Editing Active site (section)

===Approximation of the reactant===

During enzyme catalytic reaction, the substrate and active site are brought together in a close proximity. This approach has various purposes. Firstly, when substrates bind within the active site the [[Thermodynamic activity|effective concentration]] of it significantly increases than in solution. This means the number of substrate molecules involved in the reaction is also increased. This process also reduces the [[solvation|desolvation energy]] required for the reaction to occur. In solution substrate molecules are surrounded by solvent molecules and energy is required for enzyme molecules to replace them and contact with the substrate. Since bulk molecules can be excluded from the active site this energy output can be minimised. Next, the active site is designed to reorient the substrate to reduce the activation energy for the reaction to occur. The alignment of the substrate, after binding, is locked in a high energy state and can proceed to the next step. In addition, this binding is favoured by [[entropy]] as the energy cost associated with solution reaction is largely eliminated since solvent cannot enter active site. In the end, the active site may manipulate the [[Molecular orbital]] of the substrate into a suitable orientation to reduce activation energy.<ref name=":1" />{{Rp|155–8}}

The electrostatic states of substrate and active site must be complementary to each other. A polarized negatively charged amino acid side chain will repel uncharged substrate. But if the transition state involves the formation of an [[cation|ion]] centre then the side chain will now produce a favourable interaction.