Nokea
The symmetry of nucleocapsid of poxviruses is:
- A. Complex
- B. Isohedral
- C. Helical
- D. All of the above
Correct Answer: A
Rationale: The correct answer is A: Complex. Poxviruses have a complex nucleocapsid symmetry due to their unique structure with multiple layers of proteins and genetic material. Isohedral symmetry (B) refers to a regular polyhedron shape, which is not characteristic of poxviruses. Helical symmetry (C) is found in viruses like tobacco mosaic virus, not poxviruses. "All of the above" (D) is incorrect because poxviruses do not exhibit isohedral or helical symmetry.
You may also like to solve these questions
Agents associated with human disease but generally not a serious health risk are classified in which of the following risk groups?
- A. RG1
- B. RG2
- C. RG3
- D. RG4
Correct Answer: B
Rationale: The correct answer is B: RG2. RG2 is appropriate for agents associated with human disease that pose a moderate health risk. These agents may cause disease of varying severity, but generally do not result in serious health consequences. Other choices are incorrect because: A: RG1 is for agents not associated with disease in healthy adults, C: RG3 is for agents associated with serious or lethal human disease, and D: RG4 is for agents that pose a high risk of life-threatening disease and for which there are no treatments.
The binomial system of nomenclature was originally developed by
- A. Pasteur
- B. Linnaeus
- C. Martini
- D. Jenner
Correct Answer: B
Rationale: The correct answer is B: Linnaeus. Linnaeus developed the binomial system of nomenclature in the 18th century. He introduced the use of a two-part naming system consisting of a genus name and a species name, known as binomial nomenclature. This system helps in organizing and categorizing living organisms systematically. Pasteur (choice A) is known for his contributions to microbiology, not nomenclature. Martini (choice C) and Jenner (choice D) are not associated with the development of the binomial system of nomenclature.
The discipline addressing issues associated with the choice and application of drugs to be used for disease prevention, treatment, and/or diagnosis is:
- A. pharmacotherapeutics
- B. toxicology
- C. pharmacokinetics
- D. pharmacy
Correct Answer: A
Rationale: The correct answer is A: pharmacotherapeutics. Pharmacotherapeutics focuses on the selection and use of drugs for disease prevention, treatment, and diagnosis. It involves determining the most effective and safe medications for specific conditions based on patient factors. Toxicology (B) is the study of the adverse effects of chemicals, including drugs. Pharmacokinetics (C) focuses on drug absorption, distribution, metabolism, and excretion in the body. Pharmacy (D) involves the preparation and dispensing of medications, but does not specifically address drug selection and application for disease management. Therefore, pharmacotherapeutics is the most suitable discipline for addressing the use of drugs in disease management.
Which of the following infections are typical for the upper respiratory tract?
- A. Psittacosis
- B. Mycoplasma bronchitis
- C. Chronic atrophic rhinitis
- D. Legionnaires disease
Correct Answer: C
Rationale: The correct answer is C: Chronic atrophic rhinitis. This infection is typical for the upper respiratory tract as it affects the nasal mucosa and sinuses. It is characterized by inflammation and atrophy of the nasal mucosa. Psittacosis (A) is a zoonotic infection transmitted from birds, affecting the lungs. Mycoplasma bronchitis (B) is a lower respiratory tract infection caused by Mycoplasma pneumoniae. Legionnaires disease (D) is a severe form of pneumonia caused by Legionella bacteria. Therefore, C is the correct answer as it specifically pertains to the upper respiratory tract.
Which bacteria are known for their ability to fix nitrogen?
- A. Bacillus cereus
- B. Azotobacter species
- C. Clostridium botulinum
- D. Escherichia coli
Correct Answer: B
Rationale: The correct answer is B: Azotobacter species. Azotobacter are known for their ability to fix nitrogen through the process of nitrogen fixation, converting atmospheric nitrogen into a form that plants can use. Bacillus cereus is not known for nitrogen fixation. Clostridium botulinum is a bacterium that causes botulism and does not fix nitrogen. Escherichia coli is a common gut bacterium but does not have the ability to fix nitrogen. Thus, Azotobacter species is the correct choice based on its unique ability to fix nitrogen.