利用新型食品加工技术组合生产富铁羽衣甘蓝叶片(Brassica甘蓝L. var. acephala)

LWT Pub Date : 2023-09-01 DOI:10.1016/j.lwt.2023.115365
Siqiong Zhong, Jin Hong Mok, Ziqi Li, Sudhir K. Sastry, Rachel E. Kopec
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引用次数: 0

摘要

尽管含有丰富的铁,但绿叶蔬菜中的铁生物利用度相对于红肉中最丰富的原卟啉结合(如血红素)铁低。我们假设真空浸渍(VI)、水浴(WB)、硫酸铁溶液过夜浸泡(IM)和中等电场(MEF)等新型食品加工技术的组合可以提高羽衣甘蓝叶片铁含量,并在原位产生原生卟啉结合铁衍生物。MEF联合处理使叶片铁浓度比对照提高了约160倍。在MEF和im处理的羽衣甘蓝中检测到一种原卟啉IX铁异构体,每100 g羽衣甘蓝叶鲜重(FW)可提供0.75 mg原卟啉结合铁。IM和MEF处理也显著提高了叶片总叶绿素浓度,比对照高3倍。与其他植物源相比,本文采用的新型食品加工技术生产的羽衣甘蓝具有显著更高浓度的游离+血红素结合铁和总叶绿素。与其他富含铁的食物来源相比,未来的测试将确定这种“增铁”羽衣甘蓝是否能提供更多的铁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Production of iron-enriched kale leaves (Brassica oleracea L. var. acephala) utilizing combinations of novel food processing technologies
Despite its rich content, iron bioavailability from leafy greens is low relative to protoporphyrin-bound (e.g. heme) iron, richest in red meat. We hypothesized that combinations of novel food processing techniques, i.e., vacuum impregnation (VI), water-bath (WB), overnight immersion (IM) in an iron sulfate solution, and moderate electric field (MEF) could improve kale leaf iron content and produce protoporphyrin-bound iron derivatives in situ. Combination MEF treatments increased leaf iron concentrations ∼160x greater than control. A ferroprotoporphyrin IX isomer was detected in MEF and IM-treated kale, providing up to 0.75 mg protoporphyrin-bound iron/100 g kale leaf fresh weight (FW). IM and MEF treatments also significantly increased leaf total chlorophyll concentrations ∼3x greater than the control. The novel food processing techniques employed herein produced kale with significantly higher concentrations of free + heme-bound iron, as well as total chlorophyll, relative to other plant-based sources. Future testing will determine if this “iron-enhanced” kale delivers more iron, as compared to other iron-rich food sources.
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