All AP Biology Resources
Example Questions
Example Question #1 : Understanding Hormones
How do steroid hormones elicit a response from their target cells?
Steroid hormones enter the nucleus of the target cell and increase the creation of ribosomes by the nucleolus. This results in more proteins being made by the target cell.
Steroid hormones enter the target cell and alter the products of the cell at the transcription level.
Steroid hormones attach to a membrane-bound receptor on the cell. This creates an intracellular second messenger which leads to a reaction cascade.
Steroid hormones move freely throughout the bloodstream and attach to their target cells. This interaction increases ion permeability in the cell.
Steroid hormones enter the target cell and alter the products of the cell at the transcription level.
Steroids are nonpolar, which means that they are able to pass easily through cell membranes, but require a transport protein through the hydrophilic blood in order to do so. The steroid hormone then enters the nucleus and attaches to the DNA in order to increase the desired product at the level of transcription.
Example Question #2 : Understanding Hormones
Which of these hormones is responsible for the secretion of testosterone in males?
Luteinizing hormone (LH)
Human growth hormone (hGH)
Follicle stimulating hormone (FSH)
Oxytocin
Luteinizing hormone (LH)
Luteinizing hormone is responsible for the secretion of testosterone from leydig cells in the testes.
FSH is responsible for the proliferation of sertoli cells, which nurture sperm cell precursors. hGH is responsible for body growth, and is not responsible for testosterone formation. Oxytocin is responsible for increasing uterine contractions during pregnancy.
Example Question #3 : Understanding Hormones
__________ is released in response to low blood sugar levels, while __________ is released in response to high blood sugar levels.
insulin . . . thyroid hormones
thyroid hormones . . . glucagon
glucagon . . . insulin
insulin . . . glucagon
glucagon . . . insulin
Insulin is responsible for lowering blood sugar levels, and is therefore released when the body's blood sugar levels are too high. Glucagon is released in response to low blood sugar levels, and acts to increase sugar concentrations.
Thyroid hormones (T3 and T4) are released to increase the body's metabolic rate, but are not directly influenced by blood sugar levels.
Example Question #2 : Understanding Hormones
Obesity can sometimes be caused by the slowing of the thyroid gland's production of thyroid hormones III and IV (T3 and T4), a condition known as hypothyroidism. Conversely, hyperthyroidism occurs when the thyroid overproduces T3 and T4. If T3 and T4 receptors became insensitive to the hormones, what effect would this have on the body?
Slower metabolism and weight loss
Faster metabolism and weight gain
Faster metabolism and weight loss
Slower metabolism and weight gain
Slower metabolism and weight gain
The question tells us that slowed output of thyroid hormones can lead to obesity. One can safely assume that receptor insensitivity will have a similar effect. In either scenario, the T3 and T4 hormones are unable to elicit the proper response form the body. Similar to individuals with hypothyroidism, individuals with insensitive receptors would show slowed metabolism and increased weight gain.
Example Question #3 : Understanding Hormones
__________, released from the __________, is the hormone responsible for controlling lactation in nursing women, as well as triggering labor in pregnant women.
Oxytocin . . . posterior pituitary
Follicle-stimulating hormone . . . hypothalamus
Luteinizing hormone . . . posterior pituitary
Vasopressin . . . posterior pituitary
Oxytocin . . . posterior pituitary
Oxytocin is responsible for lactation in nursing women. When the nipple is stimulated, oxytocin is released from the posterior pituitary to cause lactation. During labor, release of oxytocin causes positive feedback on the hypothalamus, which causes further oxytocin release.
Luteinizing hormone and follicle-stimulating hormone are released from the anterior pituitary and function to regulate the menstrual cycle. Vasopressin is released from the posterior pituitary and helps to regulate blood pressure and water balance.
Example Question #12 : Endocrine System
Which steroid hormone is responsible for development of the secondary sexual characteristics in males, such as facial hair and deepening of the voice?
Estrogen
Progesterone
Testosterone
Cortisol
Testosterone
Testosterone is well known to be responsible for male secondary sexual characteristics. It also plays a key role in behavior, such as aggression. For example, during mating season in gorillas the testosterone levels in males raise significantly and lead to confrontations between males.
Progesterone and estrogen are responsible for female secondary sexual characteristics, while cortisol plays a role in the body's response to long-term stress.
Example Question #4 : Understanding Hormones
The corpus luteum releases progesterone to prevent menstruation from occurring; if an ovum is not fertilized, then menstruation occurs. What happens to progesterone levels if the ovum is not fertilized?
Decrease
Increase
Progesterone levels will depend on relative estrogen levels
Progesterone levels stay the same
Decrease
In order for menstruation to occur, progesterone levels must decrease. When fertilization does not occur, the corpus luteum ceases progesterone production, initiating menstruation. The corpus luteum then transitions into the corpus albicans and removed from the ovary in preparation for the new menstrual cycle.
Example Question #13 : Endocrine System
__________ is a critical hormone that controls heart rate and constriction of blood vessels. It is crucial in the fight-or-flight response.
Cortisol
Epinephrine
Glucagon
Insulin
Epinephrine
Epinephrine, released from the adrenal gland, is important for the fight-or-flight response. During moments of stress, heart rate increases, pupils dilate, and blood vessels constrict in order to prepare for danger. All of this is controlled by epinephrine and norepinephrine, and is part of the sympathetic nervous system.
Example Question #4 : Understanding Hormones
A certain molecule is known to signal through an autocrine mechanism. What does this tell us about the hormone's behavior?
The molecule is released by a certain cell and acts on receptors on that same cell
The molecule is released by a certain cell and acts on receptors on nearby cells
The molecule is released by a certain cell, travels through the bloodstream, and acts on receptors on distant cells
The molecule is released by a certain cell and acts to mediate release of more of the same hormone
The molecule is released by a certain cell, travels through the bloodstream, and acts on receptors in the hypothalamus
The molecule is released by a certain cell and acts on receptors on that same cell
To answer this question, you must have an understanding of the differences between endocrine, paracrine, and autocrine functioning. This example, in which a molecule exhibits autocrine behavior, means that a cell releases a hormone that acts on itself. In paracrine signaling, the molecule does not act on the same cell, but does diffuse through tissue to reach nearby target cells. Finally, endocrine signaling refers to hormone molecules that are released and transported through the bloodstream to act on more faraway target cells in distant regions.
Example Question #5 : Understanding Hormones
Which hormone is most likely to be produced in order to decrease plasma calcium levels?
Oxytocin
Antidiuretic hormone
Parathyroid hormone
Calcitonin
Melatonin
Calcitonin
The two hormones known for their effect on plasma calcium levels are calcitonin and parathyroid hormone (PTH). When calcium levels are high, calcitonin is released by the thyroid gland to stimulate the uptake of serum calcium into bone. This effectively decreases calcium levels in the blood. PTH has the opposite effect and is released by the parathyroid gland.
The three remaining answer choices are not known for their effect on calcium levels in the blood.