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Figure 7.0 Fluorescent stain of cell

Figure 7.0 Fluorescent stain of cell. Figure 7.1 The size range of cells. Table 7.1 Different Types of Light Microscopy: A Comparison. Figure 7.2 Electron micrographs. Figure 7.3 Cell fractionation. Figure 7.4 A prokaryotic cell. Figure 7.4x1 Bacillus polymyxa.

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Figure 7.0 Fluorescent stain of cell

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  1. Figure 7.0 Fluorescent stain of cell

  2. Figure 7.1 The size range of cells

  3. Table 7.1 Different Types of Light Microscopy: A Comparison

  4. Figure 7.2 Electron micrographs

  5. Figure 7.3 Cell fractionation

  6. Figure 7.4 A prokaryotic cell

  7. Figure 7.4x1 Bacillus polymyxa

  8. Figure 7.4x2 E. coli

  9. Figure 7.5 Geometric relationships explain why most cells are microscopic

  10. Figure 7.6 The plasma membrane

  11. Figure 7.7 Overview of an animal cell

  12. Figure 7.8 Overview of a plant cell

  13. Figure 7.9 The nucleus and its envelope 

  14. Figure 7.x1 Nuclei and F-actin in BPAEC cells

  15. Figure 7.10 Ribosomes

  16. Figure 7.11 Endoplasmic reticulum (ER)

  17. Figure 7.12 The Golgi apparatus

  18. Figure 7.13 Lysosomes

  19. Figure 7.14 The formation and functions of lysosomes (Layer 1)

  20. Figure 7.14 The formation and functions of lysosomes (Layer 2)

  21. Figure 7.14 The formation and functions of lysosomes (Layer 3)

  22. Figure 7.15 The plant cell vacuole 

  23. Figure 7.16 Review: relationships among organelles of the endomembrane system 

  24. Figure 7.17 The mitochondrion, site of cellular respiration

  25. Figure 7.18 The chloroplast, site of photosynthesis

  26. Figure 7.19 Peroxisomes

  27. Figure 7.20 The cytoskeleton

  28. Figure 7.21 Motor molecules and the cytoskeleton

  29. Table 7.2 The structure and function of the cytoskeleton

  30. Figure 7.x2 Actin

  31. Figure 7.x3 Actin

  32. Figure 7.x4 Actin and keratin

  33. Figure 7.22 Centrosome containing a pair of centrioles

  34. Figure 7.23 A comparison of the beating of flagella and cilia

  35. Figure 7.23x Sea urchin sperm

  36. Figure 7.24 Ultrastructure of a eukaryotic flagellum or cilium

  37. Figure 7.25 How dynein “walking” moves cilia and flagella

  38. Figure 7.26 A structural role of microfilaments

  39. Figure 7.27 Microfilaments and motility

  40. Figure 7.28 Plant cell walls

  41. Figure 7.29 Extracellular matrix (ECM) of an animal cell

  42. Figure 7.30 Intercellular junctions in animal tissues

  43. Figure 7.31 The emergence of cellular functions from the cooperation of many organelles

  44. Figure 27.7 Form and function of prokaryotic flagella

  45. Figure 27.x3 Prokaryotic flagella (Bacillus)

  46. Some youtube videos… • inner life of the cell video • inner life of the cell video--no narration • Bacterial flagellum • Ken Miller on bacterial flagella and intelligent design • cytoskeleton

  47. Figure 8.1 Artificial membranes (cross sections)

  48. Figure 8.2 Two generations of membrane models

  49. Figure 8.3 Freeze-fracture and freeze-etch

  50. Figure 8.4 The fluidity of membranes

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