%0 Journal Article
%T Single versus multiple metabolite quantification of in vitro starch digestion: A comparison for the case of pulse cotyledon cells.
%A Duijsens D
%A Staes E
%A Segers M
%A Michels D
%A Pälchen K
%A Hendrickx ME
%A Verkempinck SHE
%A Grauwet T
%J Food Chem
%V 454
%N 0
%D 2024 Oct 1
%M 38805919
%F 9.231
%R 10.1016/j.foodchem.2024.139762
%X Different quantification methods for in vitro amylolysis were compared for individual chickpea and lentil cotyledon cells (ICC) as a relevant case study. For the first time, much-applied spectrophotometric methods relying on the quantification of certain functional groups (i.e., DNS, GOPOD) were compared to chromatographic quantification of starch metabolites (HPLC-ELSD). The estimated rate constant and linked initial rates of amylolysis were highly correlated for DNS, GOPOD, and HPLC-ELSD. However, absolute amylolysis levels depended on the applied method and sample-specific metabolite formation patterns. Multiresponse modelling was employed to further investigate HPLC-ELSD metabolite formation patterns. This delivered insight into the relative importance of different amylolysis reactions during in vitro digestion of pulse ICC, proving that maltotriose and maltose formation determined the overall amylolysis rate in this case. Multiresponse reaction rate constants of maltotriose and maltose formation were highly correlated to single response amylolysis rate constants (and initial rates) obtained for all three quantification methods.