1. Chapter 7: Cell Structure and Function
Honors Biology/Chemistry

2. The Discovery of the Cell
In 1665, Robert Hooke used an early compound microscope to look at a thin slice of cork, a plant material.
Cork looked like thousands of tiny, empty chambers.

3. Hooke called these chambers “cells.”
Cells are the basic units of life.

4. Overtime, the discoveries of multiple scientists were summarized in a single cell theory. The cell theory states:
All living things are composed of cells.
Cells are the basic units of structure and function in living things.
New cells are produced from existing cells.

5. Prokaryotes and Eukaryotes
Cells come in a variety of shapes and sizes.
All cells:
Are surrounded by a barrier called a cell membrane.
At some point they contain the nucleic acid, DNA.

6. Cells are classified into two categories, depending on whether they contain a nucleus.
The nucleus is a large membrane-enclosed structure that contains the cell's genetic material in the form of DNA.
The nucleus controls many of the cell's activities.

7. Prokaryotic cells:
Have genetic material that is not contained in a nucleus.
Do not have membrane-bound organelles.
Are generally smaller and simpler than eukaryotic cells.
Bacteria are prokaryotes.

8. Eukaryotic cells:
Contain a nucleus in which their genetic material is separated from the rest of the cell.
Are generally larger and more complex than prokaryotic cells.
Generally contain dozens of structures and internal membranes.
Many eukaryotic cells are highly specialized.
Plants, animals, fungi, and protists are eukaryotes.

10. Eukaryotic Cell Structure
Structures within a eukaryotic cell that perform important cellular functions are known as organelles.
Cell biologists divide the eukaryotic cell into two major parts: the nucleus and the cytoplasm.
The Cytoplasm is the portion of the cell outside the nucleus.

12. The Nucleus The nucleus is the control center of the cell.
The nucleus contains nearly all the cell's DNA and with it the coded instructions for making proteins and other important molecules.
Nuclear envelope
Nuclear pores
Nucleolus
Chromatin
The nucleolus is inside the nucleus and synthesizes ribosomes.

13. Ribosomes
One of the most important jobs carried out in the cell is making proteins.
Ribosomes are the organelles where protein synthesis takes place.
Ribosomes are small particles of RNA and protein found throughout the cytoplasm.

14. Ribosomes can be either free (floating in the cytoplasm) or attached (found attached to the folded membranes of the endoplasmic reticulum.)

15. Golgi Apparatus Appears of stacks of flattened membranes.
The Golgi Apparatus modifies, sorts, and packages proteins and other materials from the endoplasmic reticulum for storage in the cell or secretion outside of the cell.

17. Endoplasmic Reticulum
There are two types of Endoplasmic Reticulum:
Rough: Covered in ribosomes
Synthesis of proteins
Smooth: Lacking ribosomes
Synthesis of lipids for the cell membrane
Both types of Endoplasmic Reticulum help to transport materials throughout the cell.

19. Lysosomes Small organelles filled with enzymes.
Lysosomes function to digest macromolecules, old organelles, and other unwanted material.

20. Vacuoles
Store materials such as water, salts, proteins and carbohydrates.

21. Mitochondria
Organelles that convert the chemical energy stored in food into compounds that are more convenient for the cell to use.

22. Chloroplasts
Organelles that capture the energy from sunlight and convert it into chemical energy in a process called photosynthesis.

23. Cytoskeleton
A network of protein filaments that helps the cell to maintain its shape.
Also involved in movement.
Centrioles: small structures found in animal cells that assist in cell division.

24. Plant vs. Animal Cells
Eukaryotic cells can be divided into Plant and Animal cells.
Plant cells:
Have chloroplasts
Have a rigid cell wall outside of their cell membrane.
Lack centrioles
Have a single, large vacuole (central vacuole)
Animal cells:
Lack chloroplasts
Lack cell walls
Have centrioles
Have several small vacuoles (if any)

27. Cell Boundaries
All cells are surrounded by a thin, flexible barrier called a cell membrane.
Plant and bacterial cells also have a strong protective layer surrounding the cell membrane called a cell wall.

29. Cell Membrane
Regulates what enters and leaves the cell and also provides protection and support.
Known as a lipid bilayer because it is made of 2 layers of lipids.

30. In addition to lipids, cell membranes contain protein molecules that are embedded throughout the bilayer.
These proteins act as channels and pumps that move materials across the membrane.
Carbohydrates are found on some proteins and help cells to identify one another.

31. We say that the cell membrane is “selectively permeable” or “semi-permeable” because it controls what can enter and leave the cell.

32. Phospholipids
The lipids in the cell membrane are called phospholipids.
Contain a phosphate head and fatty acid tails.
The “head” of the phospholipid is polar, or hydrophilic, and the “tail” is non-polar, or hydrophobic.

34. Cell Walls Provide support and protection for the cell.
Found in plants, bacteria, and fungi.

35. Diffusion Through Cell Boundaries
Measuring Concentration
A solution is a mixture of two or more substances.
The substances dissolved in the solution are called solutes.
The concentration of a solution is the mass of solute in a given volume of solution, or mass/volume.

36. If you dissolved 12 grams of salt in 3 liters of water, the concentration would be 12g/3L, or 4 g/L.
The first solution is twice as concentrated as the second solution.

37. Food Coloring Demo!

38. Diffusion
Particles in a solution tend to move from an area where they are more concentrated to an area where they are less concentrated. (Down the concentration gradient
This process is called diffusion.
When the concentration of the solute is the same throughout a system, the system has reached equilibrium.
Animation

39. Diffusion happens randomly, and does not require energy
Diffusion happens randomly, and does not require energy. Therefore, diffusion is called a passive process.

40. Cucumber Demo

41. Osmosis
Some substances are too large or too strongly charged to pass through the lipid bilayer.
When the solute cannot pass through the membrane (the membrane is impermeable to the solute), water passes though the membrane in order to reach equilibrium.
Osmosis is the diffusion of water through a selectively permeable membrane.

42. Sugar is too large to fit through the selectively permeable membrane.
In order to reach equilibrium, water moves from an area of high water concentration (low solute concentration) to low water concentration (high solute concentration)

43. When the concentration of water and solute are the same on both sides of a membrane, we describe the two solutions as being isotonic.
Before osmosis occurs, we describe one solution as being hypertonic (higher concentration of solute - sugar) and one solution as being hypotonic (lower concentration of solute - sugar).
Water moves from a hypotonic solution (low sugar and high water) to a hypertonic (high sugar and low water) solution.

44. Which side of the beaker is hypertonic? Hypotonic?
In which direction will water move across the membrane in order to reach equilibrium?

46. Facilitated Diffusion
Some large molecules can actually pass through the membrane.
Cell membranes have substance-specific protein channels acting as carriers allowing (or...”facilitating”) certain molecules to pass through.
This process moves solute from high to low concentration and does not require energy.

48. Learning Check Compare and contrast the 3 types of passive transport:
Diffusion
Osmosis
Facilitated Diffusion

49. Active Transport
Sometimes cells must move materials against the concentration gradient.
From low to high solute concentration
This process usually utilizes protein pumps throughout the membrane and requires energy.

51. Larger molecules or even clumps of material may be transported by movements of the cell membrane as a whole unit.
Endocytosis: process of taking material into the cell by folding the cell membrane inward and forming pockets.

52. There are two types of endocytosis:
Phagocytosis: “Cell eating”; taking in solid materials.
Pinocytosis: “Cell drinking”; taking in liquid materials.

53. Exocytosis
The membrane of a vesicle filled with material fuses with the cell membrane, forcing the material out of the cell.

54. Learning Check
In what two ways does active transport differ from passive transport?