1. SPI.1.2 Distinguish between prokaryotic and eukaryotic cells.
Life is Cellular
SPI.1.1 Identify the cellular organelles associated with major cell processes.
SPI.1.2 Distinguish between prokaryotic and eukaryotic cells.

2. The Cell Theory All living things are composed of cells
Cells are the basic units of structure & function in living things
New cells are produced from existing cells

3. Prokaryotic Vs. Eukaryotic
No Nucleus
No Membrane Covered Organelles
Circular DNA
Eukaryotic
Nucleus
Membrane covered organelles
Linear DNA

4. Prokaryotic Cell

5. Eukaryotic Cell

6. Two Types of Eukaryotic Cells
Plant
Cell wall & membrane
Chloroplast & Mitochondria
Large Vacuole
Animal
Cell membrane
Mitochondria
Small to no vacuole

7. Eukaryotic Components
Cell Membrane (& Cell Wall)
Nucleus
Ribosomes
Endoplasmic Reticulum
Mitochondria (& Chloroplast)
Golgi Complex
Vesicle
Vacuole
Lysosome

8. Cell Membrane
Made of phospholipids
Hydrophobic vs. Hydrophilic

9. Cell Membrane Functions: Keep in cytoplasm Allow in nutrients
Excrete waste

10. Cell Wall
Found in plants and algae
Made of cellulose
Carb

11. Cell Wall Functions Strength Support Prevents the tearing of the
cell membrane

12. Nucleus Functions: Contains DNA Contains Nucleolus Control center
Stores genetic info
Instructs protein synthesis
Contains DNA
Contains Nucleolus
Make ribosomes

13. Ribosomes Makes proteins Smallest organelle No membrane
Proteins = amino acids
Smallest organelle
No membrane
Made of RNA

14. Cytoskeleton Network of filaments & tubes that cross in the cytosol
Functions
Give shape (tent)
Tracks to move items

15. Endoplasmic Reticulum
AKA – ER
Functions as the intracellular highway
Two types
Rough ER
Smooth ER

16. Rough ER Flattened sacs covered with ribosomes Produces:
Phospholipids
Proteins
Most abundant:
Digestive
Antibody producing

17. Smooth ER No ribosomes on surface Less than rough ER Functions
Produces estrogen & testosterone
Detoxifies in liver & kidney

18. Chloroplast Plants and algae Contains chlorophyll
Traps sunlight
Performs photosynthesis

19. Mitochondria Where most of the ATP is produced
Produced in the inner membrane
ATP= energy
Needs oxygen

20. Endosymbiotic Theory Mitochondria = aerobic bacteria
Mitochondria & chloroplast originated from a symbiotic relationship b/t prokaryotic & eukaryotic cells
Prokaryotic cells
Mitochondria = aerobic bacteria
Chloroplast = cyanobacteria

21. Endosymbiotic Theory Evidence Own DNA Double membrane
Binary Fission (independent)
Size
Own ribosomes

22. Golgi Apparatus
Process and ships out proteins & other materials out of the cell
Close to cell membrane
Modify the ER products
Add carb labels =
direction to other cells

23. Lysosomes Special vesicles that contain enzymes Originate from Golgi
Functions
Break down carbs, lipids, & proteins from food
Destroy worn out organelles
Rid cell of waste

25. Vacuoles Store water for the cell Large in plant cells
Supports the cell
Wilting

26. Movement Through Membranes
SPI.1.7 Predict the movement of water and other molecules across selectively permeable membranes.
SPI.1.8 Compare and contrast active and passive transport

27. Cell Membrane Lipid Bilayer Protein channels Carbohydrate chains
phospholipids
Protein channels
Allows molecules to pass
Carbohydrate chains
Cell to cell recognition

28. Selectively Permeable
Selective = picky
Permeable = allows things to pass through

29. Selectively Permeable

30. Solutions A homogenous mixture in a liquid form
Mixture = solute + solvent
Solute – dissolved particles
Solvent – dissolving liquid
Usually water
Solutions are formed by diffusion

31. Solutions
Solvent
Solution
Solutes

32. The Formation of a Sugar-Water Solution

33. Concentrations = 4 g/L __Mass of Solute__ Volume of Solution
Concentration of Solution =
Example: If you dissolve 12 grams of salt in 3 liters of water, what is the concentration?
4 g/L

34. Movement Across Membranes
Passive – NO energy required
Diffusion
Osmosis
Facilitated diffusion
Ion Channels
Active – Energy Required
Pumps
Endocytosis
Exocytosis

35. Diffusion Movement of particles across membranes
Move by concentration gradient
High conc.  Low conc.
No energy required
Goal = Equilibrium
Rate determined by steepness of gradient

36. Diffusion Demonstration
Dialysis tubing = selectively permeable membrane
Phenolthalien - Indicator
Base – pink
Iodine – indicator
Starch - black

38. Osmosis The diffusion of water across a membrane
Movement determined by solute concentrations
Hypotonic
Hypertonic
Isotonic

39. Hypotonic Solutions
LOWER concentration of solutes

40. Hypertonic Solutions
HIGHER concentration of solutes

41. Isotonic Solutions
Equal concentrations of solutes

42. Water Movement (Osmosis)
Water moves from hypotonic to hypertonic solution
Isotonic water moves both ways

43. Effects of Osmosis

44. Osmosis in Blood Cells

45. Facilitated Diffusion
Movement of specific molecules across the cell membrane by protein channels
No energy required
Moved by concentration gradients
Ex: Glucose

46. Active Transport
Movement of particles through proteins against the normal direction of diffusion
Lower conc.  higher conc.

47. Ion Pumps Na-/K+ pumps 3 Na- ions (inside) bind to carrier protein
Similar to channels but move AGAINST the conc. gradient
Na-/K+ pumps
3 Na- ions (inside) bind to carrier protein
ATP opens protein by changing channel shape
Na- released to outside and 2 K+ (outside) bind
Protein resumes its original shape – releasing K+ into cell

48. Endocytosis
Cells surround a particle and encloses it in a vesicle to bring it into the cell

49. Exocytosis
Vesicles formed in the ER or Golgi complex carry particles out of the cell by fusing membranes

50. Organization of Life
Chapter 7
Section 4

51. Unicellular Organisms
Single celled organism
Prokaryotes
Bacteria
Eukaryotes
Yeast
Colonial
Volvox

52. Multicellular Organisms
Organisms composed of many cells
Cells work as groups for specialized functions

53. Specialized Cells They will have specialized functions Examples Bone
Blood
Skin

54. Organization
Cell
Tissues
Organs
Organ Systems
Organism

55. Tissues
Examples

56. Organs
Animal
Stomach
Plants
Roots

57. Organ Systems Failure of one part can affect the others in the system
Digestive

58. Organism
Unicellular
Multicellular

59. After Organisms?
Populations
Communities
Ecosystem