INVESTIGADORES
AÑON Maria Cristina
artículos
Título:
Effect of pH and ionic strength modifications on thermal denaturation of sunflower (Helianthus annuus) 11S globulin
Autor/es:
MOLINA, M.I., PETRUCCELLI, S., AÑÓN, M.C.
Revista:
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY
Referencias:
Año: 2004 vol. 52 p. 6023 - 6029
ISSN:
0021-8561
Resumen:
Helianthinin, the main storage protein of sunflowers, has low water solubility and does not form a gel
when heated; this behavior is different from other 11S globulins and limits its food applications. To
understand this particular behavior, changes on helianthinin association-dissociation state induced
by modifications in pH and ionic strength were analyzed. The influence of these different medium
conditions on its thermal stability and tendency to form aggregates was also studied. Helianthinin
behavior at different pH values and ionic strengths is similar to other 11S globulins except that it
remains in a trimeric form at pH 11. Helianthinin thermal stability is higher than other 11S globulins
but is lower than oat 11S globulin. Alkaline pH produces a 10 °C decrease of its denaturation
temperature and also of the cooperativity of denaturation process, but it does not affect the denaturation
activation energy. The decrease in thermal stability with the pH increase is also manifested by its
tendency to form aggregates by SH/SS interchange reactions. When thermal treatments at alkaline
pH are performed, all helianthinin subunits form aggregates, characterized by a higher proportion of-dissociation state induced
by modifications in pH and ionic strength were analyzed. The influence of these different medium
conditions on its thermal stability and tendency to form aggregates was also studied. Helianthinin
behavior at different pH values and ionic strengths is similar to other 11S globulins except that it
remains in a trimeric form at pH 11. Helianthinin thermal stability is higher than other 11S globulins
but is lower than oat 11S globulin. Alkaline pH produces a 10 °C decrease of its denaturation
temperature and also of the cooperativity of denaturation process, but it does not affect the denaturation
activation energy. The decrease in thermal stability with the pH increase is also manifested by its
tendency to form aggregates by SH/SS interchange reactions. When thermal treatments at alkaline
pH are performed, all helianthinin subunits form aggregates, characterized by a higher proportion of°C decrease of its denaturation
temperature and also of the cooperativity of denaturation process, but it does not affect the denaturation
activation energy. The decrease in thermal stability with the pH increase is also manifested by its
tendency to form aggregates by SH/SS interchange reactions. When thermal treatments at alkaline
pH are performed, all helianthinin subunits form aggregates, characterized by a higher proportion of
-polypeptides than R-polypeptides, which is an indication that aggregation is accompanied by
dissociation. Treatments at 80 °C are sufficient to induce aggregation but not to produce denaturation,
and in these conditions hexameric forms remain after the treatment.-polypeptides than R-polypeptides, which is an indication that aggregation is accompanied by
dissociation. Treatments at 80 °C are sufficient to induce aggregation but not to produce denaturation,
and in these conditions hexameric forms remain after the treatment.°C are sufficient to induce aggregation but not to produce denaturation,
and in these conditions hexameric forms remain after the treatment.