A study of the involvement of amino acids and other amino compounds in sugar degradation during must cooking was pursued. Two white musts (Trebbiano toscano and Spergola) and a red one (Lambrusco) were cooked by means of a lab-scale equipment emulating the real process. Must composition and amino compound concentration were studied in order to understand the modifications induced by the heating process. Results showed that amino acids and related compounds tend to decrease at different rates during the 30 h of the cooking process. The behaviour of nitrogen compounds was studied by the ratio between initial and final concentrations, and by plotting amino compound concentrations vs. time. In both cases the effect of concentration was considered to eliminate its influence on discussion. Principal Component Analysis (PCA) clearly showed how time and heating produced similar trends during the cooking process of the different musts. The initial differences in composition characterised the whole process, and samples of each must were clearly apart from the other ones.
G. Montevecchi, F. Masino, F. Chinnici, A. Antonelli (2010). Occurrence and evolution of amino acids during grape must cooking. FOOD CHEMISTRY, 121, 69-77 [10.1016/j.foodchem.2009.12.005].
Occurrence and evolution of amino acids during grape must cooking
CHINNICI, FABIO;
2010
Abstract
A study of the involvement of amino acids and other amino compounds in sugar degradation during must cooking was pursued. Two white musts (Trebbiano toscano and Spergola) and a red one (Lambrusco) were cooked by means of a lab-scale equipment emulating the real process. Must composition and amino compound concentration were studied in order to understand the modifications induced by the heating process. Results showed that amino acids and related compounds tend to decrease at different rates during the 30 h of the cooking process. The behaviour of nitrogen compounds was studied by the ratio between initial and final concentrations, and by plotting amino compound concentrations vs. time. In both cases the effect of concentration was considered to eliminate its influence on discussion. Principal Component Analysis (PCA) clearly showed how time and heating produced similar trends during the cooking process of the different musts. The initial differences in composition characterised the whole process, and samples of each must were clearly apart from the other ones.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.