Isolation and Identification of Peptides from the Diafiltration Permeate

The water-soluble extract of a mature Cheddar cheese was fractionated by diafiltration using 10. kDa nominal molecular weight cutoff membranes...
1 downloads 0 Views 96KB Size
4512

J. Agric. Food Chem. 1998, 46, 4512−4517

Isolation and Identification of Peptides from the Diafiltration Permeate of the Water-Soluble Fraction of Cheddar Cheese Manuela Ferna´ndez,* Tanoj K. Singh,† and Patrick F. Fox Department of Food Chemistry, University College, Cork, Republic of Ireland

The water-soluble extract of a mature Cheddar cheese was fractionated by diafiltration using 10 kDa nominal molecular weight cutoff membranes. The permeate had a savory, cheesy taste, whereas the retentate was bland. The permeate was resolved into nine fractions by gel permeation chromatography on Sephadex G-25. Fractions I-III contained only peptides, whereas fractions IV-IX comprised mainly free amino acids. Fraction IV contained a mixture of all amino acids except Phe (fraction V), Tyr (fraction VI), and Trp (fraction IX). Fraction III, which had the savory cheesy taste of the permeate, was dominated by one major peak with several minor ones. Fraction III was rechromatographed on a Sephadex G-25 column, and a number of peptides were isolated from subfractions thereof by reversed-phase high-performance liquid chromatography and characterized by N-terminal amino acid sequencing and mass spectrometry. The results showed that starter bacteria cell-envelope proteinase, endopeptidases, and aminopeptidases play an important role in the degradation of the primary proteolytic products produced by chymosin and plasmin from Rs1-, Rs2-, and β-caseins. Keywords: Cheddar cheese; proteolysis; peptides; cheese flavor INTRODUCTION

Although it is generally accepted that free amino acids and small peptides contribute to the background flavor of cheese, the proteolytic products responsible for the cheesy taste and the agents responsible for their formation have not yet been fully characterized. Therefore, isolation and identification of peptides from cheese and explanation of their formation will help to complete understanding of proteolysis during cheese ripening. The study of peptide profiles can also help to determine the degree of maturation based on the detection and evaluation of peptide indicators related to the age of the cheese (Addeo et al., 1995). Various proteinases and peptidases in cheese hydrolyze caseins to peptides and free amino acids (Fox et al., 1994; McSweeney and Fox, 1997). Small peptides and free amino acids contribute directly to the background flavor of cheese (McGugan et al., 1979; Aston and Creamer, 1986; Cliffe et al., 1993; Singh et al., 1994). Most of the savory, cheesy taste of the watersoluble extract (WSE) of Cheddar cheese is in the diafiltration permeate (DFP) (10 kDa nominal molecular weight cutoff), which contains small peptides, free amino acids, salts, and other low molecular weight compounds, whereas the retentate, which contains intermediate size peptides, is bland (Singh et al., 1994). Engels and Visser (1994) concluded that, with the exception of Edam, the ultrafiltration permeate (UFP), * Address correspondence to this author at the Departamento de Nutricio´n y Bromatologı´a III (Higiene y Tecnologı´a de los Alimentos), Facultad de Veterinaria, Universidad Complutense de Madrid, 28040 Madrid, Spain (telephone +34-13943751; fax +34-1-3943743; e-mail [email protected]. ucm.es). † Present address: Department of Food Science, University of Minnesota, St. Paul, MN 55108.

with a molecular weight (MW)