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Prokaryotes: Bacteria & Archaea

Prokaryotes: Bacteria & Archaea. A Troubled Taxonomy! Chapter 28 & pages 419 - 421. Lecture outlines on Black Board as pdf and ppt files. Why study these organisms?. Biomass & number of species! Disease Gene cloning Bioremediation Global change Oxygen Nitrogen cycle & pollution

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Prokaryotes: Bacteria & Archaea

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  1. Prokaryotes:Bacteria & Archaea A Troubled Taxonomy! Chapter 28 & pages 419 - 421 Lecture outlines on Black Board as pdf and ppt files

  2. Why study these organisms? • Biomass & number of species! • Disease • Gene cloning • Bioremediation • Global change • Oxygen • Nitrogen cycle & pollution • Model organisms for research • Extremophiles

  3. What do I think you should take away from our discussion of prokaryotes? • Tremendous diversity that allows prokaryotes to inhabit virtually all environments • Thus they posses great variations in genes and gene products that provide life essential functions in these environments

  4. Where do we find bacteria & archaea?

  5. Define Prokaryote • Characteristics: see Table 28.1 • Figures 7.1 through 7.5

  6. Table 28.1

  7. Fig 7.1 Draw the picture and tell the story

  8. Prokaryotic Features: • Supercoiled DNA • One or more circular chromosomes • Few associated proteins • Nucleoid region (vs. nucleus)

  9. Fig 7.3

  10. Prokaryotic Genome (pages 419 - 421) • Size of genome proportional to metabolic capabilities • Tremendous diversity of genes • Redundancy is common • Multiple chromosomes • Many small, extra-chromosomal DNAs called plasmids

  11. Genome size & metabolic capabilities • Mycoplasma - parasite that causes pneumonia • Acquires most nutrients from the host • Few enzymes, ergo few genes! • E. coli & Psuedomonas • Inhabits soils and humans! • Synthesizes almost all organic molecules

  12. Prokaryotic Genome (pages 419-21) • Size of genome proportional to metabolic capabilities • Tremendous diversity of genes • Many are unique to a species • Redundancy within a genome is common • Multiple chromosomes are not uncommon • Many small, extra-chromosomal DNAs called plasmids

  13. Plasmids • Small number of genes • Copied independently of chromosomal DNA • May or may not be necessary for growth • Site of antibiotic resistance • Allows for lateral transfer of genes • Even among different species!

  14. Fig 20.4: Lateral Gene Transfer

  15. Evidence for Lateral Gene Transfer between species • Stretches of DNA are more similar to those in genes of distantly related species than those more closely related. • The proportion of G-C base pairs to A-T base pairs in a gene is remarkably different from the base composition in the rest of the DNA

  16. Thermotoga maritima • Same habitats - deep sea hydrothermal vents • 25% of genome of this bacterium is closely related to genomes found in resident archaea • Occur in distinctive clusters in DNA

  17. Also…. • Evidence for prokaryotic parasites picking up genes from eukaryotic hosts! • Intracellular parasitic bacteriumChlamydia trachomatis • Contains ~ 35 eukaryotic genes • Mechanism? ?????

  18. What we are doing: • Table 28.1 - Differences among organisms of the three Kingdoms • Bacteria and Archaea: • Why we study them • Structure • Genetic diversity, how it is generated, and what are the consequences • See especially lateral gene transfer

  19. Summary: • Characterized Prokaryotes & Eukarotes & Archaea (Table 28.1) • Note: mechanisms of generating diversity in prokaryotes • Moving into Prokaryotic Diversity • Morphological • Metabolic

  20. Fig 5.5

  21. Other Prokaryotic Characteristics • Lack of compartmentalization or Organelles • Little cytoskeleton • Recent discovery of any cytoskeletal elements • Protein FtsZ

  22. Fig 11.8 (page 230): FstZ Filaments

  23. Protein FtsZ http://www.umass.edu/microbio/chime/pipe/ftsz/present/ftszinvivo.htm

  24. Organization and function of FstZ filaments in eubacteria McIntosh, J. R. et al. J Cell Sci 2010;123:3425-3434

  25. Phylogeny? Archaea? Prokaryotes but phylogenetically closer to Eukaryotes than to Bacteria

  26. Table 28.1

  27. Fig 28.12

  28. Fig 1.9 You are here

  29. What the heck are the Archaea? http://www.ucmp.berkeley.edu/archaea/archaea.html

  30. Archaea • No nuclear envelope • Cell wall made of unique polysaccharides • Unique plasma membrane lipids • Ribosomes and RNA polymerase similar to those found in Eukaryotes

  31. Looking for Archeae

  32. Some Archaea

  33. Fig 1.9 You are here

  34. Dr. Carl Woese: utilized rRNA sequences

  35. Fig 7.4: Bacterial Ribosome

  36. A word about rRNA…. http://www.biochem.uwo.ca/meds/medna/rRNA.html

  37. Human vs. E. coli 5S rRNA http://www.biochemj.org/bj/371/0641/3710641.pdf

  38. Table 28.1

  39. Fig 7.3

  40. Fig 5.3: Review of Sugar Structure

  41. Fig 5.4a:  linkage

  42. Table 5.1a: Starch

  43. Table 5.1c: Cellulose

  44. Table 5.1e: Peptidoglycan

  45. Function of cell wall: rigidity H2O High [solute] Bacterial cell Result = hydrostatic pressure for structure

  46. Table 5.1e: Peptidoglycan:Bacterial Cell Walls

  47. Table 5.1c: Cellulose:Eukaryotic & some Archaeacell walls

  48. Things to know to this point… • Table - differences among 3 major groups of organisms • Mechanisms for generating genetic diversity in Archaea and Prokaryotes • Types and structures of carbohydrates in extracellular cell walls • rRNA & FtsZ (I am pulling this stuff right out of your textbook!)

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