Direct evidence for the presence of β-hydroxyphenylalanine and β-hydroxytyrosine in cutinase from Fusarium solani pisi

Abstract

Extracellular cutinase induced by cutin hydrolysate in glucose-grown Fusarium solani f. pisi was isolated in electrophoretically homogeneous form. This enzyme was similar to cutinase I generated by cutin-grown cells in its catalytic properties such as pH optimum, substrate specificity, and inactivation by “active serine”-directed reagents. Its molecular weight was 26,300 and this enzyme had a much larger content of serine and threonine residues than that found in cutinase from the cutin-grown cells. The hydrolysate-induced enzyme was a glycoprotein containing 6% carbohydrates. Alkaline NaB 3H 4 treatment of the protein generated labeled protein and labeled carbohydrates. Analyses of the hydrolysates of these labeled products showed that alanine, α-aminobutyrate, phenylalanine, and tyrosine in the protein were labeled strongly suggesting that serine, threonine, β-hydroxyphenylalanine, and β-hydroxytyrosine were involved in O-glycosidic linkages in this protein. The protein hydrolysate also contained labeled gulonic acid, suggesting that d-glucuronic acid was attached to the protein via a base stable linkage, presumably an amide linkage at the N-terminus. The labeled reduced carbohydrates were identified by ion-exchange, thin-layer, gas-liquid, and high-performance liquid chromatographic techniques as mannitol, arabitol, gulonic acid, and 2-aminosorbitol. Thus mannose, arabinose, glucuronic acid, and glucosamine (possibly N-acetylated) were attached O-glycosidically to the hydroxyamino acids. Induction of cutinase by cutin hydrolysate in the presence of tritiated phenylalanine gave labeled cutinase. Cleavage of the O-glycosidically attached carbohydrates by anhydrous HF, followed by enzymatic hydrolysis of the labeled protein, gave rise to labeled amino acids, which upon analysis with an amino acid analyzer revealed four radioactive components. Two of them were identified as phenylalanine and tyrosine, while the other two cochromatographed with authentic β-hydroxyphenylalanine and β-hydroxytyrosine not only by the amino acid analyzer but also upon thin-layer chromatography. These results constitute the first direct evidence for the presence of the novel β-hydroxyaromatic amino acids in a protein.