ATI RN
microbiology an introduction 13th edition test bank Questions
Question 1 of 9
The complex invaginations of the prokaryotic cytoplasmic membrane are called:
Correct Answer: D
Rationale: The correct answer is D: Mesosomes. Mesosomes are infoldings of the prokaryotic cytoplasmic membrane that play a role in cell division and respiration. This structure is not found in eukaryotic cells. Cristae (A) are infoldings of the mitochondrial inner membrane in eukaryotic cells. Granum (B) refers to stacks of thylakoid membranes in chloroplasts. Flagella (C) are whip-like structures used for movement and are not related to cytoplasmic membrane invaginations. Therefore, the correct answer is D as mesosomes are unique to prokaryotic cells and are involved in various cellular processes.
Question 2 of 9
What is the role of bacterial plasmids?
Correct Answer: C
Rationale: The correct answer is C: Carry genes for antibiotic resistance. Bacterial plasmids are small, circular DNA molecules that can be transferred between bacteria, carrying genes such as antibiotic resistance. This allows bacteria to survive in the presence of antibiotics. Plasmids do not directly play a role in protein synthesis (choice A) or DNA replication (choice B). Plasmids are not responsible for motility (choice D) as that function is usually carried out by flagella or other cellular structures.
Question 3 of 9
What drug should be administered for individual prevention of malaria?
Correct Answer: A
Rationale: The correct answer is A: Chingamin. Chingamin is a type of antimalarial drug that is commonly used for individual prevention of malaria. It works by targeting the malaria parasite in the body, preventing its growth and spread. Rifampicin (B), Ampicillin (C), and Gentamicin (D) are not effective for preventing malaria as they are antibiotics that target bacterial infections, not parasitic infections like malaria. Therefore, Chingamin is the most appropriate choice for individual prevention of malaria due to its specific antimalarial properties.
Question 4 of 9
The bacterial capsule is composed of:
Correct Answer: C
Rationale: The bacterial capsule is composed of polysaccharides. This outer layer helps bacteria evade the host immune system, protect against desiccation, and aid in attachment to host cells. Polysaccharides are long chains of sugar molecules, providing a protective barrier for the bacteria. Lipopolysaccharides (choice A) are found in the outer membrane of Gram-negative bacteria and are not a major component of the capsule. Teichoic acid (choice B) is a component of the cell wall in Gram-positive bacteria, not the capsule. Peptidoglycan (choice D) is another component of the cell wall but is not part of the capsule.
Question 5 of 9
Which of the following specific immune mechanisms offer NO protection against infection
Correct Answer: C
Rationale: Correct Answer: C - Immunological tolerance to the pathogen Rationale: 1. Immunological tolerance is when the immune system does not mount a response against specific antigens to prevent autoimmunity. 2. In the context of infection, tolerance to the pathogen means the immune system does not recognize the pathogen as a threat and does not initiate a protective response. 3. This lack of response leaves the host vulnerable to infection as there is no specific immune defense mechanism activated against the pathogen. Summary of incorrect choices: A: Opsonic action of antibody - enhances phagocytosis of pathogens B: Viral neutralization by specific antibody - prevents viral entry into host cells D: Neutralization of protein exotoxin - prevents the harmful effects of toxins produced by pathogens.
Question 6 of 9
Which bacteria are known to cause food poisoning?
Correct Answer: D
Rationale: The correct answer is D: All of the above. Salmonella enterica, Clostridium botulinum, and Escherichia coli are all bacteria known to cause food poisoning. Salmonella causes symptoms like diarrhea and vomiting; Clostridium botulinum produces a toxin leading to paralysis; Escherichia coli can cause severe stomach cramps and bloody diarrhea. Therefore, selecting "All of the above" is correct because all three bacteria are commonly associated with foodborne illnesses. Choices A, B, and C on their own are incorrect as they each represent only one bacterium known to cause food poisoning, whereas the correct answer encompasses all three.
Question 7 of 9
Which bacteria is responsible for causing syphilis?
Correct Answer: A
Rationale: Step 1: Treponema pallidum is a spirochete bacterium known to cause syphilis, a sexually transmitted infection. Step 2: Neisseria gonorrhoeae causes gonorrhea, not syphilis. Step 3: Chlamydia trachomatis is responsible for causing chlamydia, not syphilis. Step 4: Escherichia coli is commonly found in the gut and can cause gastrointestinal infections, not syphilis. Summary: Treponema pallidum is the correct answer as it is the specific bacterium associated with syphilis, while the other choices are responsible for different infections.
Question 8 of 9
Chemically, most enzymes are
Correct Answer: A
Rationale: The correct answer is A: proteins. Enzymes are mostly composed of proteins due to their complex structure and specific amino acid sequences that are essential for their catalytic activity. Proteins have active sites that bind to substrates and facilitate chemical reactions. Lipids (B), nucleic acids (C), and carbohydrates (D) do not possess the necessary properties and structures to function as enzymes. Lipids serve as energy storage molecules and cell membrane components, nucleic acids store genetic information, and carbohydrates are primarily used for energy production.
Question 9 of 9
Poxviruses are largest viruses, almost visible on light microscope
Correct Answer: A
Rationale: The correct answer is A: TRUE. Poxviruses are indeed the largest viruses known, ranging from 200-450 nm in size, which is close to the resolution limit of a light microscope. This makes them almost visible under a light microscope. Explanation: 1. Poxviruses have complex structures and are among the largest viruses. 2. Light microscopes have a resolution limit of around 200 nm. 3. Poxviruses fall within the size range that is close to the resolution limit of a light microscope. 4. Therefore, poxviruses are almost visible under a light microscope. Summary: Choice B is incorrect because poxviruses are indeed large enough to be almost visible under a light microscope. Choice C is incorrect as it implies uncertainty, but poxviruses are consistently close to the resolution limit of a light microscope. Choice D is incorrect as the size of poxviruses being almost visible under a light microscope is a factual statement, not dependent