1. PROKARYOTES

3. I. Characteristics of Prokaryotes
NO NUCLEUS
Organized by their need for oxygen.
Obligate anaerobe -dies in the presence of oxygen
Obligate aerobes -need oxygen
Facultative aerobes- doesn’t need oxygen, but oxygen wont kill it.

4. I. Characteristics of Prokaryotes
3. Prokaryotes are classified by their shape. Bacillus- rod shaped Coccus- sphere shaped Spirillius- spiral shape

5. I. Characteristics of Prokaryotes
4. Prokaryotes may group together a) diplo- groups of 2 b) strepto- chains c) staphylo- grapelike clusters.

7. Names are based on shape & grouping
What is this prokaryotes name?

8. Names are based on shape & grouping
What is this prokaryotes name?
Streptococcus

9. II. Structure of Prokaryotes
Microscopic b/c unicellular
No Nucleus, No membrane bound organelles
Contains protein making ribosomes.
Single, circular chromosome in ‘nucleoid region’

10. II. Structure of Prokaryotes
5. Plasmids- DNA fragments in cytoplasm
Cell wall –protection/support, made of
peptidoglycan
7. flagella/cilia- movement (1 many flagella)
8. May have a sticky coating called a capsule for attachment to host cells or other bacteria.

12. III. Types of Prokaryotes
Archaea
Most ancient/primitive type of bacteria.
Live in very harsh environments
Have NO peptidoglycan in it’s cell wall
Gram negative
2. Eubacteria
Most numerous bacteria on earth.
Most likely to encounter eubacteria
LOTS of peptidoglycan in cell wall
Gram positive

13. IV. Variety in Prokaryotes
Photoautotroph-near surface to receive sunlight
chemoautotroph- make food from chemicals; found in oceans around hydrothermal vents
Nitrogen fixing- converts N gas into nitrates, a form of N plants can use.
Halophiles – live in extremely salty environments
Thermophiles- live in extremely hot or cold environments
Decomposers-break down dead stuff
Methanogens- digestive tract of animals.

14. IV. Variety in Prokaryotes
Chemoautotrophs-A
Halophiles-A

15. IV. Variety in Prokaryotes
Thermoacidophiles-A
Nitrogen Fixing-E

16. IV. Variety in Prokaryotes
Methanogens- (Archaea): create methane as a byproduct.

17. V. Reproduction/Survival Methods
Binary fission- asexual reproduction, 2 identical cells.
Conjugation- DNA is exchanged through a pili connecting bridge.
Endospore- protective coat that allows for their survival in unfavorable conditions (lies dormant until conditions are favorable again.)

18. Binary
Fission

22. VI. How do Bacteria help us?
Symbiotic relationships: E coli in intestinal tract makes vitamin k for us.
Fermentaion: produces yogurt, cheese, pickles, soy sauce.
Decomposers: putting N, c, H, H back into the soil for use by another organism.
Bioremediation-using bacteria to clean oil spills and other pollutants.
Making of drugs- insulin is produced in a lab via manipulating the DNA of common bacterium.

23. VII. How do bacteria harm us?
Some prokaryotes release toxins that destroy cells. As prokaryotes reproduce quickly, the toxin builds up in the body until the organism becomes sick overall.

24. VIII. How to prevent bacteria infections?
Antibiotics: break down bacterial cell walls.
Store and cook meats correctly.
Keeps hands clean and away from your face. (eyes, nose and mouth are easy places for bacteria to enter you.)

25. Note about antibiotics:
Overuse of antibiotics leads to bacterial resistance of the antibiotic.
Plasmids are easily mutated then shared via conjugation.
Leads to generations of bacteria which are no longer killed by the antibiotic.
Only use antibiotics when absolutely necessary.

26. IX. How do you know which bacteria has made you sick and what treatment to pursue?
Gram Staining will help identify which type of bacteria has infected you and what course of treatment will rid you of them.
Bacteria are treated with purple Crystal Violet and red Safranin stains.
Cell walls will either stain purple or reddish pink depending on the composition of the cell wall.

27. Gram Staining and Cell Walls
Gram Positive (+) bacterium
Gram Negative (-) bacterium

29. Gram Positive (+) Have a THICK layer of peptidoglycan in cell wall.
Peptidoglycan absorbs the purple dye easily.
CAN be treated with antibiotics.

30. Gram Negative (-) Have THIN layer of peptidoglycan in cell wall.
Purple stain is not absorbed, red Safranin is.
Cell wall with turn pink.
Much harder to treat with antibiotics.