小麦/木薯/高粱复合面包中植酸降解:kudriavzevii TY13预培养和酵母提取物的影响

Serafina Lídia Vilanculos, U. Svanberg, T. Andlid
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引用次数: 0

摘要

在低收入/中等收入国家,以全谷类面粉为基础的饮食与缺铁性贫血和缺锌的高发率有关。这种面粉含有高含量的植酸盐,它能螯合铁和锌等矿物质,使它们无法被人类吸收。为了提高矿物质的吸收,需要达到植酸:铁的摩尔比<1和植酸:锌的摩尔比<5。本研究旨在通过添加一种释放植酸酶的酵母Pichia kudriavzevii TY13,提高小麦-木薯-全高粱复合面粉面包中植酸盐的降解,并在烘烤和未预热的情况下添加酵母提取物。采用高效离子色谱法测定植酸盐和矿物质含量。在复合面粉面团中添加P. kudriavzevii TY13,室温发酵2 h,植酸降解率达98%。然而,在室温下添加预孵育的P. kudriavzevii TY13和酵母提取物发酵1 h后,复合面包中的植酸减少量相同。将发酵温度提高到30℃,无论预孵育与否,P. kudriavzevii TY13加酵母浸膏发酵1 h后,植酸含量同样低。综上所述,提高发酵温度,添加酵母浸膏或未预孵育的P. kudriavzevii TY13,复合面包中植酸的还原速度更快。植酸与铁的摩尔比为0.2,植酸与锌的摩尔比为0.6,这强烈表明这种面包提高了两种矿物质的生物利用度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phytate degradation in composite wheat/cassava/sorghum bread: Effects of preincubation of Pichia kudriavzevii TY13 and presence of yeast extract
Diet based on whole cereal flours is associated with a high prevalence of iron deficiency anemia and zinc deficiency in low/middle-income countries. Such flours contain high content of phytate that chelates minerals such as iron and zinc, making them unavailable for absorption by humans. To improve the mineral absorption, a phytate:iron molar ratio <1 and a phytate:zinc molar ratio <5 is needed to be achieved. This study aimed to improve the phytate degradation in composite wheat-cassava-whole sorghum flour bread by adding a phytase releasing yeast Pichia kudriavzevii TY13 in baking, preincubated or not, with addition of yeast extract. The phytate and mineral contents were measured by high-performance ion chromatography. Addition of P. kudriavzevii TY13 to the composite flour dough and fermentation for 2 h at room temperature resulted in a 98% phytate degradation. However, the same phytate reduction in the composite bread was achieved after 1 h fermentation at room temperature with addition of preincubated P. kudriavzevii TY13 plus yeast extract. Increasing the fermentation temperature to 30°C, the phytate content was equally low after fermentation for 1 h with P. kudriavzevii TY13 (preincubated or not) plus yeast extract. In conclusion, a faster reduction of phytate in composite bread was obtained by increasing the fermentation temperature, and addition of P. kudriavzevii TY13 (preincubated or not) with added yeast extract. The phytate to iron molar ratio was then 0.2 and the phytate to zinc molar ratio 0.6, which strongly indicates an improved bioavailability of both minerals from such a bread.
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