Biochemical Energetics
For a reaction A + B –> C + D, A and B are the reactants and C and D are the products. Energetically favorable reactions proceed spontaneously from reactants to products. In such a case the energy state of reactants is lower than the energy state of products, meaning that the reaction proceeds in a downhill direction in terms of chemical energy. However, to reach this downhill state, the reactants must pass over a 'speed bump', an energetic barrier.
Catalysts lower the energetic barrier between substrates and products yet catalysts emerge unchanged from the reaction. Biological catalysts are called enzymes – these are usually proteins, but may be molecules of RNA (ribozymes). Enzymes increase the rate of reactions by virtue of a transient binding of substrate (A and/or B) to the active site of the enzyme. This binding of substrate to enzyme occurs at the active site where it is stabilized by numerous weak interactions (hydrogen bonds, electrostatic interactions, hydrophobic contacts, and van der Waals forces). The enzyme-substrate complex dissociates into enzyme (in original state) and products (C,D). | 0 Guide-Glossary
Catalysts lower the energetic barrier between substrates and products yet catalysts emerge unchanged from the reaction. Biological catalysts are called enzymes – these are usually proteins, but may be molecules of RNA (ribozymes). Enzymes increase the rate of reactions by virtue of a transient binding of substrate (A and/or B) to the active site of the enzyme. This binding of substrate to enzyme occurs at the active site where it is stabilized by numerous weak interactions (hydrogen bonds, electrostatic interactions, hydrophobic contacts, and van der Waals forces). The enzyme-substrate complex dissociates into enzyme (in original state) and products (C,D). | 0 Guide-Glossary