Most enzymes are substrate specific because they have a specific shapes active site in which only a specific substrate can fit.
induced enzyme
enzymes are proteins in their tertiary form. They have an active site which, because of the particular order of amino acids and thus specific three-dimensional shape, is unique to that type of enzyme. This means they can only bind and react with a specific substrate. The substrate makes contact with the active site and forms temporary bonds with it, such as ionic interactions, dipole interactions, etc. These bonds can then work to eventually break apart the substrate and the enzyme releases the products.
A substrate molecule will only fit into the active site if it is a complimentary shape. Also the amino acids that make up an enzyme have positively and negatively charged chemical groups so in orderr for a substrate to fit its active site any electrical charges on the substrate molecule must not be repelled by like charges on the enzyme so the charged groups on the enzyme molecule and substrate molecule must attract one another
The shape of an enzyme is important because enzymes are shape specific. Each enzyme can only react with one kind of substrate, and the enzyme's shape determines which substrate that is. They fit together like a "lock and key". If an enzyme is denatured (or its shape is altered from its active form), then it will not be able to bind to its substrate and the substrate's activation energy will not be lowered, usually resulting in the cessation of whatever reaction the substrate is undergoing.
Enzymes are proteins, which are made up of amino acids. Each enzyme has a different sequence of amino acids and changing even one amino acid will mean that the tertiary structure of the enzyme will be lost and so will it's active site. As enzymes are substrate specific, only a certain substrate will bind to its active site, due to its amino acid sequence determining the shape of the active site.
A substrate is when the enzyme can only join onto certain substances
The function of an enzyme is to increase the rate of a reaction.
enzyme works as a catalyst before and after the reaction it is preserved
An enzyme has only one substrate that it works with so it has only one function. This is called a lock and key mechanism. Other things can affect the enzyme such as temperature, pH level and levels of either the substrate or the products. High temperature can denature the enzyme (they are proteins). They can not fit the lock (substrate).
An enzyme has only one substrate that it works with so it has only one function. This is called a lock and key mechanism. Other things can affect the enzyme such as temperature, pH level and levels of either the substrate or the products. High temperature can denature the enzyme (they are proteins). They can not fit the lock (substrate).
An enzyme's active site will bind with only a specific substrate. Any other kind of substrate will be rejected by the active site.
All enzyme's are catalysts for certain chemical reactions. Each enzyme will only work with a certain substrate one analogy being that the enzyme is a key and the substrate is a keyhole, and each enzyme has a unique enzyme.
Only certain molecules can fit into the active site of the enzyme.
induced enzyme
enzymes are proteins in their tertiary form. They have an active site which, because of the particular order of amino acids and thus specific three-dimensional shape, is unique to that type of enzyme. This means they can only bind and react with a specific substrate. The substrate makes contact with the active site and forms temporary bonds with it, such as ionic interactions, dipole interactions, etc. These bonds can then work to eventually break apart the substrate and the enzyme releases the products.
The activation site of an enzyme can only bind to a specific substrate.
Collision only introduces the substrate to the active site. Binding is usually hydrogen bonding.