This is a diagram of a known inhibitor of amylase. If you were to make a prediction, what type of inhibitor (competitive or non-competitive) is it? What is your reasoning?
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This is a diagram of a known inhibitor of amylase. If you were to make a prediction, what type of inhibitor (competitive or non-competitive) is it? What is your reasoning?
Question C1: This is a diagram of a known inhibitor of amylase. If you were to make a prediction, what type of inhibitor (competitive or non-competitive) is it? What is your reasoning? НО. НО. НО. CH3 он ОН ОН он Кон) НО ОН ОН ОН ОН
Cyanide is a non-competitive inhibitor of Cytochrome c Oxidase. What Km would you expect if you treated 4µM cytochrome oxidase with enough cyanide to lower the enzymes Vmax to 10 units of activity?
Focus on one particular type of enzyme inhibitor, and address the following questions: What enzyme does this inhibitor target? Is it a competitive, non-competitive or irreversible inhibitor of that enzyme? Is this inhibitor a poison or a drug?/what is it used for? Do does an understanding of enzyme function help humans?
Make a prediction of the rate of Aiels-Alder reaction. Give reasoning. 2. The nature of the diene has a very important effect on the rate of the Diels-Alder reactions. Make a prediction on the rate of Diels-Alder reaction with the following dienes, and provide a simple explanation for your reasoning. You may need to research this, (check your Organic Chemistry textbook), in particular the concepts of s -cis and s -trans. (Hint: a is the fastest in this series, and...
10.What type of inhibitor is this? How do you know? (2) 11.For your assigned inhibitor 1, what are the apparent Km & Vmax? (NOTE: apparent Km& Vmax are just the Km & Vmax in presence of inhibitor, at a given concentration.) (2) Kinetics experiments were performed on PGI. Enzyme activity (initial velocity, Vo) was measured at varying concentrations of Glucose-6-phosphate (G6P). The enzyme concentration used in all experiments was 1.5 μM. 12.What will be the reaction rate with 0.500 mM...
You have an inhibitor for an enzyme that you are studying. The concentration of inhibitor used is 5.50 µM. The following data was collected for the non-inhibited reaction as well as the reaction that was inhibited. mmol/(mL min) mmol/(mL min) mM Substrate Vo Substrate Vo + Inhibitor 0.200 5.000 3.751 0.400 7.500 4.998 0.800 10.000 5.995 1.000 10.700 6.173 2.000 12.500 6.807 4.000 13.600 7.143 a. Plot this data using Excel or a graphing program. Make sure you give your graph has a...
Based on your interpretation, is the enzyme a competitive non-competitive inhibitor, please explain 13. What 2 environmental conditions can affect the activity of an activity of an enzyme? Use the 2 graphs below to answer Questions wer Questions 14-16 Relative Rate of Enzyme Action Relative Rate of Enzyme Action 0 10 20 30 40 Temperature (C) 50 60 14. What is the optimal pH that this enzyme functions at? 15. What is the optimal temperature that this enzyme functions at...
Using this information make a Lineweaver-Burk diagram [S]mM. V0 V0 with inhibitor .71 .2 .18 .4 .18 .15 .31 .16 .11 .098 .12 .07 .066 .1 .05 .04 .07 .04 With the graphs result determine what type of inhibitor is being used?
a. This is a prediction. Do not carry it out yet. Suppose you were to close the switch and bring the north pole of a cow magnet up under the wire, as in the diagram below (while the switch is closed). Z (1) What is the approximate direction of the net magnetic field of the magnet near the wire? Explain your reasoning. if possible Ho a catter (ii) Which direction, if any, would the wire move? Record your prediction for...
4. Your mouth produces salivary amylase and your stomach is highly acidic. What do you think happens to the amylase when you swallow?