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Transcript
Chapter 5 “Homeostasis and Cell Transport” Section 1: “Passive Transport” What part of a cell maintains homeostasis? Cell Membrane is selectively permeable Passive transport – movement of molecules across a cell membrane without energy expenditure. Types of Passive transport: 1. Diffusion 2. Osmosis 3. Facilitated Diffusion 4. Ion Channels 1. Diffusion – movement of molecules from an area of [high] to an area of [low]. High Low The steeper the slope, the faster the rate of diffusion. Therefore, the greater the concentration differential, the faster the rate of diffusion. Concentration gradient – difference in concentration between two areas - No energy is required to go from high to low [ ]. Totally driven by molecules’ kinetic energy – constant motion. • Movement of molecules continue until they reach equilibrium. • An increase in temperature increases the kinetic energy of the molecules, therefore diffusion occurs faster. – Why sugar “melts” faster in hot vs. cold water • Diffusion occurs across the cell membrane • Dependent upon: – size of molecules – size of membrane pores – chemistry of molecules (CO2 and O2) – nonpolar and noncharged except WATER 2. Osmosis = diffusion of water across a membrane - net movement of water from [high] ---> [low] - direction of water movement depends on the [ ] of solutes onInside two sides (inside the cell and Outside outside the cell) HYPERTONIC VS. HYPOTONIC Red Blood Cells in isotonic, hypotonic and hypertonic solutions (left to right) Isotonic Hypotonic Cytolysis Hypertonic Crenation Hypertonic • Hypertonic Solution: [Solute] outside the cell is higher than inside the cytosol – More dissolved particles outside of cell than inside of cell; more water inside • Hyper = more of something • Tonic = dissolved particles/solutes – Water moves out of the cell into solution – Cell shrinks – What happens when you put salt on a slug? – Salting meat Elodea Plasmolysis loss of turgor pressure and cytoplasmic structure due to water in a plant cell Hypotonic Hypotonic Solution: [Solute] outside is lower than inside cell – Less dissolved particles outside of cell than inside of cell; less water inside • Hypo = less, under • Tonic = dissolved particles/solute – Water moves into cell from solution – Cell expands (and may burst) • Isotonic Solution: – Solute concentration of solution equal to that of cell • No net water movement • Most cells exists in an isotonic external environment Quick Review… Turgor Pressure Plasmyolysis Real Concentration Problems 1) Paramecium live in freshwater. They have a 3% salt internal environment. How do they keep from exploding in this hypotonic environment? 2) Other organisms live in a salt water environment. How do they keep their cells from shriveling up? 3) What do plants do? 4) How do your kidneys work? Freshwater Problem http://www.youtube.com/watch?v=pahUt0R CKYc • • • • Plants Plants usually exist in a hypotonic environment. Cells don’t burst due to flexible and strong cell wall. Saltwater critters They pump out excess salt, or pump in water. Your kidneys Extremely important organs in maintaining osmotic balance (isotonicity) with body fluids. 3. Facilitated diffusion - Diffusion with assistance from carrier proteins. -can’t occur fast enough, chemistry is different, or too large to pass through pores. - transport may occur into or out of cell. - carrier proteins are specific to one type of molecule. Animation Steps in Facilitated Diffusion: 1. Carrier protein binds to molecule to be transported. 2. Carrier protein changes shape (shielding it from hydrophobic interior of bilipid layer). 3. Carrier protein releases molecule and goes back to its original shape. Occurs with glucose (that can’t pass through cell on its own). 4. Diffusion thru Ion Channels – Na+, K+, Ca2+, and Cl- cannot pass through the membrane. - Recall that ions cannot pass since they aren’t soluble in lipids. - Therefore, they need ion channels to provide a small passageway for them. - Conditions for ion channel gates to open. 1. Stretching of cell membrane 2. Electrical signals 3. Chemicals in cytoplasm or external environment Section 5.2 “Active Transport” • • • • Movement of molecules from [Low] to [High] Movement is against the gradient Energy is needed Cell Membrane “Pumps” • http://highered.mcgrawhill.com/sites/0072495855/student_view0/chapter2/animation__how_the_so dium_potassium_pump_works.html – Sodium – Potassium pump – – Transports Na+ and K+ up [ ] gradient – Important for transmission of signals between nerve cells Exocytosis and Endocytosis * Engulfing/releasing of macromolecules and food particles/wastes into/out of the cell membrane * Uses the cell membrane to make vesicles Animation 1 Animation 2 Endocytosis – Cells ingest external fluids, macromolecules and large particles. • Cell membrane surrounds material into a pouch. • Cell membrane around pouch pinches together to form a vesicle. • Vesicle may fuse with lysosome for digestion Two Types of Endocytosis: – Pinocytosis (cell drinking) if solutes or fluids are involved – Phagocytosis (cell eating) if large particles or whole cells are involved Occurs with bacteria, viruses or phagocytes (WBC) Exocytosis – Release of vesicles through cell membrane. May be proteins, waste materials, or indigestibles. • Vesicles fuse with membrane, release contents into environment • Proteins packaged by Golgi Apparatus into vesicles which fuse with membrane to release excess proteins • Animation