Fermentation affects the composition and foaming properties of the aqueous phase of dough from soft wheat flour

Abstract

A quality characteristic of bread is that it has a homogeneous and fine crumb structure. The latter depends on the number and size of gas cells present in dough as well as their stabilization during fermentation and baking. Discontinuities in the gluten–starch matrix result in liquid films formed from the dough aqueous phase taking over gas cell stabilization. This is especially important in late fermentation. How fermentation affects (the composition and properties of) the dough aqueous phase is unclear. In the present study, the dough's aqueous phase was isolated as dough liquor (DL) from unfermented and fermented dough made from flour and water (with or without added sugar and salt). Fermentation increased DL yield and changed its composition. With regards to surface active proteins, especially the extractability of α-amylase/trypsin inhibitors and puroindolines (PINs) in DL increased. More foam of higher stability was formed from DL from (defatted) fermented dough than from that from (defatted) flour-water dough. PINs were specifically enriched in foam from DL from fermented dough. Finally, supplementation of dough with the latter DL sample yielded bread with finer gas cells than those of control bread. Thus, fermentation enhances the foaming properties of DL, which is also translated in improved bread quality.