocytosis Exocytose

  28. This powerpoint was kindly donated to www.worldofteaching.com http://www.worldofteaching.com is home to over a thousand powerpoints submitted by teachers. This is a completely free site and requires no registration. Please visit and I hope it will help in your teaching.

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