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Understanding Cell Structure and Function

Learn about the different components of a cell including the plasma membrane, cytoplasm, organelles, and nucleus. Explore the various functions of the cell membrane and how it controls transport and communication. Understand the terminology related to body fluids and solutions. Discover the different types of cell transport, including passive diffusion, facilitated diffusion, active transport, osmosis, and vesicular transport. Gain knowledge about cell organelles such as the cytoskeleton, centrosome, cilia, flagella, ribosomes, endoplasmic reticulum, Golgi complex, lysosomes, peroxisomes, proteasomes, mitochondria, and nucleus. Lastly, explore the process of protein synthesis through transcription and translation.

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Understanding Cell Structure and Function

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  1. Cells Chapter 3

  2. Cell Structure • Plasma membrane • Cytoplasm: cytosol + organelles • Nucleus

  3. Figure 3.1

  4. Cell Membrane • Phospholipid bilayer • Cholesterol • Proteins • attached carbohydrates

  5. Figure 3.2

  6. Membrane Function • Barrier between inside and outside of cell • Controls entry of materials- Transport • Receives chemical and mechanical signals • Transmits signals between intra- and extra cellular spaces • Note the various proteins in figure

  7. Terminology: Body Fluid Pools • Intracellular (ICF) • 2/3 of total • Extracellular (ECF) -> • Between cells = Interstitial • In blood vessels = Plasma • In lymphatic vessels = Lymphatic

  8. Terminology: Solutions • Solvent- doing the dissolving • Mostly water • Solute- material dissolved • Concentration • Amount of solute in a given amount of solvent • Concentration gradient • Difference in concentration between 2 areas of solution

  9. Figure 3.3

  10. Cell Membrane Transport Slides 11-21 can be Interactively reviewed using the Wiley DVD: Interactions Exploring the Human Body 3.0 Software: Under Foundations>>Contents>>Cellular Level of Organization>>Transport Across the Plasma Membrane

  11. Passive transport: Diffusion • Requirements for Simple Diffusion • Concentration gradient of solute • Can diffuse across a membrane • either dissolve in the lipid membrane • e.g. O2, C O2, lipid soluble vitamins • if charged must go through channels • Specialized ion channels that can open and shut = (gated channels)

  12. Figure 3.4

  13. Figure 3.5

  14. Facilitated Diffusion • Requires a carrier in membrane • Only goes down concentration gradient • Saturates = maximum speed • Maximum speed dependent on carrier number

  15. Figure 3.6

  16. Active Transport • Requires a carrier • Requires energy (ATP) • Can transport up a concentration gradient • Critical for moving important ions • Major active transport in most cells = • Sodium-potassium (Na+/K+) pump

  17. Figure 3.9

  18. Osmosis • Diffusion of water • Must have a membrane • Membrane impermeable to a solute

  19. Figure 3.7

  20. Figure 3.8

  21. Transport in Vesicles • Requires energy • Involves small membrane sac • Endocytosis- importing materials • Exocytosis- exporting materials

  22. Cell organellesTable 3.2 • Cytoskeleton- Fig 3.11 • Flagella, Cilia & Centrioles- Motion • Endoplasmic reticulum- Fig. 3.14 • Golgi apparatus- Fig. 3-15 • Mitochondrion- Fig 3-16 • Nucleus, nucleolus, nuclear envelope- Fig. 3-17 • Vesicles, e.g. lysosome-

  23. Cytoplasm • Cell contents • Includes organelles and Cytosol • Excludes nucleus

  24. Cytoskeleton • Maintain shape of cell • locate organelles • change cell shape • Includes: microfilments, intermediate flilments, microtubules

  25. Figure 3.11

  26. Centrosome • Centriole • Pericentiolar material

  27. Figure 3.12

  28. Cilia and flagella • Specialized for motion • Flagella- single • Cilia in groups • Found in respiratory system- move mucus

  29. Ribosomes • Sites of protein synthesis • Ribosomal RNA (rRNA) • Ribosomal Proteins • Can be attached to endoplasmic reticulum or free in cytosol

  30. Endoplasmic Reticulum- • Synthesis and intracellular transport • lipid synthesis- all • Protein synthesis- rough E.R. • Protein modification • transport around cell

  31. Figure 3.14

  32. Golgi Complex • Modify and package proteins • E.g. lipoproteins and glycoproteins • Some packaged into vesicles=> • Lysosomes or export by exocytosis

  33. Figure 3.15

  34. Small bodies • Lysosomes- contain digestive enzymes • Peroxisomes- oxidize for detoxification • Abundant in liver • Proteasomes- digest proteins

  35. Mitochondrial function • Energy (ATP) production • Where oxygen is consumed • where nutrients are “burned”

  36. Figure 3.16

  37. Nucleus • Round or oval structure • Surrounded by nuclear envelope • Openings = Nuclear pores • Can include a nucleolus- make ribosomes • Store genetic material • copy information for transfer • to new cells • to the cytosol for protein synthesis

  38. Figure 3.17 part 1

  39. Figure 3.17 part 2

  40. Protein Synthesis • 2 steps • Nuclear = transcription • Cytoplasmic = translation

  41. Protein synthesis Slides 42-52 can be Interactively reviewed using the Wiley DVD: Interactions Exploring the Human Body 2.0 Software: Under Foundations>>Contents>>Cellular Level of Organization>>Protein Synthesis

  42. Figure 3.19a

  43. Figure 3.19b

  44. Transcription • In nucleus • RNA polymerase transcribes DNA into RNA=> • 1. messenger RNA (mRNA) • Directs synthesis of polypeptide • 2. Ribosomal RNA • Part of ribosomes • Transfer RNA (tRNA) • Carries amino acids to ribosome for reaction

  45. Translation • Requires 3 different RNAs • Message RNA -from nucleus (mRNA) • Transfer RNA to carry amino acids (tRNA) • Ribosomes to do the actual work containing ribosomal RNA (rRNA)

  46. Figure 3.20

  47. Figure 3.20 part 1

  48. Figure 3.20 part 2

  49. Figure 3.20 part 3

  50. Figure 3.20 part 4

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