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The change in ∆G would not be affected by doubling the amount of enzyme in the reaction. The ∆G value of a reaction represents the intrinsic energy difference between the products and the reactants, and it is not altered by enzyme concentration.

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1y ago

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Describe the relationship between substrate concentration and the initial reaction rate of an enzyme-catalyzed reaction Is this a linear relationship What happens to the initial reaction rate as sub?

As the substrate concentration increases so does the reaction rate because there is more substrate for the enzyme react with.


The initial rate of an enzyme catalysed reaction depend on?

Based on Michaelis-Menten enzyme kinetics, the initial rate of reaction, vi, is dependent on maximum rate Vmax, substrate concentration [S], and the enzyme's Michaelis constant Km, which represents the the tendency of the substrate/enzyme complex to dissociate. The dependence on enzyme concentration is factored into the maximum rate. The equation to describe this is: vi = Vmax([S]/(Km+[S])) Follow the link below for details.


Does vmax increase with increasing amount of enzyme?

No, Vmax remains constant regardless of the amount of enzyme present. Vmax represents the maximum rate of reaction that can be achieved when all enzyme active sites are saturated with substrate. Once all enzyme active sites are filled, increasing the enzyme concentration further will not increase the reaction rate.


What has no effect on the rate of an enzyme-catalyzed reaction?

Enzyme concentration has no effect on the rate of an enzyme-catalyzed reaction after reaching a saturation point where all enzyme active sites are occupied. At this point, adding more enzyme will not increase the reaction rate further.


What will most likely happen if the amount of enzyme that catalyzes this reaction is increased?

The reaction will speed up.


What is the minimum enzyme concentration required to initiate a reaction?

The minimum enzyme concentration needed to start a reaction varies depending on the specific enzyme and reaction conditions. In general, a higher enzyme concentration can lead to a faster reaction rate, but there is no fixed minimum concentration that applies universally. The amount of enzyme required to initiate a reaction is typically determined through experimentation and optimization.


What is the maximum initial reaction rate for this enzyme at pH7?

It's 350 - I'm n biology HNRS


Enzyme reduce the amount of blank needed to start a reaction?

activation energy


Is the speed of the reaction influenced by the amount of enzyme in the environment?

Yes. Say each enzyme molecule can do one reaction at a time. You will have more product with 100 enzymes than with 10 in the same amount of time. The rate (speed) of the reaction is the change in concentration of the product divided by the change in time.


If you increase the amount of enzyme used what will happen to your product?

Increasing the amount of enzyme used can increase the rate of the reaction, leading to a higher production of the product, up to a certain point. However, at a certain enzyme concentration, the reaction may reach saturation, and increasing the enzyme further may not significantly change the product yield.


What is michelis menten curve how it is useful in the study of enzyme kinetics?

The Michaelis-Menten curve is a graphical representation of the relationship between the substrate concentration and the initial reaction rate of an enzyme-catalyzed reaction. It helps to determine important kinetic parameters such as the Michaelis constant (Km) and the maximum reaction velocity (Vmax), which are crucial for understanding enzyme-substrate interactions and enzyme efficiency. This curve is instrumental in studying enzyme kinetics and predicting how changes in substrate concentration affect the enzyme's activity.


Is more energy required for a chemical reaction in the absence of an enzyme?

Without an enzyme, the activation energy needed to start a reaction is much greater. An enzyme is a catalyst, which decreases the amount of activation energy needed to start a reaction. By doing so, it decreases the amount of time the chemical reaction takes place.