TY - JOUR
T1 - Destabilization of wheat dough
T2 - Interrelation between CO2 and glutathione
AU - Verheyen, C.
AU - Albrecht, A.
AU - Becker, T.
AU - Jekle, M.
N1 - Publisher Copyright:
© 2016 Elsevier Ltd. All rights reserved.
PY - 2016/4
Y1 - 2016/4
N2 - Minor variations in the metabolic profile of yeast strongly affect wheat dough structure, the resulting bread volume and its crumb texture. However, it is complex to analyze the impact of single yeast metabolites on the development of dough during processing. In this study, a chemical-leavening system based on glucono-delta-lactone and NaHCO3 was applied to analyze aeration and gas retention in presence of glutathione independent from the yeast metabolism. The addition of glutathione-amplified gas release during kneading and reduced the time to reach the maximum gas formation rate. The results indicated that the inflation of dough is not limited by the amount of CO2 nor its release kinetics; however, during baking further aeration is restricted. The oven rise was impaired by high initial CO2 volumes, which is enhanced by the presence of glutathione. Industrial relevance This investigation addressed the effect of yeast equivalent glutathione on the properties of aerated dough and the resulting bread properties. Through the application of a chemical-leavening system the yeast metabolism can be avoided. GSH from lysed yeast cells had a weakening effect, which confirms observations of structure-loss after freeze-thaw processes of dough. Moreover, the use of chemical-leavening agents reduces bread production costs, since the fermentation process can be neglected.
AB - Minor variations in the metabolic profile of yeast strongly affect wheat dough structure, the resulting bread volume and its crumb texture. However, it is complex to analyze the impact of single yeast metabolites on the development of dough during processing. In this study, a chemical-leavening system based on glucono-delta-lactone and NaHCO3 was applied to analyze aeration and gas retention in presence of glutathione independent from the yeast metabolism. The addition of glutathione-amplified gas release during kneading and reduced the time to reach the maximum gas formation rate. The results indicated that the inflation of dough is not limited by the amount of CO2 nor its release kinetics; however, during baking further aeration is restricted. The oven rise was impaired by high initial CO2 volumes, which is enhanced by the presence of glutathione. Industrial relevance This investigation addressed the effect of yeast equivalent glutathione on the properties of aerated dough and the resulting bread properties. Through the application of a chemical-leavening system the yeast metabolism can be avoided. GSH from lysed yeast cells had a weakening effect, which confirms observations of structure-loss after freeze-thaw processes of dough. Moreover, the use of chemical-leavening agents reduces bread production costs, since the fermentation process can be neglected.
KW - Bread volume
KW - Chemical-leavening system
KW - Dough weakening
KW - Gas retention capacity
KW - Glutathione
KW - Rheofermentometer
UR - http://www.scopus.com/inward/record.url?scp=84962189591&partnerID=8YFLogxK
U2 - 10.1016/j.ifset.2016.03.006
DO - 10.1016/j.ifset.2016.03.006
M3 - Article
AN - SCOPUS:84962189591
SN - 1466-8564
VL - 34
SP - 320
EP - 325
JO - Innovative Food Science and Emerging Technologies
JF - Innovative Food Science and Emerging Technologies
ER -