Vm. Hill et al., INFLUENCE OF HIGH HYDROSTATIC-PRESSURE AND PH ON THE RATE OF MAILLARDBROWNING IN A GLUCOSE-LYSINE SYSTEM, Journal of agricultural and food chemistry, 44(2), 1996, pp. 594-598
Glucose-lysine solutions, initial pH 5.1, 6.5, 8.0, and 10.1, were inc
ubated at temperatures in the range 40-60 degrees C under atmospheric
pressure and 600 MPa. The rate of Maillard browning at 50 degrees C wa
s shown to be retarded by pressure in solutions of initial pH 5.1 and
6.5 but significantly enhanced in solutions of initial pH 8.0 and 10.1
, while the effect of pressure was negligible at pH 7.0-7.5. At pH 10.
1 the activation energies for the two systems (high pressure and atmos
pheric pressure) were not significantly different. The rates of reacti
on of these systems carried out in phosphate and bicarbonate buffer, a
t 600 MPa and alkaline pH, were slower than expected. It is proposed t
hat pressure-induced ionization of the carboxylate group on the lysine
at low pH, or of the phosphate and bicarbonate groups at high pH, cau
ses a decrease in pH and subsequent reduction in the rate of reaction.
In systems in which the pH is unaffected by pressure, i.e., those buf
fered by the amino groups of lysine, pressure accelerates the rate of
reaction. Preliminary HPLC and UV data suggest there is no difference
between the chemical pathways followed with and without the applicatio
n of elevated pressure.