AP Biology Chapter 11
Cortisol is a steroid hormone that can pass through the plasma membrane. Complete the flowchart describing the interaction of cortisol with intracellular receptors.
Cortisol binds to a receptor on the outside of the cell.
Cortisol-receptor complex forms in the nucleus.
Cortisol passes through the plasma membrane into the cytoplasm.
Cortisol-receptor complex forms in the cytoplasm.
Cortisol-receptor complex enters the nucleus where it binds to genes.
The Cortisol-receptor complex acts as a transcription factor.
The transcribed mRNA is translated into a specific protein.
1.) Cortisol passes through the plasma membrane into the cytoplasm.
2.) Cortisol-receptor complex forms in the cytoplasm.
3.) Cortisol-receptor complex enters the nucleus where it binds to genes.
4.) The Cortisol-receptor complex acts as a transcription factor.
5.) The transcribed mRNA is translated into a specific protein
Unlike steroid hormones, signaling molecules that are large and/or hydrophilic cannot pass through the cell’s plasma membrane and therefore must bind extracellularly to receptor molecules in the plasma membrane. Two types of signal receptors embedded in the cell's plasma membrane are G protein-coupled receptors and receptor tyrosine kinases. Classify each phrase by whether it applies to G protein-coupled receptors only, receptor tyrosine kinases only, both receptors, or neither receptor.
interact directly with G proteins
catalyzes the transfer
of a phosphate group
to the receptor
binding of the signaling
the molecule forms a dimer
binding site for signaling
molecule is located on
the
extracellular side of the cell
receptor is located in the
plasma membrane
binding of the signaling molecule
allows ions to flow through
a
channel in the receptor
G-protein Coupled Receptor: interact directly with G proteins
Receptor Tyrosine Kinases: catalyzes the transfer
of a
phosphate group to the receptor, binding of the signaling
the
molecule forms a dimer
Both types of receptors: binding site for signaling
molecule is
located on the extracellular side of the cell, receptor is located in
the plasma membrane
Neither Receptor: binding of the signaling molecule
allows ions
to flow through a
channel in the receptor
Histamine is a chemical substance released in inflammatory and allergic responses. The histamine H1 receptor on target cells is a G protein-coupled receptor that activates phospholipase C in response to the binding of histamine.
Histamine diffuses across the plasma membrane to bind to the H1 receptor.Histamine binds extracellularly to the H1 receptor.
When histamine binds to the H1 receptor, the receptor undergoes a conformation change and binds the inactive G protein.
Histamine binds intracellularly to the inactive G protein, activating the G protein
.Once the G protein is active, it binds to the enzyme phospholipase C, activating it.
Histamine is likely hydrophilic.
Histamine binds extracellularly to the H1 receptor.
When histamine binds to the H1 receptor, the receptor undergoes a conformation change and binds the inactive G protein.
Once the G protein is active, it binds to the enzyme phospholipase C, activating it.
Histamine is likely hydrophilic.
Cell signaling involves converting extracellular signals to specific responses inside the target cell. Different molecules are involved at each stage of the process. In this activity, you will sort items based on which stage they are involved in: reception, transduction, or response.
Reception:
Transduction:
Response:
Histamine is a chemical substance released in inflammatory and allergic responses. The histamine H1 receptor is a G protein-coupled receptor that activates phospholipase C in response to the binding of histamine.
Complete the flowchart showing the process of histamine signal transduction from the H1 receptor.
Phosphorylation cascade leads to the activation of a cellular response.
Enzyme cleaves P I P Subscript2 , forming D A G and I P Subscript3 .
IP3 binds to a ligand-gated ion channel in the ER membrane.
Calcium ions flow through the ligand-gated ion channel.
Calcium ion concentration increases in the cytosol.
Calcium ions activate a protein, leading to a cellular response.
Calcium ions activate a protein, leading to a cellular response.