Trypsin-catalyzed syntheses of peptides were performed using various N-acylated amino acid or peptide esters as donors and amino acid derivatives, peptides, or their derivatives as acceptors. The synthesis was almost quantitative under optimal conditions. Considerably more enzyme and a more alkaline pH were necessary for synthesis than hydrolysis. Another very important condition was the concentration of the starting materials; higher concentrations resulted in much better product yields. The nucleophile specificity for synthesis was also important; hydrophobic or bulky amino acid residues were most efficient at the P1' position, and L-proline as well as D-amino acid residues were the worst choices. The synthesis was also dependent on the solubility of the products synthesized; the yield was higher with products of lower solubility. As donor esters, good substrates were all useful. Accordingly, fragment condensation was possible using N-acylated peptide esters and various peptides. The present study suggests that trypsin may become a useful tool for peptide synthesis.