Test Bank For Textbook Of Diagnostic Microbiology
cd cd cd cd cd cd
6th Edition By Connie R. Mahon
cd cd cd cd cd cd cd
Chapters 1 - 41 cd cd cd
, Mahon: Textbook of Diagnostic Microbiology, 6th Edition Test Bank
cd cd cd cd cd cd cd cd
Table of contents
cd cd
Part 1: Introduction to Clinical Microbiology
cd cd cd cd cd
Chapter 1. Bacterial Cell Structure, Physiology, Metabolism, and Genetics
cd cd cd cd cd cd cd cd
Chapter 2. Host-Parasite Interaction
cd cd cd
Chapter 3. The Laboratory Role in Infection Control
cd cd cd cd cd cd cd
Chapter 4. Control of Microorganisms: Disinfection, Sterilization, and Microbiology Safety
cd cd cd cd cd cd cd cd cd
Chapter 5. Performance Improvement in the Microbiology Laboratory
cd cd cd cd cd cd cd
Chapter 6. Specimen Collection and Processing
cd cd cd cd cd
Chapter 7. Microscopic Examination of Materials from Infected Sites
cd cd cd cd cd cd cd cd
Chapter 8. Use of Colony Morphology for the Presumptive Identification of Microorganisms
cd c d cd cd cd cd cd cd cd cd cd
Chapter 9. Biochemical Identification of Gram-Negative Bacteria
cd c d cd cd cd cd
Chapter 10. Immunodiagnosis of Infectious Diseases
cd cd cd cd cd
Chapter 11. Applications of Molecular Diagnostics
cd cd cd cd cd
Chapter 12. Antibacterial Mechanisms of Action and Bacterial Resistance Mechanisms
cd cd cd cd cd cd cd cd cd
Chapter 13. Antimicrobial Susceptibility Testing
cd cd cd cd
Part 2: Laboratory Identification of Significant Isolates
cd cd cd cd cd cd
Chapter 14. Staphylococci
cd cd
Chapter 15. Streptococcus, Enterococcus, and Other Catalase-Negative, Gram-Positive Cocci
cd cd cd cd cd cd cd cd
Chapter 16. Aerobic Gram-Positive Bacilli
cd cd cd cd
Chapter 17. Neisseria Species and Moraxella catarrhalis
cd cd cd cd cd cd
Chapter 18. Haemophilus, HACEK, Legionella and Other Fastidious Gram-Negative Bacilli
cd cd cd cd cd cd cd cd cd
Chapter 19. Enterobacteriaceae
cd cd
Chapter 20. Vibrio, Aeromonas, and Campylobacter Species
cd cd cd cd cd cd
Chapter 21. Nonfermenting and Miscellaneous Gram-Negative Bacilli
cd cd cd cd cd cd
Chapter 22. Anaerobes of Clinical Importance
cd cd cd cd cd
Chapter 23. The Spirochetes
cd cd cd
Chapter 24. Chlamydia, Rickettsia, and Similar Organisms
cd cd cd cd cd cd
Chapter 25. Mycoplasma and Ureaplasma
cd cd cd cd
Chapter 26. Mycobacterium tuberculosis and Nontuberculous Mycobacteria
cd cd cd cd cd cd
Chapter 27. Medically Significant Fungi
cd cd cd cd
Chapter 28. Diagnostic Parasitology
cd cd cd
Chapter 29. Clinical Virology
cd cd cd
Chapter 30. Agents of Bioterror and Forensic Microbiology
cd cd cd cd cd cd cd
Chapter 31. Biofilms: Architects of Disease
cd cd cd cd cd
Part 3: Laboratory Diagnosis of Infectious Diseases: and Organ System Approach to Diagnostic
cd cd cd cd cd cd cd cd cd cd cd cd
Microbiology
cd
Chapter 32. Upper and Lower Respiratory Tract Infections
cd cd cd cd cd cd cd
Chapter 33. Skin and Soft Tissue Infections
cd cd cd cd cd cd
Chapter 34. Gastrointestinal Infections and Food Poisoning
cd cd cd cd cd cd
Chapter 35. Infections of the Central Nervous System
cd cd cd cd cd cd cd
Chapter 36. Bacteremia and Sepsis
cd cd cd cd
Chapter 37. Urinary Tract Infections
cd cd cd cd
Chapter 38. Genital Infections and Sexually Transmitted Infections
cd cd cd cd cd cd cd
Chapter 39. Infections in Special Populations
cd cd cd cd cd
Chapter 40. Zoonotic Diseases
cd cd cd
Chapter 41. Ocular Infections
cd cd cd
-
,Chapter 01: Bacterial Cell Structure, Physiology, Metabolism, and
cd cd cd cd cd cd cd
GeneticsMahon: Textbook of Diagnostic Microbiology, 6th Edition Test
cd cd cd cd cd cd cd cd cd
cd Bank
MULTIPLE CHOICE cd
1. To cd survive, microbial inhabitants have learned to adapt by varying all of the following, except
cd cd cd cd cd cd cd cd cd cd cd cd cd
a. growth rate. cd
b. growth in all atmospheric conditions.
cd cd cd cd
c. growth at particular temperatures.
cd cd cd
d. bacterial shape. cd
ANSWER: D cd
The chapter begins by discussing the way microbial inhabitants have had to evolve to
cd cd cd cd cd cd cd cd cd cd cd cd cd
survivein many different niches and habitats. It discusses slow growers, rapid growers,
cd cd cd cd cd cd cd cd cd cd cd cd cd
and replication with scarce or abundant nutrients, under different atmospheric
cd cd cd cd cd cd cd cd cd cd
conditions, temperature requirements, and cell structure. Bacterial shape as a form of
cd cd cd cd cd cd cd cd cd cd cd cd
evolution is not discussed.
cd cd cd cd
OBJ: Level 2: Interpretation
cd cd cd
2. Who was considered the father of protozoology and bacteriology?
cd cd cd cd cd cd cd cd
a. Anton van Leeuwenhoek cd cd
b. Louis Pasteur cd
c. Carl Landsteiner cd
d. Michael Douglas cd
ANSWER: A cd
The book discusses Anton van Leeuwenhoek as the inventor of the microscope and the
cd cd cd cd cd cd cd cd cd cd cd cd cd
first person to see the “beasties.” So they dubbed him the father of protozoology and
cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd
bacteriology.The other three individuals were not discussed.
cd cd cd cd cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
3. Prokaryotic cells have which of the following structures in their cytoplasm?
cd cd cd cd cd cd cd cd cd cd
a. Golgi apparatus cd
b. Ribosomes
c. Mitochondria
d. Endoplasmic reticulum cd
ANSWER: B cd
All the structures listed are found in eukaryotic cells, but ribosomes are the only
cd cd cd cd cd cd cd cd cd cd cd cd cd
ones thatapply to prokaryotic cells.
cd cd cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
4. This form of DNA is commonly found in eukaryotic cells.
cd cd cd cd cd cd cd cd cd
a. Linear
b. Circular
c. Plasmid
d. Colloid
TestBanks/ cdSolution cdManuals cdand cdExa
, ANSWER: A cd
Circular and plasmid DNA are usually found only in bacteria, not eukaryotic cells.
cd cd cd cd cd cd cd cd cd cd cd cd
Colloid isa property of protein molecules and is not associated with nucleotides.
cd cd cd cd cd cd cd cd cd cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
5. The nuclear membrane in prokaryotes is
cd cd cd cd cd
a. missing.
b. impenetrable.
c. a classic membrane.
cd cd
d. a lipid bilayer membrane.
cd cd cd
ANSWER: A cd
Prokaryotic cells do not have any membrane-bound structures in the cytoplasm
cd cd cd cd cd cd cd cd cd cd
including astructured nucleus.
cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
6. A microorganism that is a unicellular organism and lacks a nuclear membrane and
cd cd cd cd cd cd cd cd cd cd cd cd
truenucleus belongs to which classification?
cd cd cd cd cd cd
a. Fungi
b. Bacteria
c. Algae
d. Parasite
ANSWER: B cd
Fungi, algae, and parasites are unicellular eukaryotic organisms that contain a true
cd cd cd cd cd cd cd cd cd cd cd
nucleus.Bacteria are prokaryotic and do not contain a true nucleus or nuclear
cd cd cd cd cd cd cd cd cd cd cd cd cd
membrane.
cd
OBJ: Level 1: Recall
cd cd cd
7. In cd the laboratory, the clinical microbiologist is responsible for all the following, except
cd cd cd cd cd cd cd cd cd cd cd
a. isolating microorganisms. cd
b. selecting treatment for patients. cd cd cd
c. identifying microorganisms. cd
d. analyzing bacteria that cause disease. cd cd cd cd
ANSWER: B cd
Clinical microbiologists do not select the treatment for patients. They provide the doctor
cd cd cd cd cd cd cd cd cd cd cd cd
withthe name of the organism and the antibiotics that can kill the bacteria, but not in
cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd
the final selection of treatment protocols.
cd cd cd cd cd cd
OBJ: Level 2: Recall
cd cd cd
8. What enables the microbiologist to select the correct media for primary culture and
cd cd cd cd cd cd cd cd cd cd cd cd
optimizethe chance of isolating a pathogenic organism?
cd cd cd cd cd cd cd cd
a. Determining staining characteristics cd cd
b. Understanding the cell structure and biochemical pathways of an organism cd cd cd cd cd cd cd cd cd
c. Understanding the growth requirements of potential pathogens at specific body sitecd cd cd cd cd cd cd cd cd cd
d. Knowing the differences in cell walls of particular bacteria cd cd cd cd cd cd cd cd
ANSWER: C cd
cd cd cd cd cd cd
6th Edition By Connie R. Mahon
cd cd cd cd cd cd cd
Chapters 1 - 41 cd cd cd
, Mahon: Textbook of Diagnostic Microbiology, 6th Edition Test Bank
cd cd cd cd cd cd cd cd
Table of contents
cd cd
Part 1: Introduction to Clinical Microbiology
cd cd cd cd cd
Chapter 1. Bacterial Cell Structure, Physiology, Metabolism, and Genetics
cd cd cd cd cd cd cd cd
Chapter 2. Host-Parasite Interaction
cd cd cd
Chapter 3. The Laboratory Role in Infection Control
cd cd cd cd cd cd cd
Chapter 4. Control of Microorganisms: Disinfection, Sterilization, and Microbiology Safety
cd cd cd cd cd cd cd cd cd
Chapter 5. Performance Improvement in the Microbiology Laboratory
cd cd cd cd cd cd cd
Chapter 6. Specimen Collection and Processing
cd cd cd cd cd
Chapter 7. Microscopic Examination of Materials from Infected Sites
cd cd cd cd cd cd cd cd
Chapter 8. Use of Colony Morphology for the Presumptive Identification of Microorganisms
cd c d cd cd cd cd cd cd cd cd cd
Chapter 9. Biochemical Identification of Gram-Negative Bacteria
cd c d cd cd cd cd
Chapter 10. Immunodiagnosis of Infectious Diseases
cd cd cd cd cd
Chapter 11. Applications of Molecular Diagnostics
cd cd cd cd cd
Chapter 12. Antibacterial Mechanisms of Action and Bacterial Resistance Mechanisms
cd cd cd cd cd cd cd cd cd
Chapter 13. Antimicrobial Susceptibility Testing
cd cd cd cd
Part 2: Laboratory Identification of Significant Isolates
cd cd cd cd cd cd
Chapter 14. Staphylococci
cd cd
Chapter 15. Streptococcus, Enterococcus, and Other Catalase-Negative, Gram-Positive Cocci
cd cd cd cd cd cd cd cd
Chapter 16. Aerobic Gram-Positive Bacilli
cd cd cd cd
Chapter 17. Neisseria Species and Moraxella catarrhalis
cd cd cd cd cd cd
Chapter 18. Haemophilus, HACEK, Legionella and Other Fastidious Gram-Negative Bacilli
cd cd cd cd cd cd cd cd cd
Chapter 19. Enterobacteriaceae
cd cd
Chapter 20. Vibrio, Aeromonas, and Campylobacter Species
cd cd cd cd cd cd
Chapter 21. Nonfermenting and Miscellaneous Gram-Negative Bacilli
cd cd cd cd cd cd
Chapter 22. Anaerobes of Clinical Importance
cd cd cd cd cd
Chapter 23. The Spirochetes
cd cd cd
Chapter 24. Chlamydia, Rickettsia, and Similar Organisms
cd cd cd cd cd cd
Chapter 25. Mycoplasma and Ureaplasma
cd cd cd cd
Chapter 26. Mycobacterium tuberculosis and Nontuberculous Mycobacteria
cd cd cd cd cd cd
Chapter 27. Medically Significant Fungi
cd cd cd cd
Chapter 28. Diagnostic Parasitology
cd cd cd
Chapter 29. Clinical Virology
cd cd cd
Chapter 30. Agents of Bioterror and Forensic Microbiology
cd cd cd cd cd cd cd
Chapter 31. Biofilms: Architects of Disease
cd cd cd cd cd
Part 3: Laboratory Diagnosis of Infectious Diseases: and Organ System Approach to Diagnostic
cd cd cd cd cd cd cd cd cd cd cd cd
Microbiology
cd
Chapter 32. Upper and Lower Respiratory Tract Infections
cd cd cd cd cd cd cd
Chapter 33. Skin and Soft Tissue Infections
cd cd cd cd cd cd
Chapter 34. Gastrointestinal Infections and Food Poisoning
cd cd cd cd cd cd
Chapter 35. Infections of the Central Nervous System
cd cd cd cd cd cd cd
Chapter 36. Bacteremia and Sepsis
cd cd cd cd
Chapter 37. Urinary Tract Infections
cd cd cd cd
Chapter 38. Genital Infections and Sexually Transmitted Infections
cd cd cd cd cd cd cd
Chapter 39. Infections in Special Populations
cd cd cd cd cd
Chapter 40. Zoonotic Diseases
cd cd cd
Chapter 41. Ocular Infections
cd cd cd
-
,Chapter 01: Bacterial Cell Structure, Physiology, Metabolism, and
cd cd cd cd cd cd cd
GeneticsMahon: Textbook of Diagnostic Microbiology, 6th Edition Test
cd cd cd cd cd cd cd cd cd
cd Bank
MULTIPLE CHOICE cd
1. To cd survive, microbial inhabitants have learned to adapt by varying all of the following, except
cd cd cd cd cd cd cd cd cd cd cd cd cd
a. growth rate. cd
b. growth in all atmospheric conditions.
cd cd cd cd
c. growth at particular temperatures.
cd cd cd
d. bacterial shape. cd
ANSWER: D cd
The chapter begins by discussing the way microbial inhabitants have had to evolve to
cd cd cd cd cd cd cd cd cd cd cd cd cd
survivein many different niches and habitats. It discusses slow growers, rapid growers,
cd cd cd cd cd cd cd cd cd cd cd cd cd
and replication with scarce or abundant nutrients, under different atmospheric
cd cd cd cd cd cd cd cd cd cd
conditions, temperature requirements, and cell structure. Bacterial shape as a form of
cd cd cd cd cd cd cd cd cd cd cd cd
evolution is not discussed.
cd cd cd cd
OBJ: Level 2: Interpretation
cd cd cd
2. Who was considered the father of protozoology and bacteriology?
cd cd cd cd cd cd cd cd
a. Anton van Leeuwenhoek cd cd
b. Louis Pasteur cd
c. Carl Landsteiner cd
d. Michael Douglas cd
ANSWER: A cd
The book discusses Anton van Leeuwenhoek as the inventor of the microscope and the
cd cd cd cd cd cd cd cd cd cd cd cd cd
first person to see the “beasties.” So they dubbed him the father of protozoology and
cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd
bacteriology.The other three individuals were not discussed.
cd cd cd cd cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
3. Prokaryotic cells have which of the following structures in their cytoplasm?
cd cd cd cd cd cd cd cd cd cd
a. Golgi apparatus cd
b. Ribosomes
c. Mitochondria
d. Endoplasmic reticulum cd
ANSWER: B cd
All the structures listed are found in eukaryotic cells, but ribosomes are the only
cd cd cd cd cd cd cd cd cd cd cd cd cd
ones thatapply to prokaryotic cells.
cd cd cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
4. This form of DNA is commonly found in eukaryotic cells.
cd cd cd cd cd cd cd cd cd
a. Linear
b. Circular
c. Plasmid
d. Colloid
TestBanks/ cdSolution cdManuals cdand cdExa
, ANSWER: A cd
Circular and plasmid DNA are usually found only in bacteria, not eukaryotic cells.
cd cd cd cd cd cd cd cd cd cd cd cd
Colloid isa property of protein molecules and is not associated with nucleotides.
cd cd cd cd cd cd cd cd cd cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
5. The nuclear membrane in prokaryotes is
cd cd cd cd cd
a. missing.
b. impenetrable.
c. a classic membrane.
cd cd
d. a lipid bilayer membrane.
cd cd cd
ANSWER: A cd
Prokaryotic cells do not have any membrane-bound structures in the cytoplasm
cd cd cd cd cd cd cd cd cd cd
including astructured nucleus.
cd cd cd cd
OBJ: Level 1: Recall
cd cd cd
6. A microorganism that is a unicellular organism and lacks a nuclear membrane and
cd cd cd cd cd cd cd cd cd cd cd cd
truenucleus belongs to which classification?
cd cd cd cd cd cd
a. Fungi
b. Bacteria
c. Algae
d. Parasite
ANSWER: B cd
Fungi, algae, and parasites are unicellular eukaryotic organisms that contain a true
cd cd cd cd cd cd cd cd cd cd cd
nucleus.Bacteria are prokaryotic and do not contain a true nucleus or nuclear
cd cd cd cd cd cd cd cd cd cd cd cd cd
membrane.
cd
OBJ: Level 1: Recall
cd cd cd
7. In cd the laboratory, the clinical microbiologist is responsible for all the following, except
cd cd cd cd cd cd cd cd cd cd cd
a. isolating microorganisms. cd
b. selecting treatment for patients. cd cd cd
c. identifying microorganisms. cd
d. analyzing bacteria that cause disease. cd cd cd cd
ANSWER: B cd
Clinical microbiologists do not select the treatment for patients. They provide the doctor
cd cd cd cd cd cd cd cd cd cd cd cd
withthe name of the organism and the antibiotics that can kill the bacteria, but not in
cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd cd
the final selection of treatment protocols.
cd cd cd cd cd cd
OBJ: Level 2: Recall
cd cd cd
8. What enables the microbiologist to select the correct media for primary culture and
cd cd cd cd cd cd cd cd cd cd cd cd
optimizethe chance of isolating a pathogenic organism?
cd cd cd cd cd cd cd cd
a. Determining staining characteristics cd cd
b. Understanding the cell structure and biochemical pathways of an organism cd cd cd cd cd cd cd cd cd
c. Understanding the growth requirements of potential pathogens at specific body sitecd cd cd cd cd cd cd cd cd cd
d. Knowing the differences in cell walls of particular bacteria cd cd cd cd cd cd cd cd
ANSWER: C cd
