AP Biology : AP Biology

Study concepts, example questions & explanations for AP Biology

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Example Questions

Example Question #3 : Identify How Molecules Move Into And Out Of Cells

Which of the following choices causes an ion-gated channel to deactivate and close?

Possible Answers:

Ligand dissociation

Dissociation of ion channel kinases

Change in the membrane potential

Secondary messengers

Correct answer:

Ligand dissociation

Explanation:

The binding of ligands causes the activation and conformational change in the ion channel to open it. Then, ions are able to flow into the cell. After a short time, the ligand dissociates from the ion gated channel. This causes the channel to deactivate and close. 

Example Question #4 : Identify How Molecules Move Into And Out Of Cells

Which of the following choices is not an an example of phagocytosis in multicellular organisms?

Possible Answers:

Uptake of hormones

Endocytosis of solid nutrient particles into cells

Uptake of foreign material

Uptake of dead cell material 

Correct answer:

Uptake of hormones

Explanation:

Phagocytosis is a form of endocytosis in which a cell takes up solid material through the invagination of the plasma membrane to form intracellular vesicles. In multicellular organisms, the process of phagocytosis is utilized in nutrient uptake, immune system response, and in cell recycling. Cells perform phagocytosis to uptake solid nutrients into the cell. The immune system uses phagocytosis to consume foreign material for eventual degradation. In the continual process of cell recycling, old and dead cell material is taken up and reused by cells.

Example Question #3 : Identify How Molecules Move Into And Out Of Cells

In clathrin-mediated endocytosis, why does the rate of particle uptake decline quickly?

Possible Answers:

Negative feedback 

Internalization of receptors

Binding of inhibitors

Lack of free ligands 

Correct answer:

Internalization of receptors

Explanation:

In clathrin-mediated endocytosis, the binding of a specific ligand to a receptor triggers intracellular protein recruitment, which includes clathrin. These proteins stabilize the invagination and allow the clathrin pit to pull away from the plasma membrane. After it has separated from the membrane, the proteins and clathrin dissociate from the vesicle, which then fuses with an endosome. The invagination and vesicle formation from the plasma membrane includes the internalization of both the receptor and ligand. Over time the uptake by clathrin-mediated endocytosis decreases as the number of receptors on the cell’s surface. In other words, particle uptake declines due to the internalization of recptors as a result of clathrin-mediated endocytosis.

Example Question #11 : Identify How Molecules Move Into And Out Of Cells

Which of the following choices best describes the role of clathrin in clathrin-mediated endocytosis?

Possible Answers:

It stabilizes the curvature of the plasma membrane invagination 

It binds to ligands 

It targets vesicles for the lysosomes

It fuses with the plasma membrane

Correct answer:

It stabilizes the curvature of the plasma membrane invagination 

Explanation:

In clathrin-mediated endocytosis, the binding of a ligand to a receptor triggers plasma membrane invagination and protein recruitment. The recruited proteins, including clathrin, bind to the intracellular domain of the receptor. Clathrin facilitates invagination and endocytosis of the ligand by stabilizing the plasma membrane curvature. Clathrin and other recruited proteins dissociate from the endocytic vesicle once it fully invaginates and pinches off from the plasma membrane. 

Example Question #2161 : Ap Biology

Which of the following statements is true regarding the plasma membrane of the cell post exocytosis?

Possible Answers:

The surface area increases

The surface area decreases

None of these

Phospholipids invert

Correct answer:

The surface area increases

Explanation:

 Exocytosis is the release of the contents of vesicles into extracellular space through the fusion of the vesicles with the plasma membrane. The process of exocytosis is a method through which the cell is able to secrete proteins into extracellular space. An example of this is the release of neurotransmitters from a neuron. During the process of exocytosis, intracellular vesicles originating from the Golgi apparatus fuse with the plasma membrane. This fusion increases the surface area of the plasma membrane and incorporates any proteins within the vesicle membrane into the cell’s plasma membrane. 

Example Question #13 : Identify How Molecules Move Into And Out Of Cells

Which of the following choices is a true characteristic of the process of pinocytosis?

Possible Answers:

Particles are broken down immediately in the pinocytic vesicles 

Pinocytosis is the intake of solid particles into the cell

Pinocytosis is non-specific

Pinocytosis is not energetically costly 

Correct answer:

Pinocytosis is non-specific

Explanation:

Pinocytosis is a type of endocytosis. During pinocytosis, the cell takes up extracellular fluid through plasma membrane invagination and vesicle formation. The process is energetically costly and requires many molecules of ATP. Pinocytosis is a non-specific process, meaning that materials are not selectively taken up. In other words, extracellular fluid is engulfed along with any or all particles within it. The fluid taken up by pinocytosis is already digested and degraded; therefore, the process is not accompanied by the action of lysosomes.

Example Question #2164 : Ap Biology

Which type of transport is correctly paired with the energy requirement?

Possible Answers:

Facilitated diffusion; ATP required

Osmosis; no ATP required

Active transport; no ATP required

Passive transport; ATP required

Correct answer:

Osmosis; no ATP required

Explanation:

Active transport is the movement of molecules against their concentration gradient (from an area of low concentration to an area of high concentration, requiring energy, usually in the form of ATP. Passive transport is the movement of molecules with their concentration gradient (from an area of high concentration to an area of low concentration), and does not require energy input. Facilitate diffusion is the movement of molecules with their concentration gradient across the cell membrane using transmembrane proteins (carrier proteins or channels), and does not require energy. Osmosis is the movement of a solvent (usually water), from an area with a lower concentration of solute to an area of higher concentration of solute; this process does not require energy.

Example Question #2162 : Ap Biology

In this type of cellular transport, molecules move from an area of high concentration to an area of low concentration without utilizing energy to do so.

Possible Answers:

Vesicles

Na+/K+ pump

Active transport

Passive transport

Correct answer:

Passive transport

Explanation:

This is the definition of passive transport. Active transport requires energy for molecules to move. Also, the Na+/K+ pump requires energy, and thus is a form of active transport. Vesicle transport, including endocytosis and exocytosis, also requires energy.

Example Question #2163 : Ap Biology

Which molecule is unable to freely diffuse across the lipid bilayer, and how can this molecule enter the cell?

Possible Answers:

Glucose; facilitated diffusion

Water; facilitated diffusion

Oxygen; active transport

Carbon dioxide; active transport

Correct answer:

Glucose; facilitated diffusion

Explanation:

 Only small, nonpolar molecules and small, uncharged, polar molecules can freely diffuse across the lipid bilayer of the cell. Glucose is a large molecule that cannot freely diffuse across the lipid bilayer, even if this would be favored by the concentration gradient. Facilitated diffusion is the movement of molecules across the lipid bilayer using carrier proteins or channels, which does not require energy input.

 

Example Question #681 : Cellular Biology

If a cell is placed in a hypotonic solution, what will happen to the cell?

Possible Answers:

The cell will shrink

The cell will swell

The cell will maintain its size

The cell will fuse with surrounding cells

 

Correct answer:

The cell will swell

Explanation:

A hypotonic solution is a solution in which there is a lower concentration of solutes in the solution than in the cell. Thus, water (the solvent) will enter the cell, causing the cell to swell.

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