On active sites of enzymes, substrates bind to form products.
Specific activity is usually expressed as μmol of substrate transformed to product per minute per milligram of enzyme under optimal conditions of measurement.
The rate of a reaction is the concentration of substrate disappearing (or product produced) per unit time (mol-1 L-1 s-1 ).
1. orienting(direction) substrates correctly 2. straining substrate bonds 3. Providing a favorable micro environment 4. Covalently bonding to the substrate got the answers from my AP Bio notes....
Kinases are apart of the Transferases in the Enzymes of metabolism. Kinases transfers phosphate between substrates.
All reactions, even exergonic, need an activation energy to happen. Enzymes provide that activation energy. Sometimes by their R groups, sometimes by stressing bonds in a molecule in their activation site and sometimes by only providing a space apart from the cytosol in their activation site for two substrates to react.
No, they are not.
Enzyme-substrate specificity means that a substrate can fit into an enzyme similar to a key fitting into a lock. The active site of the enzyme is what determines its specificity. An enzyme can hence catalyze a reaction with a specific substrate, such as amylase catalyzing starch molecules. During these reactions, the substrate is held in a precise optimum position to create and break bonds, catalyzing the molecule.
Substrates
Substrate (a specific reactant acted upon by an enzyme is called the enzyme's substrate.)
No. There is no type of a catalyst that is consumed in a reaction.
Enzymes speed up the chemical reactions because when it forms a complex with its substrates, it reduces the activation energy that the reaction needs to proceed. Remember that the reaction itself is not altered, only the rate of reaction, and that the enzyme is not used or altered in the reactions.
Enzymes speed up the chemical reactions because when it forms a complex with its substrates, it reduces the activation energy that the reaction needs to proceed. Remember that the reaction itself is not altered, only the rate of reaction, and that the enzyme is not used or altered in the reactions.
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.
Enzymes act on molecules called substrates. The kind of substrate depends on the shape of the enzyme.
There are protein substrates, but not all substrates are proteins. Lipid, carbohydrates, nucleic acids can also act as substrates to its specific enzyme. but enzyme can be only proteins and not Lipid, carbohydrate.
substrates
There is no catalyst that is consumed in reaction which it is catalysing. In other reactions, eg. breakdown reactions, they do not catalyse their own breakdown! Enzymes are (bio)catalysts mainly as special protein molecules. In the reactions that ARE catalized they are not consumed, otherwise they were not 'catalists' but 'reactants'.
Enzymes are proteins that are able to catalyze (i.e accelerate) biochemical reactions. During the course of a reaction, the enzyme is able to convert a substrate to a product but the enzyme does not get consumed in the reaction.
Substrates