These chemicals are called competitive inhibitors.
Yes, enzymes can be reused over and over again for catalyzing chemical reactions because they are not consumed during the reaction, so they will remain in solution to quicken the reaction again with fresh substrates. Think of an enzyme as a container that forces its substrates to be in closer proximity to each other, which increases the chances of collisions and, in turn, the chances for a reaction to occur faster.
Inhibitors decrease the rate of a reaction. However the use of inhibitors can be useful in decreasing the rates of unwanted side reactions. For instance if Chemical A could turn into chemical B or chemical C, but chemical C was useless, an inhibitor could be used to reduce the amount of C formed and maximise the amount of B produced from A. This is especially important in industrial processes, where undesired products waste reactant and thus money.
The molecule that an enzyme react with, works on, is called a substrate. The substrate varies from one enzyme to another. The active site is the 3-D shape on the enzyme where a substrate binds for the reaction to take place.
Reverse transcriptase or RT.
As enzyme concentration increases the more active sites there are avalible, so the rate of reaction increases. therefore the turnover number increases.Hope it helped!TashaThe above it not true. The turn over number is Vmax/Et so if the enzyme concentration is doubled the velocity will also be doubled. Therefore the turn over number will remain constnat.
These chemicals are called competitive inhibitors.
An enzyme generally lowers the activation energy necessary for a reaction to proceed. This in turn may cause more of the reactants to go to products.
Aldolase is an enzyme found throughout the body, particularly in muscles. Like all enzymes, it is needed to trigger specific chemical reactions. Aldolase helps muscle turn sugar into energy.
Yes, enzymes can be reused over and over again for catalyzing chemical reactions because they are not consumed during the reaction, so they will remain in solution to quicken the reaction again with fresh substrates. Think of an enzyme as a container that forces its substrates to be in closer proximity to each other, which increases the chances of collisions and, in turn, the chances for a reaction to occur faster.
Yes, Vmax has a linear relationship with the amount of enzyme. This in turn deceases the Km of the reaction.
Inhibitors decrease the rate of a reaction. However the use of inhibitors can be useful in decreasing the rates of unwanted side reactions. For instance if Chemical A could turn into chemical B or chemical C, but chemical C was useless, an inhibitor could be used to reduce the amount of C formed and maximise the amount of B produced from A. This is especially important in industrial processes, where undesired products waste reactant and thus money.
yes because it gets substrates that fit in and then when those product turn into more products the enzyme just moves on making more products
Chuck Norris's Grandmother
The molecule that an enzyme react with, works on, is called a substrate. The substrate varies from one enzyme to another. The active site is the 3-D shape on the enzyme where a substrate binds for the reaction to take place.
Enzymes are catalytic molecules that speed up the rates of reactions.(a) Explain why enzymes are necessary in biological systems.(b) Discuss three control mechanisms that regulate enzymatic activity.A) Enzymes decrease the amount of activation energy required for chemical reactions to occur.B) 1. Cofactors and Coenzymes- Inorganic ions and non protein organic molecules that are necessary to be present on the active site for some enzymes to work. These cofactors participate in the reaction and may even accept or contribute atoms to the reactions.2. Competitive and Noncompetitive inhibition- Limits the enzyme activity. This occurs when a molecule binds to an enzyme, either on the active site or allosteric site, and decreases its activity.3. Allosteric Regulation- Causes a different shape in the enzyme. May either inhibit or stimulate an enzymes activity.
No, they turn chemical or electrical into kenetic energy
Polypeptide, which will turn into an active protein or an enzyme.