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I. Prokaryote Domains: Archaea and Bacteria

I. Prokaryote Domains: Archaea and Bacteria. A. Evidence of early divergence. 1. Archaea: are the “ancient” bacteria. 2. Bacteria (Eubacteria): are the “modern” bacteria. 3. Domain Eukarya: appears to have diverged from Archaea (after Bacteria).

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I. Prokaryote Domains: Archaea and Bacteria

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  1. I. Prokaryote Domains: Archaea and Bacteria A. Evidence of early divergence 1. Archaea: are the “ancient” bacteria 2. Bacteria (Eubacteria): are the “modern” bacteria 3. Domain Eukarya: appears to have diverged from Archaea (after Bacteria) - also possible that first eukaryote was fusion of Archaea and Bacteria

  2. B. Differences between Archaea and Bacteria Archaea have as much in common with Eukaryotes as with Bacteria

  3. II. Characteristics of Prokaryotes A. Shape 1. cocci a. streptococcus b. staphylococcus 2. bacilli

  4. 3. spiral a. vibrios (comma-shaped) b. spirilla (helical and short) c. spirochetes (longer and flexible)

  5. B. Structure 1. cell wall a. maintains cell shape and provides protection b. but may not prevent water loss c. may be encased in lipopolysaccharide membrane - the lipids may cause toxicity

  6. B. Structure 1. cell wall a. maintains cell shape and provides protection b. but may not prevent water loss c. may be encased in lipopolysaccharide membrane - the lipids may cause toxicity d. gram (-): has the membrane e. gram (+): lacks the membrane

  7. 2. pili a. surface adhesion b. adhesion to other bacteria c. sex pili - conjugation

  8. 3. circular DNA (single chromosome) - maybe plasmids also 4. flagella - simpler than eukaryotic ones

  9. C. Reproduction 1. binary fission

  10. C. Reproduction 1. binary fission 2. conjugation a. plasmid transfer b. replicated and passed through sex pilus c. used to pass on useful traits

  11. 3. endospores - anthrax, botulism

  12. D. Differences from eukaryotes 1. no true internal compartmentalization (organelles) 2. small size 3. usually just unicellular - sometimes cooperate metabolically

  13. D. Differences from eukaryotes 1. no true internal compartmentalization (organelles) 2. small size 3. usually just unicellular - sometimes cooperate metabolically - biofilms (surface-coating colonies)

  14. D. Differences from eukaryotes 1. no true internal compartmentalization (organelles) 2. small size 3. usually just unicellular - sometimes cooperate metabolically - biofilms (surface-coating colonies) 4. no rod-shaped chromosomes

  15. D. Differences from eukaryotes (cont’d) 5. binary fission vs. mitosis 6. simpler flagella 7. metabolic diversity a. autotrophs - photoautotrophs (get C from air) - chemoautotrophs (also get C from air) b. heterotrophs - photoheterotrophs (get C from organic compounds) - chemoheterotrophs (similar to animals)

  16. III. Types of Prokaryotes A. Archaea 1. extreme halophiles - extreme salinity (5x’s that of seawater) 2. extreme thermophiles - even at or above boiling - thermoacidophiles

  17. 3. methanogens - anaerobic - swamp gas (bubbles up from mud) - cow gas

  18. 4. many also live in less harsh environments - ocean (especially deep)

  19. B. Bacteria 1. proteobacteria a. large group containing gram(-) bacteria b. N2-fixers c. animal gut bacteria 2. chlamydias - urethritis (STD) - blindness

  20. 3. spirochetes - syphilis

  21. 3. spirochetes - syphilis - Lyme disease

  22. 4. gram-positives a. staph and strep (typically) b. many soil decomposers c. mycoplasmas - 2 million pneumonias/year US

  23. 5. cyanobacteria a. oxygen-producing photosynthesis b. major food source for aquatic/marine ecosystems c. probably responsible for the initial production of O2 on earth

  24. F. Diseases (Section 16.8) 1. attack with white blood cells

  25. F. Diseases 1. attack with white blood cells 2. antibiotics - resistant strains (13.15)

  26. IV. Viruses - not alive

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