固态发酵农业副产物产生的酶在生物加工全麦面包中释放阿魏酸。

Enzymes produced by solid state fermentation of agro-industrial by-products release ferulic acid in bioprocessed whole-wheat breads.

机构信息

Laboratório de Bioquímica Nutricional e de Alimentos, Biochemistry Department, Chemistry Institute, Federal University of Rio de Janeiro, Av. Athos da Silveira Ramos 149, CT, Bloco A, sala 528A, 21941-909 Rio de Janeiro, Brazil; Laboratório de Biotecnologia Microbiana, Biochemistry Department, Chemistry Institute, Federal University of Rio de Janeiro, Av. Athos da Silveira Ramos 149, CT, Bloco A, sala 549-1, 21941-909 Rio de Janeiro, Brazil.

出版信息

Food Res Int. 2021 Feb;140:109843. doi: 10.1016/j.foodres.2020.109843. Epub 2020 Oct 27.

DOI:10.1016/j.foodres.2020.109843

PMID:33648166

Abstract

Solid-state fermentation (SSF) presents low cost and the possibility of adding value to waste by generating products rich in enzymes. The production of enzymes by SSF and its application in bakery have been previously reported separately in the literature. However, very few studies combine both approaches to evaluate the feasibility of applying enzymes produced by SSF to bread processing. The objective of this study was to use cocoa bean shell (CBS), wheat bran (WB) and brewer's spent grain (BSG) for enzyme production by SSF, and to evaluate their addition in breads. Three breads were produced: control bread (CB), bioprocessed bread added with fermented wheat bran (WBB) and bioprocessed bread added with fermented BSG (BSGB). Feruloyl esterase highest activities were 1,730 mU/g for WB fermented for 24 h and 1,128 mU/g for BSG fermented for 72 h. Xylanase highest activities were 547.9 U/g for BSG fermented for 48 h and 868.1 U/g for WB fermented for 72 h. CBS showed the lowest enzymatic activities. Bioprocessing breads with fermented WB and BSG led to an increase in soluble ferulic acid of 159% and 198%, respectively. The combination of SSF enzyme production and bread enzymatic bioprocessing strategies proved to be an effective green option for the valorization of agro-industrial by-products and the production of breads with enhanced ferulic acid content.

摘要

固态发酵 (SSF) 具有低成本的特点，并且通过生成富含酶的产品，具有废物增值的可能性。SSF 中酶的生产及其在烘焙中的应用已在文献中分别进行了报道。然而，很少有研究将这两种方法结合起来，以评估 SSF 生产的酶在面包加工中的应用可行性。本研究的目的是使用可可豆壳 (CBS)、麦麸 (WB) 和啤酒糟 (BSG) 进行 SSF 酶生产，并评估其在面包中的添加效果。共生产了三种面包：对照面包 (CB)、添加发酵麦麸的生物处理面包 (WBB) 和添加发酵啤酒糟的生物处理面包 (BSGB)。WB 发酵 24 小时和 BSG 发酵 72 小时后，发酵麦麸的最高木聚糖酶活性分别为 1,730 mU/g 和 1,128 mU/g；BSG 发酵 48 小时和 WB 发酵 72 小时的最高木聚糖酶活性分别为 547.9 U/g 和 868.1 U/g。CBS 的酶活最低。用发酵 WB 和 BSG 处理的生物处理面包，可分别使可溶性阿魏酸增加 159%和 198%。SSF 酶生产和面包酶生物处理策略相结合，被证明是一种有效、绿色的选择，可用于增值农业工业副产物，并生产具有更高阿魏酸含量的面包。

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固态发酵农业副产物产生的酶在生物加工全麦面包中释放阿魏酸。

Enzymes produced by solid state fermentation of agro-industrial by-products release ferulic acid in bioprocessed whole-wheat breads.

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