利用时域核磁共振弛豫测量法研究面包制作和储存过程中添加麦麸对水分流动性和生物聚合物行为的影响。

Study on the effects of wheat bran incorporation on water mobility and biopolymer behavior during bread making and storage using time-domain H NMR relaxometry.

作者信息

Hemdane S, Jacobs P J, Bosmans G M, Verspreet J, Delcour J A, Courtin C M

机构信息

Laboratory of Food Chemistry and Biochemistry and Leuven Food Science and Nutrition Research Centre (LFoRCe), KU Leuven, Kasteelpark Arenberg 20, B-3001 Leuven, Belgium.

出版信息

Food Chem. 2017 Dec 1;236:76-86. doi: 10.1016/j.foodchem.2017.01.039. Epub 2017 Jan 11.

DOI:10.1016/j.foodchem.2017.01.039

PMID:28624092

Abstract

Water binding is suggested to be key in the deleterious effect of wheat bran on bread quality. This study investigates water mobility and biopolymer behavior during bran-rich bread making and storage, using H NMR. Coarse, ground, and pericarp-enriched bran were incorporated in bread dough, and their impact on freshly baked and stored bread properties was assessed. Compared to wheat flour control dough, bran incorporation resulted in a progressive immobilization of water during dough resting, which could be linked to changes in evolution of dough height during fermentation and oven rise. This, together with modified starch gelatinization behavior upon baking, can be related with the inferior quality of bran-rich breads. The impact was most pronounced with pericarp-enriched bran. Textural quality during storage was less affected for coarse or ground bran-rich bread compared to wheat flour bread, which could be principally attributed to retardation of amylopectin retrogradation in the presence of bran.

摘要

水结合被认为是麦麸对面包品质产生有害影响的关键因素。本研究利用核磁共振氢谱（¹H NMR）研究了富含麸皮的面包制作和储存过程中的水流动性及生物聚合物行为。将粗麸皮、磨碎的麸皮和富含果皮的麸皮加入面包面团中，并评估它们对新鲜烘焙面包和储存面包特性的影响。与小麦粉对照面团相比，在面团醒发过程中，加入麸皮会导致水逐渐固定，这可能与发酵和烘焙过程中面团高度变化的演变有关。这一点，再加上烘焙时淀粉糊化行为的改变，可能与富含麸皮面包的劣质品质有关。富含果皮的麸皮影响最为显著。与小麦粉面包相比，富含粗麸皮或磨碎麸皮的面包在储存过程中的质地质量受影响较小，这主要归因于麸皮存在时支链淀粉回生的延迟。

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利用时域核磁共振弛豫测量法研究面包制作和储存过程中添加麦麸对水分流动性和生物聚合物行为的影响。

Study on the effects of wheat bran incorporation on water mobility and biopolymer behavior during bread making and storage using time-domain H NMR relaxometry.

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