2. Cells: Structure & Function

3. Microscope Invented! The first compound microscope was created around 1650 by Anton van Leeuwenhoek. Leeuwenhoek

4. Cells are discovered! The first cells seen were of cork. Robert Hooke viewed them under a simple microscope developed by Anton van Leeuwenhoek. Hooke described what he saw as “cells,” as those occupied by monks in monastaries Robert Hooke

5. Cell Theory Proposed by Schleiden, Schwann, & Virchow All organisms are composed of cells. All cells come from preexisting cells. Cells are the basic units of structure & function. Virchow

6. Cell Types: Prokaryotic: simple cells that do not have a membrane bound nucleus E. coli Staphlococcus

7. Cell Types: Eukaryotic: more advanced cells which do have a membrane bound nucleus. Paramecium Ameoba Euglena

8. Cell Size Cells tend to be microscopic because of diffusion. If cells become to large, particles cannot efficiently move in or out of the cell.

9. Diffusion

10. Typical Animal Cell

11. Typical Plant Cell

12. Cell Structures & their Function: The following slides contain the name of the cell organelle along with a picture you have glued onto the back of an index card. You are to write the name & function on the back of the picture.

13. Cell Wall Plant, Fungi, & some bacterial cells. Provides support & protection.

14. Chloroplast Plant cells, some protists & some bacteria. Site of photosynthesis (a process used by autotrophs to make sugars)

15. Centriole Animal cells only. Special microtubules (thin tubes of protein that can contract) used to separate chromosomes during cell division.

16. Lysosome Animal cells only. Special vacuole containing enzymes used to destroy pathogens (bacteria, fungi, viruses – anything considered deadly to the cell).

17. Golgi Body Packages materials to be secreted from the cell. Often described visually as a stack of pancakes.

18. Microfilaments & Microtubules Provide internal structural support. Involved in cell movements, internally & externally. Made of protein.

19. Mitochondria Provides energy from foods in the form of ATP. Referred to as the “Powerhouse” of the cell.

20. Nucleus Contains DNA, the molecule that provides instructions to build protein. Often referred to as the “control center” of the cell.

21. Nucleolus Located inside the nucleus. Site of RNA synthesis FYI – RNA is a “sister molecule” to DNA, the molecule responsible for your unique characteristics.

22. Plasma (Cell) Membrane Boundary of animal cells, next to the cell wall in plants. Controls the movement of particles in & out of the cell. Described as “selectively permeable.”

23. Ribosomes Site of protein synthesis. Not a membrane bound organelle.

24. Rough Endoplasmic Reticulum (ER) Transports the proteins made by its ribosomes throughout the cell.

25. Smooth ER Involved with the synthesis of lipids (fats & oils).

26. Vacuole Storage area for foods, water, & wastes.

27. Compound Light Microscope

28. Images from a CLM Elodea Red Blood Cells Copepod Radiolarian

29. Preparing a Temporary Wet Mount Clean the slide then handle slide by edges Put a drop of water on the slide Place specimen in drop of water Cover drop/specimen with glass coverslip

30. Types of Transport

31. Plasma Membrane Controls the movement of materials into or out of the cell.

32. Plasma Membrane It is the chemistry of the membrane that controls the movement of materials in or out. Parts of the membrane have a charge which repels ions Large molecules must enter through protein channels O 2, H 2 O, and CO 2 can all easily pass.

33. Passive Transport Movement of particles from an area of high concentration to an area of low concentration that does not require energy.

34. Types of Passive Transport: Diffusion Facilitated Diffusion Osmosis

35. Diffusion As before, movement of particles from high conctration to low. Affected by: 1. Temperature 2. Concentration 3. Pressure The higher 1,2,3, the faster the rate of diffusion. Diffusion Animation

36. Facilitated Diffusion The movement of particles through channel proteins in the membrane.

37. What Osmosis is Not….

38. Osmosis The diffusion of water into or out of a cell Dependent upon the concentration of particles inside & outside the cell. 3 different solutions in which cells can be exposed:

39. Isotonic “Iso” means equal. A cell placed into this type of solution will not gain or lose water. Example: Contact saline & your eyeball cells. This is the type of solution preferred by animal cells.

40. Hypotonic “Hypo-” means less particles. A cell placed in this type of solution will gain more water than it loses. Example: Tap water & eyeball cells. This type of solution is preferred by plants; it causes animal cells to lyse (burst).

41. Hypertonic “Hyper-” means more particles. A cell placed in this type of solution will lose more water than it gains. Example: A salt water solution & throat cells. Plant cells placed in this type of solution plasmolize (cell membrane rips away from cell wall) Animal cells will shrivel up.

42. When Membranes are Impermeable:

43. Elodea in a Hypertonic Solution:

44. Elodea in a Hypotonic Solution:

46. Active Transport The movement of particles against their normal flow (concentration gradient) Requires energy Analogy: rowing upstream.

47. Types of: Endocytosis: bringing in of particles, See p. 103. a.Pinocytosis - bringing in of liquids b.Phagocytosis - bringing in of large particles