Nursing Elites

1. What function do hydrophobic proteins often provide in the body?

• A. Digestive enzymes
• B. Provide structure
• C. Carry oxygen molecules
• D. Store energy

Correct answer: B

Rationale: Hydrophobic proteins are known for their ability to repel water and are often involved in providing structural support in cells and tissues. They help maintain the structural integrity and shape of cell membranes, organelles, and other cellular components. Choice A, digestive enzymes, typically consist of hydrophilic proteins that interact with water and substrates to facilitate digestion. Choice C, carrying oxygen molecules, is a function commonly associated with specific proteins like hemoglobin. Choice D, storing energy, is usually performed by proteins like enzymes involved in energy storage and release, such as glycogen phosphorylase.

2. What is the name for the hard, protective protein that makes up hair and nails?

• A. Collagen
• B. Keratin
• C. Elastin
• D. Fibrin

Correct answer: B

Rationale: Keratin is the correct answer as it is the hard, protective protein that comprises hair and nails. Collagen is a different type of protein found in connective tissues, providing structure and support. Elastin imparts elasticity to tissues, allowing them to stretch and recoil. Fibrin is a protein involved in the blood clotting process and is not related to the structure of hair and nails. Therefore, choices A, C, and D are incorrect in the context of the question.

3. Which vitamin is essential for collagen production, a key component of connective tissues?

• A. Vitamin A
• B. Vitamin C
• C. Vitamin D
• D. Vitamin E

Correct answer: B

Rationale: Vitamin C is essential for collagen production, a key component of connective tissues. Collagen, a crucial protein, provides structure and strength to various body tissues, such as skin, tendons, ligaments, and blood vessels. Vitamin C plays a pivotal role in collagen synthesis by aiding in the hydroxylation of proline and lysine residues, which is essential for stabilizing the collagen structure. A deficiency in vitamin C can lead to impaired collagen production, resulting in conditions like scurvy, characterized by weakened connective tissues. Vitamin A (Choice A) is important for vision and immune function but is not directly involved in collagen production. Vitamin D (Choice C) is essential for calcium absorption and bone health but is not primarily responsible for collagen synthesis. Vitamin E (Choice D) acts as an antioxidant, protecting cells from damage, but it is not a key player in collagen production.

4. What term refers to the mechanical act of breathing?

• A. Diffusion
• B. Perfusion
• C. Respiration
• D. Ventilation

Correct answer: D

Rationale: Ventilation is the correct answer as it specifically refers to the mechanical process of breathing air in and out of the lungs. Diffusion (choice A) is the movement of molecules from an area of high concentration to low concentration, not related to the mechanical act of breathing. Perfusion (choice B) is the process of blood flow through the tissues and organs, not directly related to breathing mechanically. Respiration (choice C) involves the exchange of oxygen and carbon dioxide at the cellular level, different from the mechanical act of breathing.

5. In an SN2 reaction, what affects the rate of the reaction?

• A. Only the concentration of the nucleophile
• B. Only the concentration of the electrophile
• C. Neither the concentration of the nucleophile nor the electrophile
• D. Both the concentration of the nucleophile and the electrophile

Correct answer: D

Rationale: In an SN2 reaction, the rate of the reaction is affected by both the concentration of the nucleophile and the electrophile. The rate-determining step involves the nucleophile attacking the electrophile, so the concentrations of both species will impact the reaction rate. Increasing the concentration of the nucleophile increases the frequency of nucleophilic attacks, while increasing the concentration of the electrophile provides more opportunities for the nucleophile to react. Therefore, the correct answer is that both the concentration of the nucleophile and the electrophile affect the rate of the SN2 reaction. Choices A, B, and C are incorrect as they do not consider the interplay between the nucleophile and the electrophile in determining the overall reaction rate in an SN2 mechanism.

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