Textbook Question
Unlike purple and green phototrophic bacteria, cyanobacteria
a. Produce oxygen during photosynthesis.
b. Do not require light.
c. Use H₂S as an electron donor.
d. Have a membrane-enclosed nucleus.
e. All of the above
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Ch. 11 - The Prokaryotes: Domains Bacteria and Archaea
Tortora14th EditionMicrobiology: An IntroductionISBN: 9780138200398
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Table of contents
- Ch. 1 - The Microbial World and You18
- Ch. 2 - Chemical Principles20
- Ch. 3 - Observing Microorganisms Through a Microscope18
- Ch. 4 - Functional Anatomy of Prokaryotic and Eukaryotic Cells21
- Ch. 5 - Microbial Metabolism20
- Ch. 6 - Microbial Growth20
- Ch. 7 - The Control of Microbial Growth20
- Ch. 8 - Microbial Genetics19
- Ch. 9 - Biotechnology & DNA Technology20
- Ch. 10 - Classification of Microorganisms15
- Ch. 11 - The Prokaryotes: Domains Bacteria and Archaea14
- Ch. 12 - The Eukaryotes: Fungi, Algae, Protozoa, and Helminths17
- Ch. 13 - Viruses, Viroids, and Prions20
- Ch. 14 - Principles of Disease and Epidemiology21
- Ch. 15 - Microbial Mechanisms of Pathogenicity19
- Ch. 16 - Innate Immunity: Nonspecific Defenses of the Host20
- Ch. 17 - Adaptive Immunity: Specific Defenses of the Host20
- Ch. 18 - Practical Applications of Immunology20
- Ch. 19 - Disorders Associated with the Immune System19
- Ch. 20 - Antimicrobial Drugs19
- Ch. 21 - Microbial Diseases of the Skin and Eyes21
- Ch. 22 - Microbial Diseases of the Nervous System19
- Ch. 23 - Microbial Diseases of the Cardiovascular and Lymphatic Systems20
- Ch. 24 - Microbial Diseases of the Respiratory System20
- Ch. 25 - Microbial Diseases of the Digestive System20
- Ch. 26 - Microbial Diseases of the Urinary and Reproductive Systems19
- Ch. 27 - Environmental Microbiology20
- Ch. 28 - Applied and Industrial Microbiology19
Tortora14th EditionMicrobiology: An IntroductionISBN: 9780138200398Not the one you use?Change textbook
Chapter 11, Problem 7
Which of the following pairs is mismatched?
a. Anaerobic endospore-forming gram-positive rods—Clostridium
b. Facultatively anaerobic gram-negative rods—Escherichia
c. Facultatively anaerobic gram-negative rods—Shigella
d. Pleomorphic gram-positive rods—Corynebacterium
e. Spirochete—Helicobacter
Verified step by step guidance1
Step 1: Understand the characteristics of each bacterial genus mentioned in the pairs. This involves knowing their oxygen requirements, Gram stain reaction, shape, and special features such as spore formation or morphology.
Step 2: Analyze pair (a): Anaerobic endospore-forming gram-positive rods—Clostridium. Clostridium species are known to be anaerobic, form endospores, are gram-positive, and rod-shaped. This pair is correctly matched.
Step 3: Analyze pairs (b) and (c): Facultatively anaerobic gram-negative rods—Escherichia and Shigella. Both Escherichia and Shigella are gram-negative rods that can grow with or without oxygen (facultative anaerobes). These pairs are correctly matched.
Step 4: Analyze pair (d): Pleomorphic gram-positive rods—Corynebacterium. Corynebacterium species are gram-positive rods that often show pleomorphism (variable shapes). This pair is correctly matched.
Step 5: Analyze pair (e): Spirochete—Helicobacter. Spirochetes are a distinct group of bacteria characterized by their spiral shape and unique motility. Helicobacter, however, is a curved or spiral-shaped gram-negative rod but is not classified as a spirochete. Therefore, this pair is mismatched.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Bacterial Morphology and Gram Staining
Bacterial morphology refers to the shape and arrangement of bacteria, such as rods, cocci, or spirals. Gram staining differentiates bacteria into gram-positive (thick peptidoglycan layer) and gram-negative (thin peptidoglycan with outer membrane) groups, which is fundamental for classification and identification.
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Gram Stain
Oxygen Requirements of Bacteria
Bacteria vary in their oxygen needs: obligate anaerobes cannot tolerate oxygen, facultative anaerobes can grow with or without oxygen, and aerobes require oxygen. Understanding these categories helps in identifying bacterial genera based on their metabolic traits.
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Bacterial Taxonomy and Genus Characteristics
Each bacterial genus has defining traits, such as shape, gram reaction, oxygen tolerance, and unique features. For example, Clostridium are anaerobic gram-positive rods forming endospores, while Helicobacter is a gram-negative spiral (not a spirochete). Recognizing these traits aids in matching bacteria to their correct classification.
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Related Practice
Textbook Question
When Legionella was newly discovered, why was it classified with the pseudomonads?
a. It is a pathogen.
b. It is an aerobic gram-negative rod.
c. It is difficult to culture.
d. It is found in water.
e. None of the above
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Textbook Question
Which one of the following does not belong with the others?
a. Enterococcus
b. Lactobacillus
c. Staphylococcus
d. Streptococcus
e. All are grouped together.
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Textbook Question
Which of the following terms is the most specific?
a. bacillus
b. Bacillus
c. gram-positive
d. endospore-forming rods and cocci
e. anaerobic
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Textbook Question
Which of the following is an intracellular parasite?
a. Rickettsia
b. Mycobacterium
c. Bacillus
d. Staphylococcus
e. Streptococcus
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Textbook Question
Spirillum is not classified as a spirochete because spirochetes
a. do not cause disease.
b. possess axial filaments.
c. possess flagella.
d. are prokaryotes.
e. none of the above
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