1. The Building Blocks of Life
Cells & Cell Organelles
The Building Blocks of Life

2. Cell Theory Cells first described by Hooke – 1665
First LIVING cells described by Leeuwenhoek
Schleiden – all plants made of cells
Schwann – all animals made of cells
Virchow – all cells come from pre-existing cells
Principles of Cell Theory
cells are the basic units of life
all living things are composed of cells
cells come only from other cells

3. animal cells plant cells
bacteria cells
Types of cells
Prokaryote
- no organelles
Eukaryotes
- organelles
animal cells
plant cells

4. Cell size comparison most bacteria eukaryotic cells 1-10 microns
Bacterial cell
Animal cell
most bacteria
1-10 microns
eukaryotic cells
microns
Animation
micron = micrometer = 1/1,000,000 meter
diameter of human hair = ~20 microns

5. Prokaryote/Eukaryote DNA comparison
Prokaryotes lack internal organization – NO organelles
Prokaryote DNA shaped as a closed ring floating in cytoplasm
Nucleoid region
Eukaryote DNA in linear chromosomes enclosed in a nucleus

6. Prokaryote/Eukaryote Cell Wall Comparison
Prokaryotes all have cell walls
Unique composition - peptidoglycan
Eukaryotes may or may not have cell walls
Animal cells – none
Plant cells – cell walls made of cellulose
Fungal cells – cell walls made of chitin

7. Prokaryote vs. Eukaryote
Cell Wall of peptidoglycan
No membrane bound organelles
Ribosomes are present
DNA in a ring, floating in the cytoplasm
May or may not have cell walls
Membrane bound organelles
DNA enclosed in a nucleus and arranged in linear chromosomes

8. Plant Cell vs. Animal Cell
Cell Wall of cellulose
Large Central Vacuole
Chloroplasts
No cell wall
Vacuoles are small and transient
No chloroplasts

9. Observing Cells – How We Know What We Know…
Light Microscopes
Remember Hooke and Van Leeuwenhoek
Magnification
Size of image
Resolving power
Clarity of image
Observing Organelles
Too small for light microscope
Electron Microscope
Scanning EM
External views
Transmission EM
Thin sections of specimen – internal views

10. TEM vs SEM – both are images of cells from a rabbit trachea (windpipe)
TEM vs SEM – both are images of cells from a rabbit trachea (windpipe). Cilia are visible.

11. Why are cells small?
With size increase, volume grows more than surface area.
Small objects have larger surface area:volume ratio
Cell/Plasma membrane functions as selective barrier
Enough oxygen, nutrients, wastes must pass in to service entire volume of the cell
Only so much “stuff” can pass through at a time.
Need a surface large enough to accommodate volume, thus cells have to be small.

12. Eukaryotic Cells and Complex Internal Membranes
Membranes create ORGANELLES
Partition cells into compartments
Provide separate “little rooms” so that incompatible processes can go on at the same time in the cell
Internal membranes of cells participate directly in metabolism
Enzymes are often built directly into membranes
Chemical reactions occur at such sites
All membranes are similar, but different
All made of phospholipid bilayer
But suited to specific functions due to embedded enzymes, etc.

13. Why study cells? Cells  Tissues  Organs  Bodies
bodies are made up of cells
cells do all the work of life!

14. The Work of Life
What jobs do cells have to do for an organism to live…
“breathe”
gas exchange: CO2 vs. O2
eat
take in & digest food
make energy
ATP
build molecules
proteins, carbohydrates, fats, nucleic acids
remove wastes
control internal conditions
respond to external environment
build more cells
growth, repair, reproduction & development
ATP

15. Stay Tuned for an in depth Tour of the Eukaryotic Cell!