they are more specific and the remain unchang after the completion of the reaction
In an enzyme-catalyzed reaction, the general steps include: substrate binding to the active site of the enzyme, forming an enzyme-substrate complex. This complex undergoes a reaction, leading to the formation of products. Finally, the products are released from the enzyme, which remains unchanged and can continue catalyzing more reactions. The enzyme facilitates the reaction by lowering the activation energy required for the reaction to occur, increasing the reaction rate.
and so
Mass, volume, and density
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.
Well there characteristics you can see with your eye.
Answer:on a general basis the purity of an enzyme can be described as the degree of amount of enzyme required to catalyze a specific reactionamount of enzyme being inversely proportional to purity
The substrate is the molecule on which the enzyme acts. It binds to the active site of the enzyme, leading to catalysis of the chemical reaction. The shape and chemical properties of the substrate are important in determining which enzyme can act on it.
The general equation for all enzymatic reactions is: Substrate + Enzyme → Enzyme-Substrate Complex → Enzyme + Product. Enzymes catalyze reactions by lowering the activation energy required for the reaction to occur, thereby increasing the rate of the reaction.
The general properties of a metalloid are a combination of the properties of both metals and non-metals. Aside from those properties, they have the unique property of being semi-conductors.
In an enzyme-catalyzed reaction, the general steps include: substrate binding to the active site of the enzyme, forming an enzyme-substrate complex. This complex undergoes a reaction, leading to the formation of products. Finally, the products are released from the enzyme, which remains unchanged and can continue catalyzing more reactions. The enzyme facilitates the reaction by lowering the activation energy required for the reaction to occur, increasing the reaction rate.
their general properties is that they are all non metals
as a general rule, anything ending in -ase is an enzyme, so lactase is an enzyme that breaks down molecules of lactose
Do you mean denatured? Form is function in an enzyme and if heat or acidity denatures an enzyme the function of the enzyme is compromised. Certain R group bonds being br5oken will denature the enzyme and give it a different conformation.
as a general rule, anything ending in -ase is an enzyme, so lactase is an enzyme that breaks down molecules of lactose
Yes, a binding site is a crucial part of an enzyme's structure. It is the specific region where substrates bind to the enzyme, facilitating the chemical reaction. The shape and chemical properties of the binding site are tailored to interact with particular substrates, which is essential for the enzyme's function and specificity.
its functions
General term.DNA polymerase.-----------------------