FUNDAMENTALS OF BIOCHEMISTRY - LL FD
5th Edition
ISBN: 9781119598022
Author: Voet
Publisher: WILEY
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Chapter 10, Problem 1MTE
Summary Introduction
To explain: The ion that is transported by the M2 protein and the role of ion transport in the flu virus life cycle.
Concept introduction: The Matrix-2 (M2) protein is an influenza encoded proton-selective ion channel protein. In influenza, M2 protein unit is made up of three segments of proteins that are a transmembrane segment, an intracellular C-terminal domain, and the extra cellular N-terminal domain. The pore of the ion channels produces at the transmembrane segment.
Summary Introduction
To explain: The drugs that target the M2 protein in influenza.
Concept introduction: The Matrix-2 (M2) protein is an influenza encoded proton-selective ion channel protein. In influenza, M2 protein unit made up of three segments of proteins that are a transmembrane segment, an intracellular C-terminal domain, and the extra cellular N-terminal domain. The pore of the ion channels produces at the transmembrane segment.
Summary Introduction
To explain: The reason for developing new drugs to block M2 function.
Concept introduction: The Matrix-2 (M2) protein is an influenza encoded proton-selective ion channel protein. In influenza, M2 protein unit made up of three segments of proteins that are a transmembrane segment, an intracellular C-terminal domain, and the extra cellular N-terminal domain. The pore of the ion channels produces at the transmembrane segment.
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Chapter 10 Solutions
FUNDAMENTALS OF BIOCHEMISTRY - LL FD
Ch. 10 - Prob. 1ECh. 10 - 2. (a) Calculate the chemical potential difference...Ch. 10 - Prob. 3ECh. 10 - 4. Calculate the free energy required to move 1...Ch. 10 - 5. Indicate whether the following compounds are...Ch. 10 - 6. Rank the rate of transmembrane diffusion of the...Ch. 10 - 7. The smallest ?-barrel protein contains only...Ch. 10 - 8. Which amino acids would you expect to be...Ch. 10 - Prob. 9ECh. 10 - 10. In addition to neurons, muscle cells undergo...
Ch. 10 - 11. Explain why Na+ and K+ ions usually move more...Ch. 10 - 12. Why would overexpression of an MDR transporter...Ch. 10 - 13. If the ATP supply in the cell shown in Fig....Ch. 10 - Prob. 14ECh. 10 - 15. A certain membrane protein allows phosphate...Ch. 10 - 16. E. coli cells transport xylose across the cell...Ch. 10 - Prob. 17CQCh. 10 - Prob. 18CQCh. 10 - 19. The compound shown below is the antiparasitic...Ch. 10 - 20 In eukaryotes, ribosomes (approximate mass 4 ×...Ch. 10 - 21. The rate of movement (flux) of a substance X...Ch. 10 - 22. Endothelial cells and pericytes in the retina...Ch. 10 - 23. Cells in the wall of the mammalian stomach...Ch. 10 - Prob. 24CQCh. 10 - Prob. 25CQCh. 10 - 26. Scorpion toxin triggers an action potential in...Ch. 10 - MORE TO EXPLORE The M2 protein encoded by the...
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- Problem 15 of 15 Submit Using the following reaction data points, construct Lineweaver-Burk plots for an enzyme with and without an inhibitor by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. Using the information from this plot, determine the type of inhibitor present. 1 mM-1 1 s mM -1 [S]' V' with 10 μg per 20 54 10 36 20 5 27 2.5 23 1.25 20 Answer: |||arrow_forward12:33 CO Problem 4 of 15 4G 54% Done On the following Lineweaver-Burk -1 plot, identify the by dragging the Km point to the appropriate value. 1/V 40 35- 30- 25 20 15 10- T Км -15 10 -5 0 5 ||| 10 15 №20 25 25 30 1/[S] Г powered by desmosarrow_forward1:30 5G 47% Problem 10 of 15 Submit Using the following reaction data points, construct a Lineweaver-Burk plot for an enzyme with and without a competitive inhibitor by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. 1 -1 1 mM [S]' s mM¹ with 10 mg pe 20 V' 54 10 36 > ст 5 27 2.5 23 1.25 20 Answer: |||arrow_forward
- Problem 14 of 15 Submit Using the following reaction data points, construct Lineweaver-Burk plots for an enzyme with and without an inhibitor by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. Using the information from this plot, determine the type of inhibitor present. 1 mM-1 1 s mM -1 [S]' V' with 10 μg per 20 54 10 36 20 5 27 2.5 23 1.25 20 Answer: |||arrow_forward12:36 CO Problem 9 of 15 4G. 53% Submit Using the following reaction data points, construct a Lineweaver-Burk plot by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. Based on the plot, determine the value of the catalytic efficiency (specificity constant) given that the enzyme concentration in this experiment is 5.0 μ.Μ. 1 [S] ¨‚ μM-1 1 V sμM-1 100.0 0.100 75.0 0.080 50.0 0.060 15.0 0.030 10.0 0.025 5.0 0.020 Answer: ||| O Гarrow_forwardProblem 11 of 15 Submit Using the following reaction data points, construct a Lineweaver-Burk plot for an enzyme with and without a noncompetitive inhibitor by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. 1 -1 1 mM [S]' 20 V' s mM¹ with 10 μg per 54 10 36 > ст 5 27 2.5 23 1.25 20 Answer: |||arrow_forward
- Problem 13 of 15 Submit Using the following reaction data points, construct Lineweaver-Burk plots for an enzyme with and without an inhibitor by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. Using the information from this plot, determine the type of inhibitor present. 1 mM-1 1 s mM -1 [S]' V' with 10 μg per 20 54 10 36 20 5 27 2.5 23 1.25 20 Answer: |||arrow_forward12:33 CO Problem 8 of 15 4G. 53% Submit Using the following reaction data points, construct a Lineweaver-Burk plot by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. Based on the plot, determine the value of kcat given that the enzyme concentration in this experiment is 5.0 μM. 1 [S] , мм -1 1 V₁ s μM 1 100.0 0.100 75.0 0.080 50.0 0.060 15.0 0.030 10.0 0.025 5.0 0.020 Answer: ||| Гarrow_forward1:33 5G. 46% Problem 12 of 15 Submit Using the following reaction data points, construct a Lineweaver-Burk plot for an enzyme with and without an uncompetitive inhibitor by dragging the points to their relevant coordinates on the graph and drawing a line of best fit. 1 -1 1 mM [S]' 20 V' s mM¹ with 10 μg per 54 10 36 > ст 5 27 2.5 23 1.25 20 Answer: |||arrow_forward
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