Irstea, OPAALE, IRM Food team, Rennes, France.
Magn Reson Chem. 2019 Sep;57(9):649-660. doi: 10.1002/mrc.4829. Epub 2019 Feb 13.
This research aimed to study the effects of using a partial vacuum for bread baking on macromolecules and water distribution in gluten-free bread. Bread baking under partial vacuum results in greater oven rise and a larger gas fraction in the crumb. Because water's boiling point decreases under reduced pressure, it was expected that its distribution within the dough and its interactions with the others dough's constituents (mainly starch) would differ from those in bread baked under atmospheric pressure. Time-domain nuclear magnetic resonance was used, as it has the rare capacity to quantify both gelatinization and retrogradation of starch. Complementary rheological measurements made it possible to show that crumb Young's modulus was mostly influenced by the gas fraction whereas there was little change in starch gelatinization and retrogradation when dough was baked under partial vacuum. When insufficiently hydrated (48%), the volume of breads was practically the same whatever the baking process. Meanwhile, the nuclear magnetic resonance results suggested that amylose short-term crystallization (on cooling) is dependent on water content. In addition, crumb Young's modulus during storage at room temperature correlated with an increase in free induction decay signal intensity.
本研究旨在研究在面包烘焙中使用部分真空对无麸质面包中高分子和水分分布的影响。在部分真空下烘焙面包会导致更大的烤箱上升和面包屑中更大的气体分数。由于水的沸点在减压下降低,预计其在面团内的分布及其与面团中其他成分(主要是淀粉)的相互作用将不同于在大气压下烘焙的面包。使用时域核磁共振,因为它具有定量淀粉糊化和回生的罕见能力。补充流变学测量使得可以表明面包屑的杨氏模量主要受气体分数的影响,而当面团在部分真空下烘焙时,淀粉糊化和回生几乎没有变化。当水合不足(48%)时,无论烘焙过程如何,面包的体积实际上是相同的。同时,核磁共振结果表明,支链淀粉的短期结晶(冷却时)取决于含水量。此外,在室温下储存期间面包屑的杨氏模量与自由感应衰减信号强度的增加相关。
