What is the relationship between the substrate concentration required in the presence of a competitive inhibitor,...

a) The Km of an enzyme of an enzyme-catalyzed reaction is 7.5 µM. What substrate concentration...

a) The Km of an enzyme of an enzyme-catalyzed reaction is 7.5 µM. What substrate concentration will be required to obtain 65% of Vmax for this enzyme? (same enzyme was used in part a and b) b) Calculate the Ki for a competitive inhibitor whose concentration is 7 x10-6 M. The Km in the presence of inhibitor was found to be 1.2x10-5 M. 

why does Vmax not change in the presence or absence of a competitive inhibitor? conversely, Vmax...

why does Vmax not change in the presence or absence of a competitive inhibitor? conversely, Vmax will decrease in the presence of either non-competitive or uncompetitive inhibitor. explain how binding inhibitor leads to an apparent decrease in Vmax.

(a) What concentrations of competitive inhibtor is required to yield 75% inhibition at a substrate concentration...

(a) What concentrations of competitive inhibtor is required to yield 75% inhibition at a substrate concentration of 1.5x10-3 M if Km = 2.9x10-4 M and Ki = 2x10-5 M? (b) To what concentration must the substrate be increased to reestablish the velocity at the original uninhibited value?

What conclusion can be drawn if KM is the same in the presence and absence of...

What conclusion can be drawn if KM is the same in the presence and absence of the inhibitor? The inhibitor binds to the substrate The inhibitor forms a covalent bond with the enzyme The inhibitor binds to the same site in the enzyme as the substrate The inhibitor does not bind to the same site in the enzyme as the substrate This is not an inhibitor, because inhibitors must affect KM.

An investigator plots 1/v as a function of 1/(concentration of substrate) for data collected with and...

An investigator plots 1/v as a function of 1/(concentration of substrate) for data collected with and without an inhibitor. The best-fit line of the data collected in the absence of the inhibitor had a slope of 0.29 (arbitrary units of time) and a y-intercept of 0.02 (arbitrary units of time per concentration). The best-fit line of the data collected in the presence of the inhibitor had a slope that was 3.1-times as steep (arbitrary units of time) and a y-intercept...

The presence of a noncompetitive inhibitor: 0 leads to a decrease in Km and V o...

The presence of a noncompetitive inhibitor: 0 leads to a decrease in Km and V o increases the steady-state concentration of the enzyme substrate complex [ES].Э leads to an increase in Km without affecting V max· 0 leads to both, an increase in the Vmax of a reaction and an increase in the Km· 0 leads toa decrease in the observed Vmax·

You solved a crystal structure of an inhibitor bound to its protein target, and you were...

You solved a crystal structure of an inhibitor bound to its protein target, and you were interested to discover that at the same time, the substrate was bound in the active site of the target. What type(s) of inhibitor might you have? * A Competitive or uncompetitive B Uncompetitive or noncompetitive C Noncompetitive D Competitive

A competitive inhibitor of an enzyme has all of the following properties EXCEPT A. Has a...

A competitive inhibitor of an enzyme has all of the following properties EXCEPT A. Has a structure similar to the substrate B. Has to have a structure similar to the enzyme C. Binds to the active site of the enzyme D. None of the above 2.) For glycolysis to occur in the absence of oxygen (anaerobic glycolysis) regeneration of this factor through conversion of pyruvate to lactate is required 3.)Reciprocal regulation of metabolic processes can occur through A. Covalent modification...

Q1)a) Research Caspase-2 protease: Indicate i) the class of enzymes to which Caspase-2 belongs, ii) the...

Q1)a) Research Caspase-2 protease: Indicate i) the class of enzymes to which Caspase-2 belongs, ii) the kind of bond that is modified by this enzyme, iii) indicate the substrate that is recognised by the enzyme using the amino acid three letter code and iv) whether the enzyme displays high or low substrate specificity. b) You are measuring enzyme activity in the presence and absence of a compound that is a competitive inhibitor. What would happen to i) the measured Km...

The Michaelis-Menten equation is an expression of the relationship between the initial velocity,V0, of an enzymatic...

The Michaelis-Menten equation is an expression of the relationship between the initial velocity,V0, of an enzymatic reaction and substrate concentration, [S]. There are three conditions that are useful for simplifying the Michaelis-Menten equation to an expression from which the effect of [S] on the rate can be more readily determined. Match the condition (e.g. [S] = Km) with the statement(s) that describe it: 1. Doubling [S] will almost double the rate. 2. Half of the active sites are occupied by...