Phosphofructokinase (PFK1) is a glycolytic enzyme that catalyzes the irreversibl
ID: 145165 • Letter: P
Question
Phosphofructokinase (PFK1) is a glycolytic enzyme that catalyzes the irreversible transfer of a phosphate from ATP to fructose -6-phosphate to form fructose-1, 6- bisphosphate.
fructose-6-phosphate + ATP --> fructose-1,6-bisphosphate + ADP
PFK1 is the key regulatory enzyme for glycolysis. When ATP levels are high in the cell, the cell no longer needs metabolic energy production to occur. In the case of these high energy levels, PFK1's activity is inhibited by allosteric regulation by ATP, which essentially closes the valve on the flow of carbohydrates through glycolysis.
Recall that allosteric regulators bind to a different site on the enzyme rather than the active (catalytic) site. ATP binds to the regulatory site and decreases PFK1 activity. ATP bound in the regulatory site acts as a modulator by lowering the affinity of PFK1 for its substrate, fructose-6-phosphate. AMP on the other hand, which is generated when the cell is in a low energy state binds to allosteric site and increases enzyme activity.
7. The enzyme PFK1 is an example of a non-regulatory enzyme or regulatory enzyme?
8. How is PFK regulated?
A. It is not regulated because it is a non-regulatory enzyme
B. allosteric enzyme regulation
C. covalent enzyme regulation
D. or proteolytic cleavage enzyme regulation?
9. What is the substrate and to which site on the enzyme does it bind? Which compounds are the positive and negative effectors?
10. In which conformational state would the enzyme be when negative inhibitors bind and in which conformational state would the enzyme be when positive inhibitors bind?
11. PFK1 is a heterotropic or homotropic regulatory enzyme?
12. Draw (or insert the picture from your course packet available on Canvas) the graph that corresponds to this reaction. Your graph should include the activity of PFK without bound effectors, with bound positive effector, and with bound negative effector. Label (or describe) each line to distinguish these along with which molecules are positive and negative effectors.
13. How does Vmax and K0.5 change with the positive and negative effectors?
Explanation / Answer
7.
the enzyme phosphofructokinase is an example of regulatory enzymes. mammalian glycolytic pathway is a most important site of control for phosphofructokinase. it converts Fructose-6-phosphate into Fructose1,6-bisphosphate. this is an irreversible reaction.
8.
it is regulated by allosteric enzyme regulation , allosteric enzymes are class of regulatory enzymes which increases or decreases catalytic activities in response to certain signals. allosteric enzymes function through reversible , non covalent binding of regulatory compounds called modulators or effectors. the modulators for allosteric enzymes can be inhibitory or stimulatory. often the odulator is the substrate itself. regulatory enzymes for which substrate and modulator are identical ,are called as homotropic. when the modulator is a molecule other than the substrate, enzyme is said to be heterotropic.
9.
the substrate of phosphofructokinase is fructose-6-phosphate and the substrates bind to so-called allosteric sites, binding sites distinct from the active site.
fructose 1,6-bisphosphate, Fructose-6-phosphate and AMP are the positive effectors.
citrate and ATP are negative effectors.
10.
negative effectors such as citrate and ATP bind to allosteric sites where they induce the formation of the T state, which is enzymatically inactive state, thereby inhibiting enzyme activity. positive effectors such as fructose 1,6-bisphosphate, Fructose-6-phosphate and AMP bind to allosteric sites where they promote the formation of R state , which is enzymatically active state, thereby activating enzyme activity.