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Cell Membrane & Homeostasis
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CELL MEMBRANE FUNCTION and STRUCTURE The CELL MEMBRANE is chiefly responsible for maintaining homeostasis inside a living cell using different methods to transport molecules in and out of the cell. The CELL MEMBRANE is chiefly responsible for maintaining homeostasis inside a living cell using different methods to transport molecules in and out of the cell. Too much water can burst the cell Too much water can burst the cell Too many wastes can poison the cell Too many wastes can poison the cell The cell cannot tolerate any great variations in ion conditions. The cell cannot tolerate any great variations in ion conditions.
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http://www.goldiesroom.org/AP%20Biology/AP%20Lecture%20Notes%20pdf/LN014--Ch05--Cell%20Transport.pdf
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DESCRIPTION The fluid mosaic model (S.J Singer) selectively-permeable: allows some substances in all the time, some only when needed, excludes others, allows one-way flow of some. The fluid mosaic model (S.J Singer) selectively-permeable: allows some substances in all the time, some only when needed, excludes others, allows one-way flow of some. Fluid portion is a double layer of phospholipids, called the phospholipid bilayer. Fluid portion is a double layer of phospholipids, called the phospholipid bilayer. large transport proteins large transport proteins energy is required from the cell energy is required from the cell aid in communication as well as identification aid in communication as well as identification
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Phospholipid bilayer Phospholipids contain a hydrophilic head and a non-polar hydrophobic tail Phospholipids contain a hydrophilic head and a non-polar hydrophobic tail Phospholipids are not bonded to each other, which makes the double layer fluid. Phospholipids are not bonded to each other, which makes the double layer fluid. Cholesterol embedded in the membrane makes it stronger and less fluid. Cholesterol embedded in the membrane makes it stronger and less fluid.
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Proteins Embedded in Membrane Serve Different Functions Transport Proteins Transport Proteins regulate movement of substance regulate movement of substance Channel Proteins Channel Proteins form small openings for molecules to diffuse through like water form small openings for molecules to diffuse through like water Carrier Proteins Carrier Proteins binding site on protein surface "grabs" certain molecules and pulls them into the cell binding site on protein surface "grabs" certain molecules and pulls them into the cell
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Receptor Proteins Receptor Proteins triggers that set off cell responses (such as release of hormones or opening of channel proteins) triggers that set off cell responses (such as release of hormones or opening of channel proteins) Recognition Proteins - ID tags, to identify cells to the body's immune system Recognition Proteins - ID tags, to identify cells to the body's immune system
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DEFINITIONS: Diffusion: movement of molecules from region of high concentration to low concentration Diffusion: movement of molecules from region of high concentration to low concentration Diffusion Gradient: the concentration spectrum (difference) of solute molecules from high concentration to low concentration. Diffusion Gradient: the concentration spectrum (difference) of solute molecules from high concentration to low concentration. Osmosis: diffusion of water molecules across a membrane from high water amounts (low solute) to low water amounts (high solute). Osmosis: diffusion of water molecules across a membrane from high water amounts (low solute) to low water amounts (high solute). Osmosis and Diffusion Animation Osmosis and Diffusion Animation Osmosis and Diffusion Animation Osmosis and Diffusion Animation
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DEFINITIONS: Cell membranes are completely permeable to water. Cell membranes are completely permeable to water. The environment the cell is exposed to can have a dramatic effect on the cell. The environment the cell is exposed to can have a dramatic effect on the cell. Solute: a dissolved molecule in water. Solute: a dissolved molecule in water. Eg. Sodium chloride dissolved in water makes a saline solution. The sodium chloride is the solute. The water is the solvent. Eg. Sodium chloride dissolved in water makes a saline solution. The sodium chloride is the solute. The water is the solvent.
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DEFINITIONS: Common cell solutes include salts, sugars, some minerals (iron ions and calcium ions) and protons (electrons from acids). Common cell solutes include salts, sugars, some minerals (iron ions and calcium ions) and protons (electrons from acids). CONCENTRATION: amount of solute per unit volume of solution. The greater the mass or moles per unit volume, the more concentrated the solution. CONCENTRATION: amount of solute per unit volume of solution. The greater the mass or moles per unit volume, the more concentrated the solution.
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3 Osmotic Solution Terms
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Isotonic Same concentration of solute surrounding a cell as inside the cell. Same concentration of solute surrounding a cell as inside the cell. When a cell is placed in an isotonic solution, the water diffuses into and out of the cell at the same rate. When a cell is placed in an isotonic solution, the water diffuses into and out of the cell at the same rate. The fluid that surrounds the body cells is said to be “isotonic”. The fluid that surrounds the body cells is said to be “isotonic”.
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Hypotonic The surrounding solution contains a lower concentration of solute compared to the cell The surrounding solution contains a lower concentration of solute compared to the cell When a cell is placed in a hypotonic solution, the water diffuses into the cell, causing the cell to swell and possibly explode in animal cells. When a cell is placed in a hypotonic solution, the water diffuses into the cell, causing the cell to swell and possibly explode in animal cells. Plant cells have a strong cell wall that prevents explosions. Plant cells have a strong cell wall that prevents explosions. Plant cell central vacuoles will fill to maximum and push against the cell wall – this is called high turgor pressure. Plant cell central vacuoles will fill to maximum and push against the cell wall – this is called high turgor pressure.
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Hypertonic The surrounding solution contains a higher concentration of solute relative to the cell. The surrounding solution contains a higher concentration of solute relative to the cell. When a cell is placed in a hypertonic solution, the water diffuses out of the cell attempting to match the solute concentration outside of it, causing the cell to shrivel. When a cell is placed in a hypertonic solution, the water diffuses out of the cell attempting to match the solute concentration outside of it, causing the cell to shrivel. The fluid surrounding the body cell is said to be “hypertonic”. The fluid surrounding the body cell is said to be “hypertonic”. Concentration Animation Concentration Animation Concentration Animation Concentration Animation
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TRANSPORT MECHANISMS 1. PASSIVE TRANSPORT 2. ACTIVE TRANSPORT 1. ENDOCYTOSIS 2. EXOCYTOSIS
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Types of Cellular Transport Passive Transport Passive Transport cell doesn’t use energy 1. Diffusion 2. Facilitated Diffusion 3. Osmosis Active Transport Active Transport cell does use energy 1. Protein Pumps 2. Endocytosis 3. Exocytosis high low Weeee!!! high low This is gonna be hard work!!
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1. Passive Transport (p. 198) Simple Diffusion - water, oxygen and other molecules move from areas of high concentration to areas of low concentration, down a concentration gradient. Simple Diffusion - water, oxygen and other molecules move from areas of high concentration to areas of low concentration, down a concentration gradient. Note – Osmosis is the diffusion of water Note – Osmosis is the diffusion of water
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1. Passive Transport (cont’d) Facilitation Diffusion - diffusion that is enabled by proteins (channel or carrier proteins) which bind onto required molecules so that they flow into the cell. Facilitation Diffusion - diffusion that is enabled by proteins (channel or carrier proteins) which bind onto required molecules so that they flow into the cell.
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Factors Affecting Rate of Diffusion
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1. Size 1. Size small molecules can slip through phospholipids bilayer easier than large molecules small molecules can slip through phospholipids bilayer easier than large molecules very large molecules may not be able to diffuse at all very large molecules may not be able to diffuse at all
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2. Concentration the greater the concentration gradient (bigger range) the quicker a material diffuses (makes the molecules want to move faster) – think of a crowded room the greater the concentration gradient (bigger range) the quicker a material diffuses (makes the molecules want to move faster) – think of a crowded room 3. Temperature In general as temperature increases – molecules move faster which translates into faster diffusion In general as temperature increases – molecules move faster which translates into faster diffusion
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2. Active Transport (p. 199) Involves moving molecules "uphill" against the concentration gradient, which requires energy. Involves moving molecules "uphill" against the concentration gradient, which requires energy. Uses carrier protein molecules as receptors. Uses carrier protein molecules as receptors. One may transport calcium ions another glucose molecules. One may transport calcium ions another glucose molecules. There are hundreds of these types of protein molecules. There are hundreds of these types of protein molecules. *Each one changes shape to accommodate a specific molecule.
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2. Active Transport (cont’d) Their activity can be stopped from transporting molecules with inhibitors (unfortunately, these are usually poisons) which: Their activity can be stopped from transporting molecules with inhibitors (unfortunately, these are usually poisons) which: either destroy the membrane protein either destroy the membrane protein or just plug it up or just plug it up http://www.biology4kids.com/files/cell2_activetran.html
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Sodium-Potassium Pump Pumps out 3 sodium atoms for ever 2 potassium atoms taken in against gradient in the cell. Pumps out 3 sodium atoms for ever 2 potassium atoms taken in against gradient in the cell.
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Exocytosis Moves large, complex molecules such as proteins out of the cell membrane. Moves large, complex molecules such as proteins out of the cell membrane. Large molecules, food, or fluid droplets are packaged in membrane-bound sacs called vesicles. Large molecules, food, or fluid droplets are packaged in membrane-bound sacs called vesicles.
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Endocytosis Endocytosis moves large particles (huge molecules or molecular conglomerates) into a cell. Endocytosis moves large particles (huge molecules or molecular conglomerates) into a cell.
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Phagocytosis Phagocytosis is another type of endocytosis used for massive transport. Cell membrane extends out forming pseudopods (fingerlike projections) that surround the particle. Phagocytosis is another type of endocytosis used for massive transport. Cell membrane extends out forming pseudopods (fingerlike projections) that surround the particle. Membrane pouch encloses the material & pinches off inside the cell making a vesicle. Membrane pouch encloses the material & pinches off inside the cell making a vesicle. Vesicle can fuse with lysosomes(digestive organelles) or release their contents in the cytoplasm Vesicle can fuse with lysosomes(digestive organelles) or release their contents in the cytoplasm
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Used by ameba to feed & white blood cells to kill bacteria. Known as “killer cells" Used by ameba to feed & white blood cells to kill bacteria. Known as “killer cells"
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Pinocytosis is another type of endocytosis Pinocytosis is another type of endocytosis Cell membrane surrounds fluid droplets Cell membrane surrounds fluid droplets Fluids taken into membrane-bound vesicle Fluids taken into membrane-bound vesicle Known as “cell drinking” Known as “cell drinking”
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Exocytosis is used to remove large products from the cell such as wastes, mucus, & cell products such as hormones and antibodies. Exocytosis is the process used by our memory cells (white blood cells that produce antibodies to fight infection). It is also used by our gland cells to secrete hormones when needed.
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Transport Flowchart Transport of Materials Across a Membrane Active PhagocytosisPinocytosis Ion Pump Facilitated Diffusion Osmosis Simple Diffusion Passive Endocytosis Exocytosis
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