Nokea
Ferrets have recently been objects of an intense debate within the scientific community in the field of Flu research because
- A. Of a recent outbreak caused by a novel Influenza strain
- B. Of a recent outbreak caused by a highly virulent H1N1 strain
- C. Mutations have been introduced in H5N1 creating a strain transmissible among these mammals
- D. Two publications on this animal model for Flu were put on hold due to biosecurity reasons
Correct Answer: C
Rationale: The correct answer is C because it indicates a specific reason for the intense debate within the scientific community regarding ferrets in Flu research. Mutations in H5N1 creating a strain transmissible among ferrets is significant as it highlights a potential threat of cross-species transmission and the need for further study.
A is incorrect as it does not provide a specific reason related to ferrets and their role in Flu research. B is incorrect because it focuses on a specific strain (H1N1) rather than mutations in H5N1. D is incorrect as it mentions publications being put on hold but does not address the core issue of mutations and transmissibility among ferrets.
You may also like to solve these questions
Kinds of innate immunity barriers are
- A. External barriers such as Skin, Secretions, Mucous membranes
- B. Internal defenses such as Inflammatory response
- C. A & B
- D. Non
Correct Answer: C
Rationale: The correct answer is C because both external barriers (Skin, Secretions, Mucous membranes) and internal defenses (Inflammatory response) are types of innate immunity. External barriers physically block pathogens from entering the body, while internal defenses involve cellular and molecular responses to eliminate pathogens. Choice A alone does not cover internal defenses, and choice B alone does not cover external barriers, making them individually incomplete. Choice D is incorrect as innate immunity does involve specific barriers and responses. Therefore, choice C is the best answer as it encompasses both types of innate immunity barriers.
To produce better flu vaccines we want:
- A. To block spreading of the infection by inducing a cytotoxic T cell response that would directly prevent viral entry into uninfected cells
- B. To induce the formation of highly strain-specific neutralizing antibodies that would prevent viral entry into uninfected cells
- C. To induce antibodies able to recognize HA across different strains by targeting less variable regions of HA
- D. All of the above is reasonably expected to improve the success of flu vaccines
Correct Answer: C
Rationale: The correct answer is C because inducing antibodies that can recognize the less variable regions of the Hemagglutinin (HA) protein across different strains allows for cross-protection against various flu strains. This approach is effective as it targets conserved regions of the virus, increasing the likelihood of providing broad immunity. Option A focuses on cytotoxic T cell response, which primarily targets infected cells and may not prevent viral entry into uninfected cells. Option B, on the other hand, is limited to highly strain-specific neutralizing antibodies, which may not provide adequate protection against evolving flu strains. Therefore, option C is the most effective in producing better flu vaccines by targeting less variable regions of HA for broader immunity.
Secondary lymphoid tissues are where:
- A. Lymphocyte precursors become mature
- B. Inflammation occurs during re-infection with a given pathogen
- C. Lymphocytes become activated by antigen
- D. Gene rearrangement takes place
Correct Answer: C
Rationale: The correct answer is C because secondary lymphoid tissues, like lymph nodes and spleen, are where lymphocytes encounter antigens and become activated. This process leads to the proliferation and differentiation of lymphocytes, enabling them to mount an immune response against specific pathogens. Choices A, B, and D are incorrect because A pertains to primary lymphoid tissues, B describes a localized immune response, and D refers to the process of gene rearrangement that occurs in the primary lymphoid tissues during lymphocyte development.
The site of ATP synthesis in microorganisms includes:
- A. cytoplasmic membranes
- B. cell walls
- C. chloroplasts
- D. mitochondria
Correct Answer: B
Rationale: The correct answer is B: cell walls. Microorganisms, such as bacteria and archaea, do not have mitochondria or chloroplasts. ATP synthesis in microorganisms primarily occurs in the cell walls through processes like glycolysis and fermentation. Cytoplasmic membranes are involved in electron transport and ATP synthesis in prokaryotic cells, not cell walls. Chloroplasts are only present in photosynthetic organisms, not in microorganisms.
All of the following are true of antigen EXCEPT which one of the following?
- A. They contain paratopes
- B. They will react with antibodies.
- C. They contain antigenic determinants.
- D. They can elicit an immune response.
Correct Answer: A
Rationale: The correct answer is A. Paratopes are actually parts of antibodies that bind to antigens, not the antigens themselves. A is incorrect because antigens do not contain paratopes; rather, they contain epitopes or antigenic determinants that are recognized by antibodies. B, C, and D are true statements about antigens. B is true because antigens react with antibodies. C is true because antigens contain antigenic determinants that antibodies recognize. D is true because antigens can elicit an immune response by stimulating the production of antibodies. Therefore, the correct answer is A because antigens do not contain paratopes.