采用两段式变温诱导米曲霉固态发酵高效去除豆粕中的植酸。

High-efficiency removal of phytic acid in soy meal using two-stage temperature-induced Aspergillus oryzae solid-state fermentation.

机构信息

Bioprocessing and Renewable Energy Laboratory, Department of Grain Science and Industry, Kansas State University, Manhattan, KS, 66502, USA.

出版信息

J Sci Food Agric. 2014 Jan 15;94(1):113-8. doi: 10.1002/jsfa.6209. Epub 2013 Jun 7.

DOI:10.1002/jsfa.6209

PMID:23633040

Abstract

BACKGROUND

Phytic acid of soy meal (SM) could influence protein and important mineral digestion of monogastric animals. Aspergillus oryzae (ATCC 9362) solid-state fermentation was applied to degrade phytic acid in SM. Two-stage temperature fermentation protocol was investigated to increase the degradation rate. The first stage was to maximize phytase production and the second stage was to realize the maximum enzymatic degradation.

RESULTS

In the first stage, a combination of 41% moisture, a temperature of 37 °C and inoculum size of 1.7 mL in 5 g substrate (dry matter basis) favored maximum phytase production, yielding phytase activity of 58.7 U, optimized via central composite design. By the end of second-stage fermentation, 57% phytic acid was degraded from SM fermented at 50 °C, compared with 39% of that fermented at 37 °C. The nutritional profile of fermented SM was also studied. Oligosaccharides were totally removed after fermentation and 67% of total non-reducing polysaccharides were decreased. Protein content increased by 9.5%.

CONCLUSION

Two-stage temperature protocol achieved better phytic acid degradation during A. oryzae solid state fermentation. The fermented SM has lower antinutritional factors (phytic acid, oligosaccharides and non-reducing polysaccharides) and higher nutritional value for animal feed.

摘要

背景

豆粕中的植酸会影响单胃动物蛋白质和重要矿物质的消化。米曲霉（ATCC 9362）固态发酵可用于降解豆粕中的植酸。研究了两段式温度发酵方案以提高降解率。第一阶段旨在最大限度地提高植酸酶的产量，第二阶段则旨在实现最大的酶降解。

结果

在第一阶段，在 41%水分、37°C温度和 1.7 mL 接种量（干物质基础）的组合下，有利于最大程度地生产植酸酶，产酶活达到 58.7 U，通过中心复合设计进行了优化。在第二阶段发酵结束时，与在 37°C 发酵相比，在 50°C 发酵的豆粕中 57%的植酸被降解，而在 37°C 发酵的豆粕中 39%的植酸被降解。还研究了发酵豆粕的营养状况。发酵后完全去除了低聚糖，总非还原多糖减少了 67%。蛋白质含量增加了 9.5%。

结论

米曲霉固态发酵两段式温度方案可实现更好的植酸降解。发酵后的豆粕具有较低的抗营养因子（植酸、低聚糖和非还原多糖），营养价值更高，可用于动物饲料。

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采用两段式变温诱导米曲霉固态发酵高效去除豆粕中的植酸。

High-efficiency removal of phytic acid in soy meal using two-stage temperature-induced Aspergillus oryzae solid-state fermentation.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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