they reduce the activation energy required for the reaction to occur
enzymes
enzymes
Enzymes.
Recombinant DNA technology uses enzymes, such as restriction enzymes and ligases, but does not require a source of external energy to catalyze the reactions. The enzymes themselves catalyze the DNA manipulation reactions without the need for additional energy inputs.
Enzymes themselves are not compounds, but rather biological molecules that catalyze chemical reactions in living organisms. Enzymes can help produce compounds by facilitating specific chemical reactions, but they are not the compounds themselves.
Yes, enzymes can catalyze reactions in both directions.
Yes, enzymes can catalyze a variety of reactions by speeding up chemical reactions in living organisms.
Most enzymes catalyze reactions in a specific direction, typically from substrates to products.
Most enzymes catalyze reactions in the forward direction, converting substrates into products.
enzymes
Yes, enzymes can catalyze reactions bidirectionally, meaning they can facilitate both the forward and reverse reactions of a chemical process.
Enzymes can catalyze reactions such as oxidation-reduction, hydrolysis, condensation, and isomerization. They can also facilitate reactions involving the transfer of functional groups or rearranging molecular structures.
enzymes
Enzymes.
Enzymes
Enzymes remain unchanged and available to catalyze multiple reactions. They are not used up in a reaction.
No, enzymes are specific in their function and can only catalyze specific reactions.