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Transcript
Cell Transport: Moving molecules in and out of the cell Plasma Membrane Phospholipid bilayer that surrounds all cells and certain organelles within the cell Phospholipid Hydrophilic Phosphate head Hydrophobic Fatty acid Tails Remember the Triglycerides? What’s the difference? In water what will happen? Water on outside of cell Water on outside of cell Also Water on Inside of cell Double layer allows: • All hydrophobic parts to be away from water • All hydrophilic parts to be near water Membrane – more than just phospholipids A little more than just phospholipids Plasma membrane contains: Proteins embedded in phospholipid bilayer; Cholesterol tucked between fatty acids Carbohydrate chains Why proteins? • Proteins increase contact with water and act as channels through which certain molecules can pass Why cholesterol? • Cholesterol affects fluidity. It stiffens the membrane and prevents solidification Why Carbs? Carbohydrate chains act as cell “ID” tags. Fluid Mosaic Model: theory that describes the composition of the membrane - Fluid because it is flexible; p-lipids and proteins can shift position - Mosaic because it is made of many small molecules that work together as a whole Membrane acts as a semi-permeable barrier (think bouncer!) some stuff passes right through the phospholipids: hydrophobic molecules (O2, N2, CO2) small polar molecules (H2O) some stuff stays out: - ions (Na+, Cl-, K+, Ca++) - small polar molecules (Sugars, Amino Acids, H2O) But don’t we need these?!?! We’re getting there…. ? ? So what are the general factors that determine how a molecule enters the cell? There are two general categories of transport: Passive transport: The easy way; no energy required; molecules just flow naturally across Active Transport: the hard way; energy required; molecules need to be pushed or carried across BROWNIAN MOVEMENT Molecules are ALWAYS moving Passive Processes: No energy needed • Diffusion: Movement of solutes from areas of high concentration to areas of low concentration until concentrations are equal. • Concentration Gradient = differences in Concentration Gaseous Diffusion No membrane needed High Conc. Low Conc. Think of it as molecules spreading out! Progression of Liquid Diffusion High Conc. Low Conc. ? Facilitated Diffusion – movement of solute from high concentration to low concentration BUT requires transport protein to move molecule that are too big or polar to get through the bilayer on their own Glucose is too big to fit through phospholipids and will be diffused through a transport protein to get into the cell Osmosis – A Passive Process where water moves across a cell membrane from an area that is hypotonic (lots of water, little solute) to an area that is hypertonic (little water, lots of solute) think of the water as trying to dilute the concentrated side to make the concentration even Weak Iced Tea Strong Iced Tea Move water until you get Two perfect Iced teas Tonicity – term used to compare the concentration of one solution to another - will determine where water goes 3 Conditions Hypotonic Isotonic Hypertonic The solution with the higher concentration is called Hypertonic. The solution with the lower concentration is called Hypotonic If the concentrations are equal, they are called isotonic Which is Hypertonic? 10% Salt Solution 20% Salt Solution Inside is Hypertonic Which is hypertonic? 20% Salt Solution 10% Salt Solution ? Outside is Hypertonic Isotonic: 20% Salt Solution 20% Salt Solution Isotonic Crenation Cytolysis Comparing Cell types chart Plasmolysis Vs. Turgidity in Plant cells - Turgor pressure: Pressure that the water INSIDE the cell puts on the cell wall. Supports plant A B A B Think about the cell membrane • Transport proteins work a lot like enzymes. The correct molecule “seats” it self (even if no energy is required) and a conformational change takes place. • This doesn’t happen with the phospholipid membrane. Things simply “pass through”. The higher the concentration difference the faster the rate of diffusion Question: • What will the graphs look like for the two substances that are going through the cell membrane? • How is diffusion rate (facililated vs. simple) impacted by the concentration of the solute? Active Transport What is it: Cell must use energy to force molecules to move across the membrane from a low concentration to a high concentration. When used: Usually used to move ions AGAINST the gradient (remember that ions can use facilitated diffusion with the gradient) Active Transport: Ion Transfer Example: Sodium:Potassium Pump Animation Goal: maintain NON-EQUILIBRIUM concentrations of ions! Found in: nerve cells http://highered.mcgrawhill.com/sites/0072495855/student_view0/chapter2/animation__how_the_sodium_pota ssium_pump_works.html Vesicle Transport Vesicle transport is different from Diffusion Osmosis Facilitated diffusion Active transport (using proteins) BECAUSE We are moving large quantities (many molecules) rather than individual molecules. The cell must package the material in a vesicle and bring it in or out of the cell depending on the goal. BULK Transport: the movement of large quantities at one time. REQUIRES ATP DOES NOT REQUIRE A Concentration Gradient Types of Vesicle Transport • The two types of vesicle transport depend on direction – • Moving materials into a cell in a vesicle is called endocytosis. • Moving materials out of a cell is called exocytosis. Bulk transport into cell PHAGOCYTOSIS (SOLIDS) Endocytosis PINOCYTOSIS (LIQUIDS) PHAGOCYTOSIS: “CELL EATING” PROTEINS, BACTERIA, DEAD CELLS ARE ENCLOSED IN A PL. MEMB. SAC. NEEDS ATP PINOCYTOSIS: “CELL DRINKING” PL. MEMB. SINKS BELOW A FLUID PARTICLE CONTAINING SMALL SOLUTES AND FUSES WITH PL. MEMB. FOMING A VESICLE OCCURS IN MOST CELLS, EXP: KIDNEYS AND INTESTINES Exocytosis – Bulk Transport out of cell Way of releasing large quantities of stuff from the cell including : Hormones, mucus and cell wastes NEEDS ATP