1. CHAPTER 7: CELL STRUCTURE AND FUNCTION

2. (1665) Used compound microscope
7-1 Life Is Cellular
A. The Discovery of the Cell
1. Early Microscopes
Robert Hooke-
Anton van Leeuwenhoek-
2. The Cell Theory
Mathias Schleiden-
Theodor Schwann-
Rudolf Virchow-
(1665) Used compound microscope
to look at a slice of cork
(1674) Observed tiny living things in pond water
(1838) Concluded all plants are made of cells
Pasteur – biogenesis 1864
(1839) Stated all animals are made of cells
(1885) Concluded new cells come from existing cells **Pasteur’s work was in 1864

3. Cell Theory:  All living things are composed of _____
 Cells are the basic units of structure and function in living things
 New cells are produced from ____________
cells
Existing cells

4. Exploring the Cell 1. Electron Microscope (TEM & SEM) -Specimen placed in a vacuum Scanning Probe Microscope development of fine probe microscope -operates in _______________ -can even show samples in solution
ordinary air

5. C. Prokaryotes and Eukaryotes
cells vary in size from _________________- ___________________
viruses are not cells
0.2 micrometers
1000 micrometers
Prokaryotic cell
Eukaryotic cell
Cell membrane
Cytoplasm
Cell membrane
Cytoplasm
Organelles
Nucleus

6. Membrane bound organelles
Prokaryotes
Common to Both
Eukaryotes
pro=__________
karyote= kernel (nucleus)
generally smaller
less complicated no
Ex: Kingdom
Monera
- Eubacteria
- Archaea
contain __________
Eu= ___________
Karyote=kernel (nucleus)
Generally larger
Contain membrane bound organelles (“little organs”)
Ex:
before
true
DNA
Circular
Cell membrane
Linear
Ribosomes
Membrane bound organelles
Cytoplasm
unicellular
multicellular
unicellular
Plants, animals, fungi, and protists

7. Eukaryotic Cell vs. Prokaryotic cell

8. 7-2 Eukaryotic Cell Structure(chart)
Venn Diagrams
Section 7-2
Prokaryotes
Eukaryotes
Nucleus
Endoplasmic reticulum
Golgi apparatus
Lysosomes
Vacuoles
Chloroplasts
Mitochondria
Cytoskeleton
Cell membrane
Contain DNA
Ribosomes
Cytoplasm
Cell Wall
Animal Cells
Plant Cells
Cell membrane
Ribosomes
Nucleus
Endoplasmic reticulum
Golgi apparatus
Vacuoles
Mitochondria
Cytoskeleton
Cytoplasm
Cell Wall
Chloroplasts
Central Vacuole
Pro >> Eu
Plant>Animal>Both
Centrioles
Lysosomes

9. Rough endoplasmic reticulum
Nucleus
Ribosomes
Smooth endoplasmic reticulum
Golgi apparatus
Microtubule
Central vacuole
Not in animal cells
Intermediate filament
Cytoskeleton
Chloroplast
Microfilament
Cell wall
Mitochondrion
Peroxisome
Plasma membrane
Figure 4.5B

10. An animal cell Smooth endoplasmic reticulum Nucleus
Rough endoplasmic reticulum
Flagellum
Not in
plant cells
Lysosome
Centriole
Ribosomes
Peroxisome
Golgi apparatus
Microtubule
Plasma membrane
Cytoskeleton
Intermediate filament
Microfilament
Mitochondrion
Figure 4.5A

11. 7-3 Cell Boundaries
A. Cell Membrane
Regulates what ___________ and __________ the cell
Provides
Composed of a ______________
__________________ are embedded in the bilayer;
_________________ are attached to some of the proteins; allows cells to __________ one another.
enters
leaves
protection and support
lipid bilayer
Protein molecules
form channels and pumps to move material across the cell membrane.
Carbohydrates
identify

12. CELL MEMBRANE “FLUID MOSAIC” ID tags transport Phospholipids Outside
of cell
Inside
(cytoplasm)
Cell
membrane
Proteins
Protein
channel
Lipid bilayer
Carbohydrate
chains
CELL MEMBRANE
“FLUID MOSAIC”
ID tags
transport
Phospholipids

13. Cell Walls
Found in
Cell walls are porous enough to allow
Main function is to provide
Plant cell walls made of __________ (carbohydrate fiber)
plants, algae, fungi and many prokaryotes
water, oxygen, carbon dioxide easily
support and protection for the cell
cellulose

14. C. Diffusion Through Cell Boundaries
All living cells exists in a
Cell membranes regulate
Cell membranes are _____________________ (aka: _______________)
If substances can pass, then the cell
membrane =
If substances cannot pass, then the cell
membrane=
liquid environment.
the movement of molecules in and out of the cell.
selectively permeable
semipermeable
Permeable
impermeable

15. 60g salt/3L H2O= 1. Measuring Concentration Cytoplasm=
Example:12g salt/3L H2O=
60g salt/3L H2O=
Concentration gradient=
Water and other substances between the cell membrane and the nucleus.
mass of solute/volume of solution
4 g/L
20 g/L
5X more
concentrated
unequal distribution of particles

16. 2. Diffusion
Particles constantly
Particles move from a _____ concentration _____ a ____ concentration (with the concentration gradient); process is known as _________
Diffusion continues until
Equilibrium =
Diffusion depends upon random particle movements, substances diffuse across membranes ______ requiring the cell to use _______
collide and spread out randomly in solution
high to
low
diffusion
equilibrium is reached
When particles are evenly distributed in solution
without
energy
The movement of particles will continue to move equally across the cell membrane to maintain equilibrium.

17. Osmosis
 Osmosis =
H2O passes easily across most membranes
The diffusion of water through a selectively permeable membrane
Before
Osmosis
After
Osmosis
Selectively permeable membrane
water
solute

18. 1. How Osmosis Works
Left Beaker:
More sugar molecules on the ____ side (Highly concentrated)
The membrane is permeable to water but not sugar.
left
Low concentration on the right side.
Net movement of water from low concentration to high concentration.

19. “above strength” “same strength” “below strength”
TYPES OF SOLUTIONS
Hypertonic Solution Isotonic Solution Hypotonic Solution
“above strength” “same strength” “below strength”
High concentration of Equal concentration of Low concentration of Dissolved substances dissolved substances dissolved substances
In Solution in solution

20. Cells in a hypertonic solution
In a hypertonic solution, water leaves a cell by osmosis, causing the cell to shrink.
H2O
H2O
Water Molecule
Dissolved Molecule

21. Cells in a hypotonic solution
In a hypotonic solution, water enters a cell by osmosis, causing the cell to swell.
H2O
H2O
Water Molecule
Dissolved Molecule

22. Cells in an isotonic solution
In an isotonic solution, the concentration of dissolved substances in the solution is the same as the concentration of dissolved substances inside the cell.
H2O
H2O
Water Molecule
Dissolved Molecule

23. The effects of Osmosis on cells
Cells in a hypertonic solution
Cells in a hypotonic solution
Cells in an isotonic
solution

24. E. Facilitated Diffusion
Molecules, that cannot diffuse across the cell membrane’s lipid bilayer on their own, can move
Molecules still ___________________ concentration
With the help of protein channels
move from high to low

25. F. Active Transport
Movement of molecules
Requires
Needs
against a concentration gradient (from low to high)
energy
a transport protein or pump
Molecule to
be carried
Molecule
being carried
Energy

26. Large molecules and clumps of material can be
taken into the cell by a process known as
___________. The two kinds of endocytosis are:
1. Phagocytosis=
2. Pinocytosis=
___________= release of large amounts of material
endocytosis
‘Cell eating’
‘cell drinking’
Exocytosis
endo/exocytosis demonstration

27. Section 8.1 Summary – pages 195 - 200
Transport of Large Particles
Endocytosis is a process by which a cell surrounds and takes in material from its environment.
Nucleus
Digestion
Exocytosis
Endocytosis
Wastes removal
Section 8.1 Summary – pages

28. PASSIVE TRANSPORT ACTIVE TRANSPORT
Let’s Review:
interactive sites for cell membrane, diffusion, active, passive transport
PASSIVE TRANSPORT
ACTIVE TRANSPORT 1. 2. *
Simple diffusion (includes Osmosis)
Facilitated Diffusion
No ATP
ATP required
No ATP
High-Low
High-Low
Low-High
No protein
Needs protein
Needs Protein

29. 7-4 The Diversity of Cellular Life
A. Unicellular Organisms (single celled)
Unicellular organisms _________ multicellular organisms
Examples:
B. Multicellular Organisms (many celled)
Cells become ___________ to perform different tasks
Cells need to communicate and cooperate
outnumber
Yeast, algae, bacteria
specialized

30. C. Levels of Organization
 The levels of organization in a multicellular organism are:
individual
CELLS
TISSUES
ORGANS
ORGAN SYSTEMS

31. 1. Tissues=
Four types of tissue: -
Organs=
Ex. bicep muscle is made of muscle, connective, and nervous tissue
3. Organ Systems=
Group of similar cells that perform a particular function
muscle
epithelial
nervous
connective
Groups of tissues
Group of organs that work together to perform a specific function.