ATP
Biochemical reactions are the reactions taking place in the Biological systems. The biological systems contains proteins whose one of the main functions is to catalyse the reactions. The proteins involved in such type of reactions are called as an enzyme. The enzymes catalyse the reactions by lowering the activation energy (energy required to attain the transition state) and helps in the conversion of substrate into the required product.
Enzymes lower the energy required for a chemical reaction.
Yes. A catalyst (AKA enzyme, in biochemical reactions) bonds to reactants and lowers the activation energy required for the reaction to take place. (It makes it require less energy to happen.) After the reaction is finished, the enzyme unbinds and can be reused. Catalysts are used to speed up biochemical reactions; for example, without enzymes, the food you ate a month ago wouldn't be digested and would still be sitting in your stomach today. Enzymes can be denatured (lose their shape) by extreme heat or acid. If it is denatured then it cannot perform a biochemical reaction.
Metabolism is best defined as biochemical reactions involved in building cell molecules or breaking down molecules for energy.
ATP
Simply, the effect of lowering the activation energy of biochemical reactions.
Enzymes catalyse biochemical reaction by lowering the activation energy.
ATP stores chemical energy in its phosphate bonds. Energy is released when the phosphate bond is broken.
Biochemical reactions are the reactions taking place in the Biological systems. The biological systems contains proteins whose one of the main functions is to catalyse the reactions. The proteins involved in such type of reactions are called as an enzyme. The enzymes catalyse the reactions by lowering the activation energy (energy required to attain the transition state) and helps in the conversion of substrate into the required product.
Enzymes speed up biochemical reactions by lowering the activation energy of the reaction.
biochemical pathway
Enzymes lower the energy required for a chemical reaction.
energy source that niether the reactant nor the product
by reducing the activation energy required to initiate the reaction
{In the banner, Biochemistry was put beside Wood-Burning Stoves for this Reason: The Biochemical Equation that Describes Photosynthesis is the exact opposite of the Biochemical Equation that Describes Respiration.}The Chemical Reactions that describe Combustion - the combining of hydrocarbons [oil for example] with Oxygen to produce H2O and chemical [thermal] energy - Heat - and CO2 - are identical to the Biochemical reactions that describe Respiration.
Enzymes are catalysts for the various chemical processes in the body. By lowering the activation energy of reactions, these enzymes catalyze the biochemical reactions necessary for life.
Enzymes make biochemical reactions go much faster - the rate is a million to a billion times enhanced.