1. CH.7 CELL STRUCTURE
AND FUNCTION

2. 7-1 Life is Cellular

3. 7-4 Diversity of Cellular LifePg

4. THE DIVERSITY OF CELLULAR LIFE
Single celled organisms are called unicellular organisms.
Organisms made of many cells are called multicellular organisms.
Cells of a multicellular organism can develop in different ways to perform different tasks. This process is called cell specialization.

5. LEVELS OF ORGANIZATION
In multicellular organisms, cells are the first level of organization.
Similar cells are grouped into units called tissues.
Many groups of tissues working together form an organ.
A group of organs that work together to perform a particular function is called an organ system.

6. cells
tissue
organ
Organ
system

7. Muscle Tissue
Muscle Cell
Organ
Organ System

8. CORK CELLS

9. 1, 2 & 3
THE CELL THEORY
In 1838, German botanist Matthias Schleiden concluded that all plants were made of cells.
In 1839, German biologist Theodor Schwann stated that all animals were made of cells.

11. In 1855, German physician Rudolf Virchow concluded that new cells could be produced only from the division of existing cells.
These discoveries, confirmed by other biologist, are summarized in the cell theory.

13. 1. All living things are composed of cells. 4
CELL THEORY STATES…
1. All living things are composed of cells.
2. Cells are the basic units of structure and function in living things.
3. New cells are produced from existing cells.

14. STOP & TWEET
In the form of a text or tweet write the cell theory in 80 characters or less.

15. PROKARYOTES and EUKARYOTES
5, 6, &7
PROKARYOTES and EUKARYOTES
Cells fall into two categories, depending on whether they contain a nucleus.
Eukaryotes (YOUkaryotes)- means “true nut.” Eukaryotes contain a nucleus
Prokaryotes (Pro=Before)- means “before nut.” Prokaryotes do not contain a nucleus

16. PROKARYOTIC CHARACTERISTICS8
PROKARYOTIC CHARACTERISTICS
Smaller than eukaryotic cells
Genetic info is not in a nucleus.
Some have a few internal membranes
Less complex than eukaryotic cells
They DO grow, reproduce, and respond to their environment.

17. Some Prokaryotes move with: Cilia – hair like structures 8
Some Prokaryotes move with:
Cilia – hair like structures
Flagella – whip like structure. (sperm)
Examples: Bacteria

19. EUKARYOTIC CHARACTERISTICS9
EUKARYOTIC CHARACTERISTICS
Larger than prokaryotes
Contain many structures and internal membranes.
Genetic info is contained in a nucleus.
Some live alone. Others live in vast multicellular organisms.
Examples: plants, animals, fungi, and protists.

23. Compare and Contrast
Prokaryotes
Eukaryotes

24. 10
PARTS OF THE CELL
The two main parts of the cell are: the nucleus and the cytoplasm.
The cytoplasm is the portion of the cell that is outside the nucleus.

26. THE NUCLEUS The nucleus is the control center of the cell.11
THE NUCLEUS
The nucleus is the control center of the cell.
contains the cell’s DNA and the code for making proteins and other important molecules.
is surrounded by a nuclear envelope composed of two membranes. The envelope is dotted with thousands of pores, which allow materials to enter and leave the cell.

28. Has a granular substance called chromatin.11
Has a granular substance called chromatin.
Chromatin consists of DNA bound to protein.

29. When a cell divides, the chromatin condenses to form chromosomes.11
When a cell divides, the chromatin condenses to form chromosomes.
These are the distinct structures that are passed from cell to cell…generation to generation.
Deep inside the nucleus is the nucleolus which is where assembly of ribosomes begins.

32. Topic Comparison Organelles Nucleus Nuclear Envelope Nuclear pores
Nucleolus
Chromatin
Cytoplasm

33. 7-2 Eukaryotic Cell Structure

34. 12
RIBOSOMES
Ribosomes make proteins. VERY IMPORTANT JOB!!

35. 12
Ribosomes are small particles of RNA and protein found throughout the cytoplasm.
Ribosomes produce proteins by following coded instructions that come from the nucleus.

38. ? QUESTION ?
WHAT DO RIBOSOMES PRODUCE ?
ANSWER: PROTEINS

39. ENDOPLASMIC RETICULUM13
ENDOPLASMIC RETICULUM
The endoplasmic reticulum is called the ER. It is the site where lipid components of the cell membrane are assembled, along with some proteins and other materials.

40. Rough ER = ribosomes found on the surface. 13
The portion of the ER involved in synthesis of proteins is called Rough ER.
Rough ER = ribosomes found on the surface.
Newly made proteins (membrane, lysosomal, and excreted) leave ribosomes and are inserted into the Rough ER, where they can be chemically modified.

41. 13
There are other parts of the ER called Smooth ER because it does not have ribosomes.
Smooth ER contains enzymes which synthesize lipids and are involved in the detoxification of drugs. (liver cells contain a lot of Smooth ER)

44. ? QUESTION ? WHAT IS THE ROLE OF THE ROUGH ER ?
ANSWER: TO SYNTHESIZE PROTEINS

45. 14
GOLGI APPARATUS
The Golgi Apparatus receives proteins from the Rough ER.
The job of the Golgi Apparatus is to modify, sort, and package proteins for storage or secretion outside the cell.
The Golgi Apparatus is like a customizing shop that puts on the final touches before proteins are shipped out.

48. ? QUESTION ?
Explain what service in Sugarland would be synonymous with the golgi apparatus (golgi body) in the cell?

49. LYSOSOMES Lysosomes are the clean up crew of the cell.15
LYSOSOMES
Lysosomes are the clean up crew of the cell.
They contain enzymes that break down and digest lipids, carbohydrates, and proteins.

52. ? QUESTION ? WHAT IS THE ROLE OF THE LYSOSOME ?
ANSWER: CLEAN UP THE CELL AND GET RID OF WASTE MATERIALS.

53. 16
VACUOLES
Vacuoles are structures that store materials such as water, salts, proteins, and carbohydrates.
Plant cells have vacuoles. They help each cell maintain water pressure to hold up heavy structures such as leaves and flowers.

54. 16
Some single-celled organisms have contractile vacuoles which regulates the water inside the cell.
Contractile vacuoles help cells maintain Homeostasis (“internal balance”)

55. Contractile Vacuole

58. ? QUESTION ? WHAT IS THE ROLE OF A VACUOLE ?
ANSWER: THEY STORE MATERIALS AND HELP PLANTS MAINTAIN THEIR STRUCTURE.

59. 17
CELLS AND THEIR POWER
Nearly all eukaryotic cells, including plants contain Mitochondria.
Mitochondria are organelles that convert the chemical energy stored in food into compounds that are more convenient.

62. 17
Be sure to thank your mother because almost all of your cells’ mitochondria came from her!!! They come from the cytoplasm of the ovum, or egg cell.
In plants chloroplasts are the organelles that capture the energy from the sunlight and convert it into chemical energy in a process called photosynthesis.

63. 18
In plants chloroplasts are the organelles that capture the energy from the sunlight and convert it into chemical energy in a process called photosynthesis.

66. 19
Both chloroplasts and mitochondria are the only organelles that have small DNA molecules.
Scientists believe that these two organelles may have been descendants of ancient prokaryotes at one time.

67. 20
CYTOSKELETON
The cytoskeleton is a network of protein filaments that help the cell maintain its shape.
Microfilaments are threadlike structures and made of a protein called actin.

68. 20 17
Microtubules are hollow structures that are made up of proteins called tubulins.
In animal cells, microtubules help develop centrioles, which are located near the nucleus and help in cell division.

71. 21
CELL MEMBRANE
The cell membrane regulates what enters and also leaves the cell AND also provides protection and support.
The cell membrane is made up of a phospholipid bilayer.

74. 22
CELL WALL
Many cells also produce a strong supporting layer around the membrane known as the cell wall.
Cell walls are present in plants, algae, fungi, and many prokaryotes.
The main function of the cell wall is to provide support and protection for the cell.

76. CELL WALL

77. Cell Wall vs. Cell Membrane
Compare and contrast the cell wall and the cell membrane.