使用阿拉伯胶和麦芽糊精二元混合物对甜菜根采后废弃物中富含甜菜红素的提取物进行包封，以促进食品循环生物经济。

Encapsulation of betalain-rich extract from beetroot postharvest waste using a binary blend of gum Arabic and maltodextrin to promote a food circular bioeconomy.

作者信息

Mkhari Tshamisane, Kaseke Tafadzwa, Fawole Olaniyi Amos

机构信息

Postharvest and Agroprocessing Research Centre, Department of Botany and Plant Biotechnology, University of Johannesburg, Johannesburg, South Africa.

Center of Excellence for Molecular Food Sciences, Department of Biochemistry, University of Belgrade, Belgrade, Serbia.

出版信息

Front Nutr. 2023 Aug 31;10:1235372. doi: 10.3389/fnut.2023.1235372. eCollection 2023.

DOI:10.3389/fnut.2023.1235372

PMID:37720382

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10501802/

Abstract

INTRODUCTION

The present study evaluated the potential of maltodextrin (MT), gum Arabic (GA), and their blends to produce functional beetroot waste extract powder (BWEP).

METHODS

The beetroot waste extracts were produced using 50% ethanol and encapsulated using 10% (1:10, ) of the GA and MT carriers at different blending ratios, namely, GA:MT 1:0, GA:MT 0:1, GA:MT 1:1, GA:MT 2:1, and GA:MT 1:2, respectively. The BWEP were analyzed for physicochemical, technofunctional, morphological, crystallinity, and antioxidant properties.

RESULTS

BWEP produced using either GA or MT exhibited better color, solubility, encapsulation efficiency, and betalain content. Powders from the blends of GA and MT showed better oil holding capacity and total phenolic content. On the other hand, powder yield, total soluble solids, titratable acidity, bulk density, and DPPH radical scavenging activity did not significantly differ ( > 0.05) among the powders. BWEP produced using GA and MT separately was relatively smaller and more regular compared to the powders from the blended biopolymers. All powders showed signs of agglomeration, which was more pronounced in the powders from the blended biopolymers. A total of 16 metabolites, including betalains (9), phenolic acids (2), and flavonoids (5), were tentatively identified. The majority of the metabolites were entrapped in the BWEP produced using GA and MT separately. The quantified metabolites included gallic acid (33.62-44.83 μg/g DM), (+)-catechin (32.82-35.84 μg/g DM), (-)-epicatechin (37.78-45.89 μg/g DM), and myricetin (30.07-35.84 μg/g DM), which were significantly higher in the BWEP produced from GA or MT separately.

DISCUSSION

The study showed that although blending GA and MT has the potential to improve the quality of BWEP, using these biopolymers separately showed a promise to promote a food circular bioeconomy.

摘要

引言

本研究评估了麦芽糊精（MT）、阿拉伯胶（GA）及其混合物生产功能性甜菜根废渣提取物粉末（BWEP）的潜力。

方法

使用50%乙醇制备甜菜根废渣提取物，并分别以10%（1:10，）的GA和MT载体，按不同混合比例，即GA:MT 1:0、GA:MT 0:1、GA:MT 1:1、GA:MT 2:1和GA:MT 1:2进行包封。对BWEP的物理化学、技术功能、形态、结晶度和抗氧化性能进行了分析。

结果

使用GA或MT制备的BWEP表现出更好的色泽、溶解性、包封效率和甜菜红素含量。GA和MT混合物制成的粉末表现出更好的持油能力和总酚含量。另一方面，粉末产率、总可溶性固形物、可滴定酸度、堆积密度和DPPH自由基清除活性在各粉末之间没有显著差异（>0.05）。与混合生物聚合物制成的粉末相比，单独使用GA和MT制备的BWEP相对更小且更规则。所有粉末均显示出团聚迹象，在混合生物聚合物制成的粉末中更为明显。初步鉴定出总共16种代谢物，包括甜菜红素（9种）、酚酸（2种）和黄酮类化合物（5种）。大多数代谢物被包裹在单独使用GA和MT制备的BWEP中。定量的代谢物包括没食子酸（33.62 - 44.83μg/g干物质）、（+）-儿茶素（32.82 - 35.84μg/g干物质）、（-）-表儿茶素（37.78 - 45.89μg/g干物质）和杨梅素（30.07 - 35.84μg/g干物质），这些在单独使用GA或MT制备的BWEP中显著更高。