Nokea
The clusters of cells in the pancreas that produce hormones are the .
- A. islets of Langerhans
- B. pancreatic medulla
- C. pancreatic cortex
- D. nodules
Correct Answer: A
Rationale: The correct answer is A: islets of Langerhans. These clusters of cells in the pancreas are responsible for producing hormones such as insulin and glucagon. They play a crucial role in regulating blood sugar levels. The other choices, B: pancreatic medulla, C: pancreatic cortex, and D: nodules, are incorrect as they do not accurately describe the specific clusters of cells in the pancreas responsible for hormone production. It is important to understand the function and location of the islets of Langerhans to grasp the endocrine role of the pancreas.
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The 'hormone response element' is located on the cell __________.
- A. membrane
- B. DNA
- C. RNA
- D. enzymes
Correct Answer: B
Rationale: The correct answer is B: DNA. Hormone response elements are specific DNA sequences where hormone receptors bind to regulate gene expression. This binding initiates the transcription of target genes. Choices A, C, and D are incorrect because hormone response elements are not located on the cell membrane, RNA, or enzymes. The key is understanding that hormone receptors act on DNA to regulate gene expression, making choice B the most appropriate answer.
Which of the following is not a function of the stomach?
- A. To digest proteins
- B. To digest carbohydrates
- C. Temporary store of food
- D. To neutralize alkali from the mouth
Correct Answer: B
Rationale: The correct answer is B: To digest carbohydrates. The stomach primarily digests proteins through the action of pepsin and hydrochloric acid. Carbohydrates are primarily broken down in the mouth by salivary amylase, not in the stomach. Choices A, C, and D are incorrect because the stomach does play a role in digesting proteins, temporarily storing food, and neutralizing alkali from the mouth, respectively.
What ion is sometimes used as a second messenger of amino acid-base hormones?
- A. Iron
- B. Calcium
- C. Sodium
- D. Chlorine
Correct Answer: B
Rationale: The correct answer is B: Calcium. Calcium ions are commonly used as second messengers for amino acid-base hormones due to their ability to trigger various cellular responses. When the hormone binds to its receptor on the cell surface, it activates specific signaling pathways that lead to an increase in intracellular calcium levels. This rise in calcium ions then initiates downstream signaling cascades, ultimately regulating processes such as gene expression, cell growth, and metabolism.
Choice A - Iron: Iron is not typically involved in signaling pathways for amino acid-base hormones. It is more commonly known for its role in oxygen transport and storage in hemoglobin.
Choice C - Sodium: While sodium ions play essential roles in cellular functions, they are not typically utilized as second messengers for amino acid-base hormones. Sodium is more commonly associated with maintaining cell membrane potential and fluid balance.
Choice D - Chlorine: Chlorine ions are not typically involved in signaling pathways for amino acid-base hormones. Chlorine is primarily known for its role in maintaining
The superior suprarenal artery arises from:
- A. Abdominal aorta
- B. Inferior phrenic artery
- C. Renal artery
- D. Superior mesenteric artery
Correct Answer: B
Rationale: The correct answer is B: Inferior phrenic artery. The superior suprarenal artery arises from the inferior phrenic artery, which supplies blood to the adrenal gland. The inferior phrenic artery originates from the abdominal aorta, near the celiac trunk. It is important to note that the adrenal glands receive blood supply from multiple sources, including the inferior phrenic artery. The other choices (A: Abdominal aorta, C: Renal artery, D: Superior mesenteric artery) do not directly supply blood to the adrenal glands, making them incorrect options.
Growth hormone ________.
- A. is also called somatostatin
- B. is regulated by humoral mechanisms
- C. secretion results in a decrease in muscle mass
- D. promotes long bone growth during the formative years
Correct Answer: D
Rationale: The correct answer is D because growth hormone promotes long bone growth during the formative years by stimulating the growth plates in bones. This hormone plays a crucial role in skeletal growth and development. Choice A is incorrect because somatostatin is a different hormone that inhibits growth hormone release. Choice B is incorrect because growth hormone is primarily regulated by neural mechanisms. Choice C is incorrect because growth hormone actually promotes muscle growth and reduces fat mass.