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What are the components of the female external genitalia and their functions?
- A. Ovaries: internal reproductive organs
- B. Vulva: external structures of the female genitalia
- C. Uterus: internal reproductive organ for fetal development
- D. Vagina: birth canal
Correct Answer: B
Rationale: The corrected answer is B: 'Vulva: external structures of the female genitalia.' The vulva includes external structures such as the labia, clitoris, and vaginal opening. These structures play roles in sexual arousal and protection of the internal genital organs. Choices A, C, and D are incorrect because they are internal reproductive organs. The ovaries produce eggs, the uterus houses the developing fetus, and the vagina serves as the birth canal. Hence, they are not components of the female external genitalia.
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With which genotype would the recessive phenotype appear if the dominant allele is marked with 'A' and the recessive allele is marked with 'a'?
- A. AA
- B. aa
- C. Aa
- D. aA
Correct Answer: B
Rationale: The recessive phenotype appears when an individual has two copies of the recessive allele. In this case, the recessive allele is marked with 'a.' Therefore, the genotype 'aa' would display the recessive phenotype as both alleles are recessive. Choice A (AA) has two dominant alleles, choice C (Aa) has one dominant and one recessive allele, and choice D (aA) represents the same genotype as Aa due to the principle of allele dominance.
What is the major difference between somatic and germline mutations?
- A. Somatic mutations usually benefit the individual while germline mutations usually harm them.
- B. Since germline mutations only affect one cell, they are less noticeable than the rapidly dividing somatic cells.
- C. Somatic mutations are not expressed for several generations, but germline mutations are expressed immediately.
- D. Germline mutations are usually inherited while somatic mutations will affect only the individual.
Correct Answer: D
Rationale: The major difference between somatic and germline mutations is that germline mutations are usually inherited and can be passed on to offspring, while somatic mutations occur in non-reproductive cells and only affect the individual in which they occur. This means that germline mutations have the potential to be present in future generations, while somatic mutations do not.
What are the four main regions of the stomach?
- A. Pylorus, cecum, fundus, body
- B. Cardia, fundus, body, pylorus
- C. Duodenum, jejunum, ileum, cecum
- D. Cardia, fundus, body, ileum
Correct Answer: B
Rationale: The correct answer is B: Cardia, fundus, body, pylorus. The four main regions of the stomach are the cardia (where food enters), fundus (upper part), body (largest part), and pylorus (exit part to the small intestine). These regions play specific roles in the digestion process. Choice A is incorrect because the cecum is part of the large intestine, not the stomach. Choice C lists parts of the small intestine, not the stomach. Choice D is incorrect as the ileum is the last part of the small intestine, not a region of the stomach.
What macromolecules are proteins that speed up chemical reactions and act as biological catalysts?
- A. Lipids
- B. Enzymes
- C. Carbohydrates
- D. Nucleic acids
Correct Answer: B
Rationale: Enzymes are proteins that act as biological catalysts, speeding up chemical reactions without being consumed in the process. Lipids, carbohydrates, and nucleic acids do not serve as proteins that function as catalysts; they have different biological roles. Lipids are primarily used for energy storage, structural components, and signaling molecules. Carbohydrates are mainly for energy storage and providing structural support. Nucleic acids are involved in genetic information storage and transfer. Therefore, the correct answer is B: Enzymes.
How is blood pressure controlled by the body?
- A. By adjusting heart rate only
- B. By regulating blood volume
- C. By baroreceptors and hormones
- D. By adjusting body temperature
Correct Answer: C
Rationale: Blood pressure is controlled by baroreceptors located in the aortic arch and carotid arteries that detect changes in blood pressure levels. When blood pressure is high, these receptors signal for adjustments to lower it. Additionally, hormones such as renin from the kidneys are released when blood pressure drops, further aiding in blood pressure regulation. Choice A is incorrect because blood pressure regulation involves more than just adjusting heart rate; it also includes vasodilation and vasoconstriction. Choice B is incorrect as while blood volume can impact blood pressure, it is not the primary mechanism of blood pressure control. Choice D is incorrect as body temperature regulation is a separate physiological process and not directly related to blood pressure control.