Chapter 27: Bacteria and Archaea

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Name Period Overview 1. The chapter opens with amazing tales of life at the extreme edge. What are the masters of adaptation? Describe the one case you thought most dramatic. Concept 27.1 Structural and functional adaptations contribute to prokaryotic success 2. Which two domains include prokaryotes? 3. Let s focus on some general details about prokaryotes. a. Are they multicellular or unicellular? b. Compare their size relative to eukaryotic cells. c. What three shapes are most common? Label them on the figure. d. What is the composition of the typical bacterial cell wall? 4. A key feature of prokaryotic cells is the cell wall. What three functions does it provide for the cell? 5. Quick review! What material comprises the cell wall of plants? of fungi? 6. The cell walls of Archaeans are different. They lack but contain and. Copyright 2010 Pearson Education, Inc. - 1 -

7. Explain the difference between Gram-positive and Gram-negative bacteria. 8. What is a bacterial capsule? What functions may it serve? 9. Many prokaryotes are capable of directional movement. What is this called? 10. What bacterial feature makes this possible? 11. Under ideal conditions, how quickly can E. coli divide? What conditions check prokaryotic reproduction? 12. What three key features allow prokaryotic populations to consist of trillions of individuals? 13. Compare prokaryotes to eukaryotes in terms of the following characteristics: Size Genome Membranes Location of genome Plasmids Ribosomes Prokaryotes Eukaryotes Copyright 2010 Pearson Education, Inc. - 2 -

14. What are the small, circular, self-replicating pieces of DNA found in bacteria called? 15. Label the following structures of a typical prokaryote seen here: cell wall, sex pilus, circular chromosome, nucleoid region, ribosomes, flagella, capsule, and fimbriae. Sketch in a plasmid or two, and label them. For each structure, know the function. (Go to the end of the chapter, p. 573, for help with this figure.) 16. When conditions for survival are difficult, some species produce endospores. What are these? Can you name any species that form endospores? As a hint, consider what causes botulism or tetanus. Concept 27.2 Rapid reproduction, mutation, and genetic recombination promote genetic diversity in prokaryotes 17. You should now have some idea why there is so much potential for genetic diversity with bacterial populations. Although mutation is the major source of genetic variation in prokaryotes, listed below are the other three ways variation is introduced. Explain each one. Source of Variation Transformation Summary Explanation Transduction Recombination Copyright 2010 Pearson Education, Inc. - 3 -

18. Define transformation. This idea was first described by Frederick Griffith. (You read about his work in Concept 16.1.) 19. What is transduction? What is the vector for this process? 20. Compare and contrast transduction and transformation. 21. What is a sex pilus? What is the F factor? And how are the two related? 22. The F factor is an episome. This is a piece of DNA that can be integrated within the main chromosome of the bacterium, or able to exist as an independent plasmid. What is the bacterial cell called: when the F factor is in plasmid form? when it lacks an F plasmid? when it is integrated within the chromosome? 23. What occurs in bacterial conjugation? 24. When a mating bridge forms between an F+ cell and an F cell and the F plasmid is replicated and transferred, what is the status of the F cell afterward? Copyright 2010 Pearson Education, Inc. - 4 -

25. What is an Hfr cell? 26. How are Hfr cells created? 27. Summarize the transfer of genetic information from an Hfr cell to an F cell. 28. An understanding of R plasmids and antibiotic resistance will be important when you do a bacterial transformation lab. What are R plasmids? Concept 27.3 A great diversity of nutritional and metabolic adaptations have evolved in prokaryotes 29. Prokaryotes can be placed in four groups according to their mode of nutrition, which is how they take in carbon and how they obtain energy. List each group below, and summarize how each of them obtains energy. Place an ** by the heterotrophs. Mode of Nutrition Energy Source Examples 30. Compare the metabolic requirements of each group with respect to oxygen: obligate aerobes obligate anaerobes facultative anaerobes 31. To which of the above groups do you think the bacterium Clostridium tetani, the causative agent of tetanus, belongs? Copyright 2010 Pearson Education, Inc. - 5 -

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