Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization

Mazzobre, M.F.; Del Pilar Buera, M.; Chirife, J.

doi:10.1006/fstl.1996.0231

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Mazzobre, M.F.; Del Pilar Buera, M.; Chirife, J. "Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization" (1997) LWT - Food Science and Technology. 30(3):324-329

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00236438_v30_n3_p324_Mazzobre

La versión final de este artículo es de uso interno. El editor solo permite incluir en el repositorio el artículo en su versión post-print. Por favor, si usted la posee enviela a

Consulte el artículo en la página del editor

Consulte la política de Acceso Abierto del editor

Abstract:

Thermal inactivation of β-galactosidase was investigated in dried matrices of poly(vinyl)pyrrolidone (PVP), maltodextrin and trehalose. Significant lactase inactivation was observed in the polymeric matrices kept well below their glass transition temperature (Tg). The stability of the enzyme in the anhydrous glassy matrices of maltodextrin and PVPs heated at 70 °C was directly related to their Tg; i.e. systems with higher glass transition temperature afforded better thermal protection of lactase. However, the stability of lactase in the heated trehalose matrix deviated from this behaviour since enzyme stability was higher than expected on the basis of the results obtained with polymeric matrices. In systems in which the trehalose matrix was rehumidified to conditions which allowed a high proportion of trehalose to crystallize, the enzyme was rapidly inactivated upon heating. Addition of maltodextrin to trehalose matrix provided enhanced protection to the enzyme, and this was probably due to delayed trehalose crystal formation. © 1997 Academic Press Limited.

Registro:

Documento:	Artículo
Título:	Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization
Autor:	Mazzobre, M.F.; Del Pilar Buera, M.; Chirife, J.
Filiación:	Departamento de Industrias, Fac. de Ciencias Exactas y Naturales, Ciudad Universitaria, (1428) Buenos Aires, Argentina
Palabras clave:	Trehalose; enzyme stability; lactase
Año:	1997
Volumen:	30
Número:	3
Página de inicio:	324
Página de fin:	329
DOI:	http://dx.doi.org/10.1006/fstl.1996.0231
Título revista:	LWT - Food Science and Technology
Título revista abreviado:	LWT - Food Sci. Technol.
ISSN:	00236438
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00236438_v30_n3_p324_Mazzobre

Referencias:

Colaço, C., Sen, S., Thangavelu, M., Pinder, S., Roser, B., Extraordinary stability of enzymes dried in trehalose: Simplified molecular biology (1992) Biotechnology, 10, pp. 1007-1011
Palumbo, M.S., Smith, P.W., Strange, E.D., Vanhekken, D.L., Tunick, M.H., Holsinger, V.H., Stability of β-galactosidase fromAspergillus orizaeKluyveromyces lactis (1995) Journal of Food Science, 60, pp. 117-119
Schebor, C., Buera, M.P., Chirife, J., Glassy state in relation to the thermal inactivation of enzyme invertase in amorphous dried matrices of trehalose, maltodextrin and PVP (1996) Journal of Food Engineering, 30, pp. 269-282
Leslie, S.B., Teter, S.A., Crowe, L.M., Crowe, J.H., Trehalose lowers membrane phase transitions in dry yeast cells (1994) Biochimica et Biophysica Acta, 1192, pp. 7-13
Carpenter, J.F., Crowe, L.M., Crowe, J.H., Stabilization of phosphofructokinase with sugars during freeze-drying: Characterization of enhanced protection in the presence of divalent cations (1987) Biochimica et Biophysica Acta, 923, pp. 109-115
Carpenter, J.F., Martin, B., Crowe, L.M., Crowe, J.H., Stabilizaton of phosphofructokinase during air-drying with sugars and sugar/transition metal mixtures (1987) Cryobiology, 24, pp. 455-464
Crowe, J.H., Crowe, L.M., Carpenter, J.F., Aurellwistrom, C., Stabilization of dry phospholipid bilayers and proteins by sugars (1987) Biochemical Journal, 242, pp. 1-10
Leslie, S.B., Israeli, E., Lighthart, B., Crowe, J.H., Crowe, L.M., Trehalose and sucrose protect both membranes and proteins during drying (1995) Applied Environmental Microbiology, 61, pp. 3592-3597
Crowe, L.M., Crowe, J.H., Chapman, D., Preservation of membranes of anhydrobiotic organisms: The role of trehalose (1984) Science, 233, pp. 701-703
Crowe, J.H., Carpenter, J.F., Crowe, L.M., Anchordoguy, T.J., Are freezing and dehydration similar stress vector? A comparison of mode of interaction of stabilizing solutes with biomolecules (1990) Cryobiology, 27
Levine, H., Slade, L., Glass transitions in foods (1992) Physical Chemistry of Foods, , New York: Marcel Dekker, Inc
Franks, F., Solid aqueous solutions (1993) Pure and Applied Chemistry, 65, pp. 2527-2537
Mazzobre, M.F., Buera, M.P., Chirife, J., Glass transition and thermal stability of lactase in low moisture amorphous polymeric matrices Biotechnology Progress
Cardona, M.F., Schebor, C., Buera, M.P., Karel, M., Chirife, J., Thermal stability of invertase in reduced-moisture amorphous matrices in relation to glassy state and role of trehalose crystallization (1997) Journal of Food Science, pp. 105-112
Shimada, Y., Roos, Y., Karel, M., Oxidation of methyl linoleate encapsulated in amorphous lactose-based food models (1991) Journal of Agricultural and Food Chemistry, 39, pp. 637-641
Labrousse, S., Roos, Y., Karel, M., Collapse and crystallization in amorphous matrices with encapsulated compounds (1992) Sciences des Aliments, 12, pp. 755-769
Karel, M., Anglea, S., Buera, M.P., Karmas, R., Levi, G., Roos, Y., Stability-related transitions of amorphous foods (1994) Thermochimica Acta, 246, pp. 249-269
Karmas, R., (1994) The Effect of Glass Transition on Non-enzymatic Browning in Dehydrated Food Systems
Williams, M.L., Landel, R.F., Ferry, J.D., The temperature dependence of relaxation mechanisms in amorphous polymers and other glass forming liquids (1955) Journal of American Chemical Society, 77, pp. 3701-3707
Buera, M.P., Chirife, J., Karel, M., A study of acid-catalyzed sucrose hydrolysis in an amorphous polymeric matrix at reduced moisture contents (1995) Food Research International, 28, pp. 359-365
Buera, M.P., Levi, G., Karel, M., Glass transition in polyvinylpyrrolidone: Effect of molecular weight and diluents (1992) Biotechnology Progress, 8
Roos, Y., Karel, M., Phase transitions of mixtures of amorphous polysaccharides and sugars (1991) Biotechnology Progress, 57, pp. 49-53
Nelson, K.A., (1993) Reaction Kinetics of Food Stability: Comparison of Glass Transition and Classical Models for Temperature and Moisture Dependence
Bell, L.N., Hageman, M.J., Differentiating between the effects of water activity and glass transition dependent mobility on a solid state chemical reaction: Aspartame degradation (1994) Journal of Agricultural and Food Chemistry, 42, pp. 2398-2401
Green, J.L., Angell, A., Phase relations and vitrification in saccharide-water solution and the trehalose anomaly (1989) Journal of Physical Chemistry, 93, pp. 2880-2882
Roos, Y., Karel, M., Plasticizing effect of water on thermal behavior and crystallization of amorphous food models (1991) Journal of Food Science, 56, pp. 38-43
Berlin, E., Anderson, B.A., Pallansch, M.J., Water sorption by dried dairy products stabilized with carboxymethyl cellulose (1973) Journal of Dairy Science, 56, pp. 685-689
Iglesias, H.A., Chirife, J., Delayed crystallization of amorphous sucrose in humidified freeze dried model systems (1978) Journal of Food Technology, 13, pp. 137-144
Tsorouflis, S., Flink, J.M., Karel, M., Loss of structure in freeze-dried carbohydrates solutions: Effect of temperature, moisture content and composition (1976) Journal of the Science of Food and Agriculture, 27, pp. 509-519
Gerschenson, L.N., Bartholomai, G.B., Chirife, J., Structural collapse and volatile retention during heating and rehumidification of freeze-dried tomato juice (1981) Journal of Food Science, 46, pp. 1552-1556
Karmas, R., Buera, M.P., Karel, M., Effect of glass transition on rates of nonenzymatic browning in food systems (1992) Journal of Agricultural and Food Chemistry, 40, pp. 873-879
Roos, Y., (1995) Phase Transitions in Foods, , San Diego, CA: Academic Press

Citas:

---------- APA ----------

Mazzobre, M.F., Del Pilar Buera, M. & Chirife, J. (1997) . Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization. LWT - Food Science and Technology, 30(3), 324-329.
http://dx.doi.org/10.1006/fstl.1996.0231

---------- CHICAGO ----------

Mazzobre, M.F., Del Pilar Buera, M., Chirife, J. "Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization" . LWT - Food Science and Technology 30, no. 3 (1997) : 324-329.
http://dx.doi.org/10.1006/fstl.1996.0231

---------- MLA ----------

Mazzobre, M.F., Del Pilar Buera, M., Chirife, J. "Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization" . LWT - Food Science and Technology, vol. 30, no. 3, 1997, pp. 324-329.
http://dx.doi.org/10.1006/fstl.1996.0231

---------- VANCOUVER ----------

Mazzobre, M.F., Del Pilar Buera, M., Chirife, J. Protective role of trehalose on thermal stability of lactase in relation to its glass and crystal forming properties and effect of delaying crystallization. LWT - Food Sci. Technol. 1997;30(3):324-329.
http://dx.doi.org/10.1006/fstl.1996.0231