Textbook Question
Which of the following prokaryotes is not pathogenic?
a. Chlamydia
b. Rhizobium
c. Streptococcus
d. Salmonella
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Ch. 16 Microbial Life: Prokaryotes and Protists
Taylor, Simon, Dickey, Hogan10th EditionCampbell Biology: Concepts & ConnectionsISBN: 9780136538783
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Table of contents
- Ch. 1 Biology: The Study of Scientific Life19
- Ch. 2 The Chemical Basis of Life17
- Ch. 3 The Molecules of Cells21
- Ch. 4 A Tour of the Cell20
- Ch. 5 The Working Cell17
- Ch. 6 How Cells Harvest Chemical Energy18
- Ch. 7 Photosynthesis: Using Light to Make Food15
- Ch. 8 The Cellular Basis of Reproduction and Inheritance22
- Ch. 9 Patterns of Inheritance17
- Ch. 10 Molecular Biology of the Gene13
- Ch. 11 How Genes Are Controlled13
- Ch. 12 DNA Technology and Genomics23
- Ch. 13 How Populations Evolve17
- Ch. 14 The Origin of Species19
- Ch. 15 Tracing Evolutionary History18
- Ch. 16 Microbial Life: Prokaryotes and Protists16
- Ch. 17 The Evolution of Plant and Fungal Diversity15
- Ch. 18 The Evolution of Invertebrate Diversity13
- Ch. 19 The Evolution of Vertebrate Diversity18
- Ch. 20 Unifying Concepts of Animal Structure and Function11
- Ch. 21 Nutrition and Digestion16
- Ch. 22 Gas Exchange16
- Ch. 23 Circulation17
- Ch. 24 The Immune System16
- Ch. 25 Control of Body Temperature and Water Balance20
- Ch. 26 Hormones and the Endocrine System10
- Ch. 27 Reproduction and Embryonic Development12
- Ch. 28 Nervous Systems10
- Ch. 29 The Senses12
- Ch. 30 How Animals Move19
- Ch. 31 Plant Structure, Growth, and Reproduction9
- Ch. 32 Plant Nutrition and Transport12
- Ch. 33 Control Systems in Plants15
- Ch. 34 The Biosphere: An Introduction to Earth's Diverse Environments15
- Ch. 35 Behavioral Adaptations to the Environment12
- Ch. 36 Population Ecology15
- Ch. 37 Communities and Ecosystems14
- Ch. 38 Conservation Biology14
Taylor, Simon, Dickey, Hogan10th EditionCampbell Biology: Concepts & ConnectionsISBN: 9780136538783Not the one you use?Change textbook
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Taylor, Simon, Dickey, Hogan 10th EditionCh. 16 Microbial Life: Prokaryotes and ProtistsProblem 10
Taylor, Simon, Dickey, Hogan 10th EditionCh. 16 Microbial Life: Prokaryotes and ProtistsProblem 10Chapter 16, Problem 10
Chlamydomonas is a unicellular green alga. How does it differ from a photosynthetic bacterium, which is also single-celled? How does it differ from a protozoan, such as an amoeba? How does it differ from larger green algae, such as sea lettuce (Ulva)?
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Chlamydomonas differs from a photosynthetic bacterium because it is a eukaryote, meaning it has a nucleus and membrane-bound organelles, while photosynthetic bacteria (e.g., cyanobacteria) are prokaryotes and lack these structures. Additionally, Chlamydomonas contains chloroplasts for photosynthesis, whereas photosynthetic bacteria use specialized structures like thylakoid membranes.
Chlamydomonas differs from a protozoan, such as an amoeba, because it is photosynthetic and contains chloroplasts, allowing it to produce its own food through photosynthesis. In contrast, protozoans like amoebas are heterotrophic and obtain nutrients by engulfing food particles through phagocytosis.
Chlamydomonas differs from larger green algae, such as sea lettuce (Ulva), in that it is unicellular, while Ulva is multicellular and forms larger, more complex structures. This difference reflects a higher level of organization and specialization in Ulva compared to Chlamydomonas.
Chlamydomonas has flagella, which it uses for motility, allowing it to move toward light sources (a behavior called phototaxis). In contrast, photosynthetic bacteria may use other mechanisms like gliding or lack motility altogether, and Ulva, being multicellular, is typically sessile and anchored to a substrate.
Chlamydomonas is a model organism for studying photosynthesis and flagellar movement due to its simplicity and eukaryotic structure, whereas photosynthetic bacteria are often studied for their prokaryotic photosynthetic mechanisms, and Ulva is studied for its ecological role in marine environments.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Cellular Structure
Chlamydomonas is a eukaryotic organism, meaning it has a complex cellular structure with a defined nucleus and membrane-bound organelles. In contrast, photosynthetic bacteria, like cyanobacteria, are prokaryotic, lacking a nucleus and organelles. This fundamental difference in cellular organization affects their metabolic processes and ecological roles.
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Photosynthesis Mechanisms
Both Chlamydomonas and photosynthetic bacteria perform photosynthesis, but they utilize different mechanisms. Chlamydomonas contains chloroplasts, where photosynthesis occurs using chlorophyll, while photosynthetic bacteria use different pigments and perform photosynthesis in the cytoplasm. This distinction influences their efficiency and adaptability to various environments.
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Organism Complexity
Chlamydomonas is a unicellular alga, while protozoans like amoebas are also unicellular but belong to a different kingdom (Protista) and exhibit more complex behaviors, such as movement through pseudopodia. Larger green algae, such as sea lettuce (Ulva), are multicellular and exhibit tissue differentiation, showcasing a higher level of complexity compared to Chlamydomonas.
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Related Practice
Textbook Question
Explain why prokaryote populations can adapt rapidly to changes in their environment.
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Textbook Question
What characteristic distinguishes true multicellularity from colonies of cells?
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Textbook Question
The bacteria that cause tetanus can be killed only by prolonged heating at temperatures considerably above boiling. This suggests that tetanus bacteria
a. Have cell walls containing peptidoglycan.
b. Secrete endotoxins.
c. Are autotrophic.
d. Produce endospores.
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Textbook Question
Which of the following experiments could test the hypothesis that bacteria cause ulcers in humans? (Assume each experiment includes a control group.) Explain what evidence would be provided by the results of the experiment.
a. Identify the microbes found in the stomachs of ulcer patients.
b. Treat a group of ulcer patients with antibiotics.
c. Place a group of ulcer patients on a strict low-acid diet.
d. Obtain stomach fluid from ulcer patents and feed it to mice.
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Textbook Question
In a process known as 'coral bleaching,' high water temperatures cause corals to expel the dinoflagellates that normally reside within their cells. How might coral bleaching affect coral reefs?
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