1. The Cell—Anatomy & Division
Exercise 4
The Cell—Anatomy & Division

3. What is a cell?
Structural & functional unit of ALLLLLL living things
Different sizes & shapes
Different functions
Components may vary but have many common features

6. Plasma membrane (plasmalemma)
Cell Compartments
Plasma membrane (plasmalemma)
barrier
in/out of cell
Nucleus
“control center” of cell
DNA
Cytoplasm
Fluid AND other organelles

7. Figure 4.1a Anatomy of the composite animal cell.
Nucleus
Cytoplasm
Plasma membrane 7

8. Figure 4.1b Anatomy of the composite animal cell.
Endoplasmic reticulum
Nuclear envelope
Nucleus
Mitochondria
Chromatin
Nucleolus 8

9. Cytoplasmic Organelles
Chromatin (in nucleus)
DNA + proteins—threadlike form
Chromosomes (in nucleus)
Before mitosis, chromatin becomes tightly coiled, rod-shaped
Nucleolus
protein & RNA in nucleus

10. Figure 4.1b Anatomy of the composite animal cell.
Endoplasmic reticulum
Nuclear envelope
Nucleus
Mitochondria
Chromatin
Nucleolus 10

11. CHROMATIN
NUCLEOLUS
Lab Fig. 4-3

12. Lecture Fig. 3-14

13. Cytoplasmic Organelles
Ribosome
Made of RNA
Protein synthesis
Cytoskeleton (“support beams”)
Protein fibers
Centrioles: paired cylinders near nucleus
Microtubules: thin hollow tubes (transport things in the cell, rigidity)
Mitotic spindle forms between centrioles during mitosis

14. CENTRIOLES RIBOSOMES MICROTUBULES
Lab Fig. 4-3

15. Cytoplasmic Organelles
Cytoskeleton (“support beams”)
Microfilaments: tiny; cell shape
Intermediate filaments: medium, cell-stabilizers

16. INTERMEDIATE FILAMENTS
MICROFILAMENTS
INTERMEDIATE FILAMENTS
Lab Fig. 4-3

17. Cytoplasmic Organelles with Membranes
Nuclear membrane (envelope)
2-layered
Porous: holes for in/out
Mitochondria
2-layered membrane with inner folds
Powerhouse of cell
Food energy ATP energy

18. NUCLEAR MEMBRANE MITOCHONDRIA
Lab Fig. 4-3

19. Cytoplasmic Organelles with Membranes
ER: Canal network continuous with nuclear membrane
Smooth endoplasmic reticulum
Synthesizes lipids
Rough endoplasmic reticulum
Ribosomes attached to surface
Protein synthesis and transport
SMOOTH ER
ROUGH ER
Lab Fig. 4-3

20. Cytoplasmic Organelles with Membranes
Golgi apparatus
Cluster of flattened sacs near rough ER
Secretory vesicles
Secrete contents out of cell Or
Lysosome: digestive enzymes (digest foreign material, old cell parts)
Peroxisome: oxidase enzymes (use oxygen to detoxify—free radicals, kidney, liver)

21. GOLGI APPARATUS SECRETORY VESICLES
Lab Fig. 4-3

22. Figure 4.3 Structure of the generalized cell.
Nucleus
Chromatin
Nuclear envelope
Nucleolus
Nuclear pore
Plasma membrane
Smooth endoplasmic reticulum
Cytosol
Mitochondrion
Lysosome
Centrioles
Rough endoplasmic reticulum
Centrosome matrix
Ribosomes
Golgi apparatus
Microvilli
Secretion being released from cell by exocytosis
Microfilament
Microtubule
Intermediate filaments
Cytoskeletal elements
Peroxisome 22

23. Table 4.1 Summary of Structure and Function of Cytoplasmic Organelles

24. Cell Membrane Phospholipid bilayer Phospholipids Cholesterol Proteins
Hydrophobic tails
Hydrophilic heads
Cholesterol
Lipid, helps stabilize cell membrane
Proteins
Move around, aid in transport
“fluid mosaic model”

25. FLUID-MOSAIC MODEL PHOSPHOLIPID BILAYER CHOLESTEROL PROTEINS
HYDROPHOBIC TAILS
HYDROPHILIC HEADS
PROTEINS

26. Figure 4.2 Structural details of the plasma membrane.
Extracellular fluid (watery environment outside cell)
Polar head of phospholipid molecule
Cholesterol
Glycolipid
Glycoprotein
Nonpolar tail of phospholipid molecule
Glycocalyx (carbohydrates)
Lipid bilayer containing proteins
Outward-facing layer of phospholipids
Inward-facing layer of phospholipids
Cytoplasm (watery environment inside cell)
Integral proteins
Filament of cytoskeleton
Peripheral proteins 26

27. Cell Division: MITOSIS
Interphase
Prophase
Metaphase
Anaphase
Telophase
Cytokinesis

28. Microscope slides also

29. Interphase Early Prophase Late Prophase
Figure 4.4 The interphase cell and the events of cell division. (1 of 2)
Interphase
Early Prophase
Late Prophase
Polar microtubule
Centrosomes (each has 2 centrioles)
Plasma membrane
Early mitotic spindle
Spindle pole
Fragments of nuclear envelope
Aster
Nucleolus
Chromatin
Chromosome consisting of two sister chromatids
Centromere
Nuclear envelope
Kinetochore
Kinetochore microtubule 29

30. Interphase Early Prophase Late Prophase
Figure 4.4 The interphase cell and the events of cell division. (1 of 2)
Interphase
Early Prophase
Late Prophase
Polar microtubule
Centrosomes (each has 2 centrioles)
Plasma membrane
Early mitotic spindle
Spindle pole
Fragments of nuclear envelope
Aster
Nucleolus
Chromatin
Chromosome consisting of two sister chromatids
Centromere
Nuclear envelope
Kinetochore
Kinetochore microtubule 30

31. Metaphase Anaphase Telophase Cytokinesis
Figure 4.4 The interphase cell and the events of cell division. (2 of 2)
Metaphase
Anaphase
Telophase
Cytokinesis
Nucleolus forming
Contractile ring at cleavage furrow
Nuclear envelope forming
Spindle
Metaphase plate
Daughter chromosomes 31

32. Cell Division: MITOSIS
Interphase
Normal cell activities PRIOR to division
Then it gets the signal to divide
Copy DNA
Copy organelles
Copy centrioles
Lab Fig. 4-4

33. Cell Division: MITOSIS
Prophase
Chromosomes w/sister chromatids
Centrioles separated, spindle
Nuclear membrane breaks down
Lab Fig. 4-4

34. Cell Division: MITOSIS
Metaphase
middle
Lab Fig. 4-4

35. Cell Division: MITOSIS
Anaphase
Chromatids split, to opposite ends
Lab Fig. 4-4

36. Cell Division: MITOSIS
Telophase
Chromatin again
Spindle breaks down
Nuclear membrane
Lab Fig. 4-4

37. Cell Division: MITOSIS
Cytokinesis
Division of cytoplasm
2 new cells
each genetically IDENTICAL

38. Review Figure 4.1 38

39. Review Figure 4.2 39