Cellular Transport Cell Membrane and Cell Wall: ALL cells have a cell membrane made of a phospholipid bilayer embedded with proteins Cell Membrane lipid.

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Cellular Transport Cell Membrane and Cell Wall: ALL cells have a cell membrane made of a phospholipid bilayer embedded with proteins Cell Membrane lipid bilayer protein channel protein pump Layer 1 Layer 2 SOME cells have cell membranes and cell walls – ex: plants, fungi and bacteria Cell Membrane Cell Wall

Plant cells have a cell wall made of cellulose – that cellulose is fiber in our diet Bacteria and fungi also have cell walls, but they do not contain cellulose Cell membranes and cell walls are porous allowing water, carbon dioxide, oxygen and nutrients to pass through easily

Function of the Cell Membrane: separates the components of a cell from its environment—surrounds the cell “Gatekeeper” of the cell—regulates the flow of materials into and out of cell—selectively permeable helps cells maintain a stable internal balance called homeostasis

Passive Transport A process that does not require energy to move molecules from a HIGH to LOW concentration DDiffusion FFacilitated Diffusion OOsmosis

Diffusion is the movement of small particles across a selectively permeable membrane like the cell membrane until equilibrium is reached. These particles move from an area of high concentration to an area of low concentration. outside of cell inside of cell

Facilitated Diffusion is the movement of larger molecules like glucose through the cell membrane – larger molecules must be “helped” Proteins in the cell membrane form openings for large molecules to pass through called protein channels outside of cell inside of cell Glucose molecules

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Osmosis is the diffusion of water through a selectively permeable membrane like the cell membrane Water diffuses across a membrane from an area of high concentration to an area of low concentration. Semi-permeable membrane is permeable to water, but not to sugar

Solutions Solution - a mixture of substances that are dissolved into one another; it is very well mixed and only physically combined meaning it can be separated – Solvent – part of a solution that does the dissolving – Solute – part of a solution that is dissolved Solution types are based on the concentration of solute molecules

Hypertonic Solutions: contain a high concentration of solute relative to another solution (e.g. the cell's cytoplasm). When a cell is placed in a hypertonic solution, the water diffuses out of the cell, causing the cell to shrivel. Hypotonic Solutions: contain a low concentration of solute relative to another solution (e.g. the cell's cytoplasm). When a cell is placed in a hypotonic solution, the water diffuses into the cell, causing the cell to swell and possibly explode. Isotonic Solutions: contain the same concentration of solute as another solution (e.g. the cell's cytoplasm). 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 isotonic.

*note – water moves by osmosis toward the solution with the greatest solute concentration ( or lesser water concentration) to reach equilibrium ISOTONIC – solute concentration inside and outside the cell are equal Effect on cell – No net movement of water HYPERTONIC – solute concentration outside the cell is greater than the inside of the cell Effect on cell – water moves from high to low out of cell causing cell to shrink and shrivel More solute Less water More water Less solute More solute Less water More water Less solute HYPOTONIC – solute concentration outside the cell is less than the inside of the cell Effect on cell – water moves from high to low into the cell causing the cell to swell

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Active Transport Active transport is the movement of molecules from LOW to HIGH concentration. Energy (in the form of ATP) is required as molecules must be pumped against the concentration gradient. Proteins that work as pumps are called protein pumps. Ex: Body cells must pump carbon dioxide out into the surrounding blood vessels to be carried to the lungs for exhale. Blood vessels are high in carbon dioxide compared to the cells, so energy is required to move the carbon dioxide across the cell membrane from LOW to HIGH concentration. outside of cell inside of cell Carbon Dioxide molecules

NO ENERGY NEEDED: Diffusion Osmosis Facilitated Diffusion ENERGY NEEDED: Active Transport ANALOGY:

Food is moved into the cell by EndocytosisEndocytosis Wastes are moved out of the cell by Exocytosis Exotosis Endocytosis and Exocytosis is the mechanism by which very large molecules (such as food and wastes) get into and out of the cell