You are studying a pathogenic bacterium which secretes a toxin that affects G protein receptor signaling. You perform a preliminary experiment in which you examine intracellular CAMP levels in untreated and toxin treated cells. The data is in the figure below. How does the toxin affect CAMP levels due to G protein receptor signaling?
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- Below are schematics of two cell signalling pathways. Based on these diagrams, which of the following statements are likely true? Choose only the best answer. Cell 1 Receptor 1 ✓ Adenylyl cyclase V CAMP V Protein kinase A ✓ Protein kinase V Response 1 Receptor 2 ✓ Protein kinase V Protein kinase V Response 2 Cell 2 Only Cell 1 contains a relay molecule. The receptor of Cell 1 must be a receptor tyrosine kinase. All of the other statements are likely true. There is likely greater amplification of the signal in Cell 1. Receptor 3 Protein kinaseName three features common to the activation of cytokine receptors and receptor tyrosine kinases. Name one difference with respect to the enzyme activity of these receptors.You decide to investigate cell signaling of a pair of newly identified GPCRs, GPCR-W and GPCR-Z. Each binds the same ligand, but activates different downstream heterotrimeric G-proteins that act on adenylyl cyclase. You discover that ligand binding has opposite effects on adenylyl cyclase activity for each receptor. GPCR-W causes an increase in adenylyl cyclase activity, while GPCR-Z causes a decrease in adenylyl cyclase activity. You obtain a cell line expressing GPCR-W, GPCR-Z, the relevant G-proteins, and adenylyl cyclase. There is baseline adenylyl cyclase activity producing a baseline amount of cAMP. You embark on a research project to characterize the following mutations in the components of the signaling pathway. 2. Will each of the following mutations increase or decrease the levels of cAMP inside the cell upon adding the ligand to the cell culture? A mutation in Gi that prevents release of bound GDP. A mutation in Gs that prevents GTP hydrolysis. A mutation in Gi that…
- You decide to investigate cell signaling of a pair of newly identified GPCRs, GPCR-W and GPCR-Z. Each binds the same ligand, but activates different downstream heterotrimeric G-proteins that act on adenylyl cyclase. You discover that ligand binding has opposite effects on adenylyl cyclase activity for each receptor. GPCR-W causes an increase in adenylyl cyclase activity, while GPCR-Z causes a decrease in adenylyl cyclase activity. You obtain a cell line expressing GPCR-W, GPCR-Z, the relevant G-proteins, and adenylyl cyclase. There is baseline adenylyl cyclase activity producing a baseline amount of cAMP. You embark on a research project to characterize the following mutations in the components of the signaling pathway. 2. Will each of the following mutations increase or decrease the levels of cAMP inside the cell upon adding the ligand to the cell culture? A mutation in GPCR-W that prevents G-protein activation? A mutation in GPCR-Z that prevents G-protein activation? A mutation in…In Figure 4C, we see the inhibition of LRRK2 kinase activity by nanobody 1 (Nb1). Using the Lineweaver-Burke plot, estimate the Km of LRRK2 in the absence of Nb1. Show your work and provide your answer with the correct units.You are studying the role of CAMP in cell signaling. You hypothesize that 2 intracellular signaling proteins, named GO and TIGERS, interact with each other when cells are treated with an extracellular source of CAMP. The two proteins were tagged with CFP or YFP (CFP = cyan fluorescent protein; YFP = yellow fluorescent protein). CFP is excited by 435 nm light and emits lights at 480 nm. YFP is excited by 480 nm light and emits light at 535 nm. 400 500 Wavelength of Emitted Light 400 500 Wavelength of Emitted Light 600 600 Fluorescence 400 400 500 Wavelength of Emitted Light 600 500 Wavelength of Emitted Light 600 Fluorescence Intensity 400 500 Wavelength of Emitted Light 600 Figure Legend. A. Cells expressing GO-CFP irradiate with 435 nm light. B. Cells expressing TIGERS-YFP and irradiated with 435 nm light. C. Cells expressing TIGERS- YFP and irradiated with 480 nm light. D. Cells expressing GO-CFP and TIGERS-YFP and irradiated with 435 nm light. E. Cells expressing GO-CFP and…
- The G protein coupled receptor (GPCR) pathway elicits diverse intracellular responses in different cells. The basic steps of GPCR signaling are outlined in this diagram. Which of the following statements correctly describes the process of GPCR signaling? The GPCR activation is reversible after the signal of the ligand diminishes. The membrane-embedded enzyme uses GTP as a secondary messenger to initiate gene expression. The ligand attaches to both the GPCR and the membrane-embedded enzyme to activate the GPCR pathway. The ligand-bound GPCR sends a GTP molecule to an enzyme in the membrane and switches it into an active state.G protein coupled receptors play an important role in signal transduction in many cells. Label the four essential components of the G protein coupled receptor signaling system (blanks a-d in the picture) by choosing from the menus below. a b b Each answer will be used at most once, while some will not be used at all (select one for each): Group of answer choices transcription factor с transcription factor Show Transcribed Text d transcription factor B C. transcription factor G protein second messenger G protein second messenger IE G protein second messenger G protein second messenger receptor receptor receptor receptor enzyme enzyme enzyme enzyme steroid hormone steroid hormone steroid hormone steroid hormoneGTP binding proteins are molecular switches. How do GTP binding proteins work? Provide two examples of GTP binding proteins that function in intracellular protein transport. Make a drawing that illustrates the function of each of these proteins in their respective roles. Predict the direct outcome of a mutation that: Inhibits GTPase activity Inhibits interaction with the GEF
- added ligand concentration of 10 µM is 5 × 10³ s¹. What is the value of the reverse rate constant k_1 = 1 ×10-4 Incorrect Macmillan Learning You have not correctly calculated the value of the reverse rate constant. To begin, calculate the value of k₁ by dividing the rate of receptor-ligand complex formation (the rate of the forward reaction) by the ligand concentration. k₁ = rate forward [L] Then, calculate the value of the reverse rate constant, k_₁, by multiplying the dissociation constant, Kd, and the forward rate constant, k₁. k_1 = Kak₁What is the purpose of A kinase–associated proteins (AKAPs)? Describe how AKAPs work in heart muscle cells.Which of the following would be expected to inhibit PKC activation by a GPCR ligand? phospholipase C inhibitor cAMP phosphodiesterase inhibitor Ras inhibitor MAP kinase inhibitor