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Cell Boundaries

This article discusses how cells regulate their internal environment through cell walls and cell membranes. It explains the composition and function of cell walls and membranes in different types of cells, such as plants, bacteria, and fungi. It also covers the processes of passive diffusion, facilitated diffusion, active transport, and osmosis.

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Cell Boundaries

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  1. Cell Boundaries

  2. Regulating Cell Environment • The cell has to be able to regulate its internal environment. • Its internal environment is very different than the external environments that it is bathed in. • Cells use cell walls and cell membrane to control its environment. • Most cells except for animal cells have cell walls. • They are composed of carbohydrates depending on the kingdom. • Cell walls are dead and are used to prevent the cells from bursting and give them structures.

  3. Some Cell Wall Carbohydrates • Bacteria-Muramic acid (modified sugars held with peptide cross linkages) • Plants-Cellulose • Fungi-Chitin

  4. Cell walls are porous and allow most anything to cross-the cell membrane is a barrier that regulates what gets “into or out of” the cell. • In plant cells, the first cell wall that is laid down is the primary cell wall and is elastic. The middle lamella is the layer holding adjacent cells together.

  5. Plant cells with soft tissue have only one cell wall. Harder cells lay down a secondary cell wall. • This is laid inside the primary cell wall and is thicker.

  6. Summary • Cell walls- found in all cells except animal cells. Gives cell shapes and prevents it from bursting. Porous most everything crosses wall. • Plants made of cellulose • Prokaryotes made of maramic acid • Fungi made of chitin • Plants may have 2 cell walls- primary wall elastic. Secondary cell wall hardened with lignin. Middle lamella hold cells together.

  7. All cells have cell membranes. The basic structure is a bilayer of phospholipids with proteins and cholesterol inserted in the layer. • This model is the fluid mosaic layer of cell membranes.

  8. Triglyceride: Dehydration Synthesis

  9. One H20 removed as the glycerol and fatty acid form a bond. So if we add two more fatty acids a total of how many H20 molecules are formed?

  10. Examine the two molecules to determine how Phospholipids are modified triglycertides Triglyceride Phospholipid

  11. Phospholipids are modified triglycerides Phospholipid with atoms illustrated: Phospholipids usually illustrated such as:

  12. How is triglyceride is modified to make a phospholipid? What is removed? What is added?

  13. Summary: All cells have cell membranes And it regulates what gets into and out of the cell. Structure is a bilayer of phospholipids with proteins and cholesterol in the layer. Called fluid mosaic model

  14. Basic Cell membrane Has two layers of phospholipids as seen below The phosphate heads are facing water-inside and outside the cell, keeping the hydrocarbons away from it

  15. Summary: Cell membrane • Phosphate heads face the water-inside and outside, the hydrocarbon tails face one another • Proteins are “stuck” in the membrane like a mosaic (intrinsic) or can be on the surface (extrinsic) • Functions of membrane proteins • 1.Used as transport • 2.Used as receptors or as enzymes • 3.Used as attachment for cytoskeleton

  16. Glycolipid

  17. Summary: Cell membranes • Cell membranes are semi permeable or (selectively permeable) because some molecules can pass the membrane and others can not • Permeable are molecules that can pass the membrane usually small molecules (O2 and CO2) and lipids like steroids • Impermeable are molecules that can not cross the membrane usually large molecules, polar molecules and ions

  18. Passive Diffusion • The molecules (CO2, O2, etc) involved are permeable to the membrane. • Predicting the net movement as if there was no membrane at all. The molecules move from high to low concentration. • In the first system, A is more concentrated on side 2 than side 1. • A is permeable • Net movement Side 2 to 1 • Equilibrium is reached • Equal movement on both sides

  19. Summary: • Passive diffusion- is the movement of permeable material across the membrane. • The net movement of material is from high concentration to low concentration until equilibrium is reached. Then the movement of material across the membrane will be equal in both directions

  20. Summary: Facilitated Diffusion • Smaller, charged or polar molecules (glucose, amino acids, etc.) are impermeable to the membrane. • A transport protein is needed. • The net movement is like passive diffusion moving from high to low concentration.

  21. Active Transport • Active transport-molecules are impermeable to the membrane • The molecules are moving against the concentration gradient (from low to high). • A transport protein and ATP are needed.

  22. Osmosis • Is a special case of movement of water. • When things are impermeable to the membrane, and not in equilibrium, water will move across the membrane to help reach equilibrium. • “Water likes to dilute”

  23. Terms • Hypertonic-higher concentration of solutes. Lower concentration of water • Hypotonic-lower concentration of solutes. Higher concentration of water • Isotonic-Two solutions that have equal solutes on both sides of the membrane

  24. What is happening and Why?

  25. Think pair share! • What is happening? • Animal cell? • Plant cell? • Why ? • Name the process • Net movement

  26. Movement of Molecules Using the Cell Membrane • Endocytosis- is movement of larger particles into the cell by use of membrane vesicles. • Two Types: • Phagocytosis-cell eating • Pinocytosis-cell drinking • Exocytosis-is the movement of larger particles out of the cell by use of membrane vesicles.

  27. http://highered.mcgraw-hill.com/olcweb/cgi/pluginpop.cgi?it=swf::535::535::/sites/dl/free/0072437316/120068/bio02.swf::Endocytosis%20and%20Exocytosishttp://highered.mcgraw-hill.com/olcweb/cgi/pluginpop.cgi?it=swf::535::535::/sites/dl/free/0072437316/120068/bio02.swf::Endocytosis%20and%20Exocytosis

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