Journal article
Assessing the impact of bacterial blends, crosslinking enzyme and storage times on volatile and non-volatile compound production in fermented pea protein emulsion gels
C Masiá, R Fernández-Varela, A Logan, U Bose, R Stockmann, L Ong, S Gras, PE Jensen, SR Yazdi, JM Gambetta
Food Chemistry | Published : 2025
Abstract
Pea protein is a promising ingredient for plant-based cheese production but has poor consumer acceptance due to intrinsic beany flavors. Fermentation could potentially decrease these off-flavors while also producing desirable cheese-like aromas. Pea protein emulsion gels were fermented using four different bacterial blends for 16 weeks with and without the crosslinking enzyme transglutaminase. The volatile organic compound (VOC) profiles were assessed by GC–MS and the peptide profile was measured by LC-MS/MS during storage. VOC production was mainly affected by the composition of the bacterial blends, followed by storage time. Crosslinking of the protein gel structure had minimal impact on V..
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Funding Acknowledgements
<BOLD>The authors would like to thank Andreas Koefoed Klitgaard for his input regarding the peptide analysis and their bitter related sensory perception. </BOLD> This work was funded by Innovation Foundation Denmark (grant 0153-00058B) and Novonesis (Chr Hansen legacy) as part of an indus-trial Ph.D. thesis. Lydia Ong and Sally Gras are both supported by the Australian Research Council Centre of Excellence in Plants for Space, grant number CE230100015.