In the solid phase preparation of synthetic peptide libraries, equimolarity of the resultant peptides in the mixture simplifies the identification of active compounds. Two primary methods for the preparation of combinatorial peptide mixtures are currently used. In the first method, the starting resin is divided into equal aliquots, individual amino acids are coupled to each aliquot, and the resin is then recombined. This process is repeated for each position. However, due to the physical process, each resin bead contains only one peptide sequence. Statistically, for mixtures of longer sequences, an ever-increasing amount of resin is necessary to ensure complete representation of each peptide in the library. Thus, each peptide will be represented in the library if a sufficient number of resin beads are used. In addition, the concentration of each peptide in the library depends on both the number of mixture positions in the library and the amount of resin used. In the second method, mixtures of amino acids are coupled simultaneously at each addition step. The proportion of each amino acid in the reaction mixture is varied inversely to its reaction rate such that, ideally, an equimolar mixture of each peptide is synthesized. An advantage of this method over the previous method is that each peptide is ensured to be represented in the library, although not necessarily in equimolar amounts. It is known that not only do the coupling rates of each amino acid vary, but the coupling rates of individual amino acids also change when coupled to different amino acid resins.(ABSTRACT TRUNCATED AT 250 WORDS)