alpha-chymotrypsin and ethyl-acetate

The influence of eight different N-terminal protecting groups (For, Ac, Boc, Fmoc, Mal, Pheac, Aloc and Z) on the alpha-chymotrypsin-catalyzed synthesis of the dipeptide derivative X-Phe-Leu-NH2 in organic media was studied. Groups such as Ac, For, Boc, Z, Mal, Pheac and Alloc always rendered good peptide yields (92% to 99%) either in acetonitrile or in ethyl acetate. Good correlations were found between molecular and physico-chemical characteristics of the N-alpha moiety such as the hydrophobicity (log P), ovality and dipole moment and the global reaction rate parameter k'. High k' values were obtained with the less hydrophobic groups, Ac, For and Mal, that have ovality values close to one and the highest dipole moments. Furthermore, it was found that the relative rate of hydrolysis and aminolysis of the acyl-enzyme intermediate expressed as the partition parameter p is affected by the N-alpha moiety of the acyl donor. Correlations between this parameter and the dipole moment of the protecting group were observed.

Topics: Acetates; Acetonitriles; Amides; Chymotrypsin; Enzymes, Immobilized; Kinetics; Peptide Biosynthesis; Peptides

11 amino acid derivatives were tested as alpha-chymotrypsin substrates in the esterification reaction with methanol in organic media. The reactions were carried out in water-saturated ethyl acetate and in acetonitrile containing 4% water. alpha-Chymotrypsin adsorbed on Celite was used as a catalyst. From initial reaction rate measurements, the Michaelis-Menten parameters Vmax and KM were determined. All the amino acid derivatives tested were esterified, and the highest values of kcat/KM were obtained with the N-acylated aromatic amino acids. Correlations between Michaelis-Menten parameters and physical properties of the substrates such as molar refractivity (MR) and log P were deduced. The results show that the specificity of the alpha-chymotrypsin towards the side chain of the amino acids in organic media is the same as that in aqueous media. However, the specificity towards the N-protecting group is opposite to that in water, so the reaction medium affects the interaction of this part of the molecule with the enzyme to a large extent.

Topics: Acetates; Acetonitriles; Amino Acids; Animals; Cattle; Chymotrypsin; Esters; In Vitro Techniques; Kinetics; Methanol; Solvents; Structure-Activity Relationship; Substrate Specificity; Water

The tripeptide Z-GlyPheLeuNH2 was continuously synthesized in a high yield from three amino acid derivatives, Z-Gly, PheOMe, and LeuNH2, by immobilized thermolysin (IMT) and immobilized alpha-chymotrypsin (IMC) in an organic solvent, ethyl acetate. The optimal conditions for the synthesis of Z-GlyPheOMe were established theoretically. The yield of Z-GlyPheOMe with IMT in ethyl acetate saturated with buffer was more than 88% after continuous synthesis for 116 hr. The optimal conditions for the synthesis of Z-GlyPheLeuNH2 from Z-GlyPheOMe and LeuNH2 by IMC through transesterification was established in batch reaction experiments. When the concentration of water in the reaction solution was 17-20 microliters/ml, the activity of IMC was highest. The equilibrium between the water concentration in the reaction solution and that in the resin used for enzyme immobilization depended on the resin and was not affected by the presence of the enzyme immobilized. Z-GlyPheLeuNH2 was synthesized from Z-GlyPheOMe and LeuNH2 with a yield of 100%, by continuous reaction for 160 hr. The reactor for synthesis of this tripeptide was efficient and stable because of the use of transesterification and the choice of an appropriate organic solvent. The series plug-flow reactor was successfully operated for 220 hr with a yield of more than 80%. The residual activity of IMT was 94% and that of IMC was 100%.

Topics: Acetates; Amino Acid Sequence; Chymotrypsin; Enzymes, Immobilized; Hydrogen-Ion Concentration; Kinetics; Molecular Sequence Data; Peptides; Thermolysin; Water