Abstract
This study describes the accelerating effect exerted on proteolysis and flavour development in cheese-curd slurries by combined application ofLactococcus lactis subsp.lactis IFPL359 and high concentrations of its Lac− Prt− derivative, (i.e. that which has reduced capacity to metabolize lactose and reduced proteolytic activity, strain T1). Cells of strain T1 partially lysed by either sonication or incubation with lysozyme, were also used to ascertain how proteolysis was affected by release of intracellular enzymes in the initial stage of incubation of the strains in cheese-curd slurries. The presence of strain T1 produced higher levels of non-protein nitrogen (NPN) and amine nitrogen (AN) during the first weeks of incubation when partially lysed cells had been added. Addition of whole cells of strain T1 produced higher values of NPN and AN at the end of incubation of slurries, accelerating proteolysis by about 2 weeks with respect to the control, which only contained the parental strain IFPL359. At the end of the experimental period higher amino acid levels were detected by HPLC in the slurry containing whole T1 cells. Volatile fractions of the different cheese-curd slurries were also analysed. The higher level of proteolysis produced by addition of high levels of strain T1 appeared to be related to release of intracellular enzymes by this strain owing to its greater capacity for autolysis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Law BA (1984) In: Davies FL, Law BA (eds) Advances in the microbiology and biochemistry of cheese and fermented milk. Elsevier Applied Science Publishers, London, pp 187–208
Visser S (1993) J Dairy Sci 76: 329–350
Grieve PA, Dulley JR (1983) Aust J Dairy Technol 38: 49–54
Kamaly KM, Johnson ME, Marth EH (1989) Milchwissenschaft 44: 343–346
El Abboudi M, El Soda M, Johnson M, Olson NF, Simard RE, Pandian S (1992) Milchwissenschaft 47: 625–628
Birkeland SE, Abrahamsen RK, Langsrud T (1992) J Dairy Res 59: 389–400
Thomas TD, Pritchard GG (1987) FEMS Microbiol Rev 46: 245–268
Langsrud T, Landaas A, Castberg HB (1987) Milchwissenschaft 42: 556–560
Colbear T, Pillidge CJ, Crow VL (1994) Int Dairy J 4: 697–721
Requena T, de la Fuente MA, Fernández de Palencia P, Juárez M, Peláez C (1992) Lait 72: 437–448
Requena T, McKay LL (1993) Milchwissenschaft 48: 264–268
McKay LL, Miller III A, Sandine WE, Elliker PR (1970) J Bacteriol 102: 804–809
International Dairy Federation (1986) Int Dairy Fed Stand 5B. International Dairy Federation, Brussels
Kuchroo CN, Fox PF (1982) Milchwissenschaft 37: 331–335
Kuchroo CN, Rahilly J, Fox PF (1983) Ir J Food Sci Technol 7: 129–133
Godel HG, Graser T, Foldi P, Pgaender P, Furst (1984) J Chromatogr 297: 49–61
de Frutos M, Sanz J, Martínez-Castro I (1988) Chromatographia 25: 861–864
Exterkate FA (1987) Neth Milk Dairy J 41: 189–194
Wilkinson MG, Guinee TP, Fox PF (1994) Int Dairy J 4: 141–160
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rodríguez, J., Requena, T., Martínez-Castro, I. et al. The accelerating effect of aLactococcus lactis subsp.lactis lactose-utilization/proteinase-deficient strain on proteolysis and flavour development. Z Lebensm Unters Forch 203, 77–81 (1996). https://doi.org/10.1007/BF01267774
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01267774