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Tree of Life: Prokaryotes and Eukaryotes

Tree of Life: Prokaryotes and Eukaryotes. Biology/Env S 204 Spring 2009. Tree of Life: The Big Picture. The deepest divisions of life are very old The ancestors of all current diversity were single-celled and prokaryotic

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Tree of Life: Prokaryotes and Eukaryotes

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  1. Tree of Life:Prokaryotes and Eukaryotes Biology/Env S 204 Spring 2009

  2. Tree of Life: The Big Picture • The deepest divisions of life are very old • The ancestors of all current diversity were single-celled and prokaryotic • Prokaryotes had evolved by 3.5 billion years ago and ruled the planet for about 2 billion years • Eukaryotes appeared about 1.25 billion years ago

  3. Tree of Life: The Big Picture Bacteria Archeans Eukaryotes now Viruses? ca. 4 bya

  4. Tree of Life: The Big Picture Prokaryotes vs. Eukaryotes Bacteria Archeans (Archaea, Archaebacteria) Protists (Protoctists) Fungi Animals Plants Viruses?

  5. Prokaryotes • One-celled, no compartments within the cell (no nucleus) • Genetic material in a single, circular chromosome • Therefore only 1 copy of each gene per bacterium • A typical bacterium has 1,000-2,000 genes

  6. Eukaryotes • One-celled or many-celled, with compartments (e.g., a nucleus is present) • Genetic material in two to many linear, separate chromosomes in the nucleus • Normally two copies of each gene present in an individual in part of the life cycle • A eukaryote has about 50,000 genes on average • Much less metabolic diversity

  7. Tree of Life: Microorganisms Microorganisms are microscopic in size; include all prokaryotes (bacteria, archeans) and the single-celled eukaryotes (most protistans, some fungi, and some plants) as well as viruses.

  8. TOL: Viruses • Debate over whether viruses are living organisms or not • Some argue that they are pieces of genomes and therefore non-living biological entities • Others argue that viruses are degenerate lineages of bacteria living as obligate parasites

  9. TOL: Viruses • But viruses are functional biological units (protein coat + genetic material) • They: • Have genetic material • Replicate (but not independently) • Evolve • Occupy specific ecological niches • Exhibit variability

  10. TOL: Viruses Ca. 5,500 species formally recognized Est. 500,000 species exist So only 1% are known

  11. TOL: Prokaryotes • Two lineages: Bacteria and Archaea • Both are ancient • Most primitive members of each group are thermophiles (heat-lovers) suggesting that the common ancestor was also thermophilic • Differ mainly in membrane and cell wall structure, genes controlling protein manufacture

  12. TOL: Prokaryotes • Great metabolic diversity • Extremely important ecologically then and now • Responsible for the formation of the early atmosphere on Earth • Now control many key steps in nutrient cycles (e.g., nitrogen cycle)

  13. TOL: Prokaryotes • About 10,000 “species” recognized and named • Estimated to be anywhere from 400,000 to 3,000,000 species • Still no widely accepted species concept • “It’s a prokaryote world.” (Stephen J. Gould)

  14. TOL: Prokaryotes (examples) Bacteria Cyanobacteria (blue-green algae) Purple Bacteria Nitrogen-fixing bacteria Actinomycetes various groups of disease- causing bacteria Archeans (Archaea) Thermophiles (heat-lovers) Halophiles (salt-lovers)

  15. TOL: Bacteria • Widespread • Exhibit a wide variety of metabolisms • Important as producers, decomposers, disease-causing organisms and in nutrient cycling (e.g., nitrogen fixation) • May form symbiotic relationships (e.g., E. coli; lichens)

  16. TOL: Archeans • Typically found in many extreme environments • More widespread than previously thought • Includes extreme thermophiles (hot springs), methanogens (anaerobes), and halophiles (very salty habitats) • Thermus aquaticus is the source of Taq polymerase used in PCR

  17. TOL: Eukaryotes • First appeared about 1.25 billion years ago • Probably arose several times through independent endosymbiotic events • Earliest lineages are all microbial • Almost all exhibit sexual reproduction • Vast majority of known biodiversity is eukaryotic but we know some groups a lot better than others

  18. TOL: Eukaryotes Two main hypotheses explain the evolution of the nucleus: • Infolding of cell membrane in a prokaryote to enclose the genetic material • Capture of another prokaryote (endosymbiosis)

  19. TOL: Eukaryotes circular chromosome nucleus linear chromosomes prokaryotic cell proto-eukaryotic cell

  20. TOL: Endosymbiosis • Endosymbiosis = capture or lasting association of a prokaryote within a cell • Capture of a prokaryote able to do aerobic respiration mitochondria • Capture of a prokaryote able to do photosynthesis chloroplasts

  21. TOL: Endosymbiosis circular chromosome + aerobically respiring bacterium nucleus cell with a nucleus eukaryotic cell able to do aerobic respiration (a consumer) (not to scale)

  22. TOL: Endosymbiosis circular chromosome + photosynthetic bacterium eukaryotic cell able to do photosynthesis and aerobic respiration (a producer) eukaryotic cell (a consumer) (not to scale)

  23. TOL: Endosymbiosis • Mitochondria and chloroplasts have their own genetic material (just like their bacterial ancestors) and they can replicate (eukaryote cells normally have multiple mitochondria and chloroplasts) • Endosymbiosis leading to mitochondria may have happened only once, but it happened a number of times leading to chloroplasts • Lineages have also lost their chloroplasts

  24. TOL: Eukaryotes • Protists (protoctists) • Plants • Fungi • Animals

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