AP Biology : Cellular Communications and Junctions

Study concepts, example questions & explanations for AP Biology

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Example Questions

Example Question #1 : Cellular Communications And Junctions

Peptide hormones differ from steroid hormones in that they __________.

Possible Answers:

cannot be stored

bind to an intracellular receptor

cause a change to occur in the target cell

bind to a receptor on the outer surface of the cell membrane

Correct answer:

bind to a receptor on the outer surface of the cell membrane

Explanation:

Seeing as peptide hormones are generally large, water-soluble molecules, they cannot transverse the phospholipid membrane. Instead, they must act through a membrane-bound protein receptor. Steroid hormones are generally small, fat-soluble organic molecules that can easily travel through the phospholipid membrane and the nuclear membrane. They can then act on transcription factors or interact directly with DNA. Both peptide and steroid hormones initiate changes within the cell; they simply do so by different mechanisms.

Example Question #2 : Cellular Communications And Junctions

What is the next step in receptor tyrosine kinase signaling after the ligand binds to the receptor?

Possible Answers:

Phosphorylation of tyrosines on the cytoplasmic region of the receptor

Phosphorylation of receptor-binding proteins that relay signals into the cell

Binding of intracellular proteins to the receptor to relay cellular responses

Receptor dimerization

Correct answer:

Receptor dimerization

Explanation:

After a ligand binds to receptor tyrosine kinases, the receptors need to form a dimer to foster activation of their tyrosine kinase activity. After dimerization, a phosphate is transferred from ATP to the amino acid tyrosine at specific sites on the cytoplasmic region of receptor. The phosphorylation of the tyrosines provides a site where other cellular proteins can bind and further relay the signal from the receptor to the cell.

Example Question #3 : Cellular Communications And Junctions

Which of the following is a cellular response due to ligand binding and activation of intracellular receptors?

Possible Answers:

The closing of ion channel receptors

Intracellular receptor binding to tyrosine kinase receptors

The intracellular receptor activates adenylyl cyclase

The intracellular receptor acts as a transcription factor for gene expression

Correct answer:

The intracellular receptor acts as a transcription factor for gene expression

Explanation:

Intracellular receptors are found in the cytoplasm of the cell. Ligands for intracellular receptors are usually small molecules that can pass through the cell membrane, and include substances such as steroid hormones. Upon binding and activation, intracellular receptors bind specific DNA motifs in the nucleus and function as transcription factors, directly changing expression of genes.

In contrast, transmembrane receptors are embedded in the plasma membrane and bind extracellular ligands to mediate intracellular responses. Ligand binding to transmembrane receptors often initiates a signal cascade or mediates channel activity within the membrane of the cell.

Example Question #4 : Cellular Communications And Junctions

Which of the following is an example of a second messenger of cellular signal transduction?

Possible Answers:

Cell membrane receptors

Calcium ions (Ca2+)

Protein phosphatases

Protein kinases

Correct answer:

Calcium ions (Ca2+)

Explanation:

Calcium is a widely used second messenger of signal transduction. Calcium ions can function as a second messenger because its concentration within cell cytosol is much lower than outside the cell, and it is actively transported out of the cell by protein pumps. Modulation in calcium levels is used to transmit signals from both G protein and receptor tyrosine kinase signaling cascades and is involved in such functions as muscle contractions and synaptic signaling.

The other common second messenger molecule is cAMP.

Example Question #1 : Understanding Types Of Cellular Communication

Which of the following choices best describes the event in tyrosine kinase receptor activation that transmits a signal that regulates cellular gene transcription?

Possible Answers:

Binding of a ligand to the N terminus 

Autophosphorylation of tyrosine residues

Dimerization of tyrosine kinase receptors

Binding of relay proteins to phosphorylated tyrosine residues

Correct answer:

Binding of relay proteins to phosphorylated tyrosine residues

Explanation:

Tyrosine kinase receptors are fully activated when they bind to an extracellular ligand, dimerize, and then autophosphorylate at tyrosine residues on the C terminus. The signal is not transduced until relay proteins are phosphorylated by the tyrosine kinases. These relay proteins can then stimulate a phosphorylation cascade that initiates signaling pathways, which regulate nuclear gene transcription

Example Question #3 : Understanding Types Of Cellular Communication

Which of the following choices best describes the factor that opens ion channels by inducing receptors to initiate "conformational change"?

Possible Answers:

Intracellular ion concentration

Phosphorylation of the ion channel

Extracellular ion concentration

Ligand binding to the channel protein

Correct answer:

Ligand binding to the channel protein

Explanation:

When inactive, ion gated receptors are closed. When a ligand binds, the channel undergoes a conformational change and opens: creating a tunnel. This conformational change does not last for a long period of time; the ligand soon dissociates and the ion channel closes.

Example Question #1 : Understanding Types Of Cellular Communication

Which of the following choices is not a part of the cell signalling sequence?

Possible Answers:

Translation

Reception

Response

Transduction

Correct answer:

Translation

Explanation:

Cell signaling is the process used by cells to communicate and control cellular activities. It can occur both within and between cells. The correct sequence of events that takes place during cell signaling is as follows: reception, transduction, and response. The reception stage is the detection of a signal, typically by a receptor on the cell surface. Next, transduction is characterized by the transmission of signals from the cell’s exterior to its interior by way of proteins. Finally, the response is the subsequent cellular reaction to the signaling. Cell signaling is critically important in normal cell function and widely diversified. 

Example Question #6 : Understanding Types Of Cellular Communication

Which of the following best describes the location of the ligand-binding domain on a G protein-coupled receptor?

Possible Answers:

Transmembrane helices

Intracellular C terminus

Extracellular loop

Extracellular N terminus

Correct answer:

Transmembrane helices

Explanation:

G protein-coupled receptors are part of a large class of receptors involved in intercellular signaling. Structurally, G protein-coupled receptors have an extracellular N terminus, seven transmembrane helices, three intracellular loops, three extracellular loops, and an intracellular C terminus. The ligand-binding domain is within the transmembrane helices.

Example Question #3 : Understanding Types Of Cellular Communication

Which of the following cell types does not contain G protein-coupled receptors?

Possible Answers:

Yeast cell

Human myocyte

Rabbit leukocyte

Bacteria cell

Correct answer:

Bacteria cell

Explanation:

G protein-coupled receptors are only found in eukaryotes including yeast cells and animal cells. Bacteria cells are prokaryotes, and therefore do not contain G protein-coupled receptors. Even though yeast cells are single-celled, they possess all the characteristics of eukaryotic cells.

Example Question #4 : Understanding Types Of Cellular Communication

G proteins function as signal transmitters in coordination with G protein-coupled receptors. They are active when bound to which of the following chemical energy carriers?

Possible Answers:

GDP

ADP

ATP

GTP

Correct answer:

GTP

Explanation:

G proteins are a class of protein signaling molecules that are activated by G protein-coupled receptors (GPCRs). When a ligand binds to the transmembrane domain of GPCRs, the GPCR undergoes a conformational change. This conformational change activates the G protein, which binds to GTP rather than lower energy GDP. The active G protein can then dissociate and transmit the signal by interacting with other proteins.

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