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cell communication ws, Assignments of Biology

Bellevue CollegeBiology

cell communication ws from BIO211

Typology: Assignments

2020/2021

Uploaded on 03/06/2023

samantha-tian
samantha-tian 🇺🇸

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BIO211 Name: Sam Tian Date:
10/16/2021
Cell Communication ICA
1. Diagram a GPCR pathway involving a G-protein, adenylate
cyclase, a kinase cascade with 3 sets of kinases. The final target
protein of the pathway is a transcription factor that can enter the
nucleus when it is phosphorylated.
2. On the diagram above (using a different color pen/marker),
indicate all of the ways in which the signal transduction pathway
could be turned off.
3. Hypothesize the effects of the following mutations:
a. A mutation in the transmembrane domain of the RTK that
mediates the constant dimerization of the RTK even in the absence
of ligand.
- This type of mutation would lead to unregulated signaling pathways and
can cause cholera (leading to diarrhea and likely death if not treated).
b. A mutation in the GTP-hydrolysis activity of the Ras protein.
- A mutation in the GTP-hydrolysis activity would cause the Ras G protein to
be permanently turned “on”. The unregulated permanent activation of a G
protein can cause tumors and many different types of cancers. (A mutated
Ras protein is found in 25% of all tumors, and 90% of malignant tumors.)
pf2

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BIO211 Name: Sam Tian Date: 10/16/ Cell Communication ICA

**1. Diagram a GPCR pathway involving a G-protein, adenylate cyclase, a kinase cascade with 3 sets of kinases. The final target protein of the pathway is a transcription factor that can enter the nucleus when it is phosphorylated.

  1. On the diagram above (using a different color pen/marker), indicate all of the ways in which the signal transduction pathway could be turned off.
  2. Hypothesize the effects of the following mutations: a. A mutation in the transmembrane domain of the RTK that mediates the constant dimerization of the RTK even in the absence of ligand.**
  • This type of mutation would lead to unregulated signaling pathways and can cause cholera (leading to diarrhea and likely death if not treated). b. A mutation in the GTP-hydrolysis activity of the Ras protein.
  • A mutation in the GTP-hydrolysis activity would cause the Ras G protein to be permanently turned “on”. The unregulated permanent activation of a G protein can cause tumors and many different types of cancers. (A mutated Ras protein is found in 25% of all tumors, and 90% of malignant tumors.)

c. The target protein (transcription factor) is mutated such that it can’t be phosphorylated.

  • If the target protein is mutated in a way that it is unable to be phosphorylated, the transcription factor will be unable to become activated. The cell signaling pathway will not be able to work/send out signals. The binding surface may be altered.