Antioxidant Potential Evaluation at Various Stages of Black Cumin Oil Production.

IF 4.7 2区农林科学 Q1 FOOD SCIENCE & TECHNOLOGY Foods Pub Date : 2024-11-04 DOI:10.3390/foods13213518

Dobrochna Rabiej-Kozioł, Aleksandra Szydłowska-Czerniak

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Abstract

Nigella sativa L. seeds and their industrial process products, oils, cake, and meal, are valuable sources of bioactive compounds with antioxidant properties. In this work, the effect of technological processes on the antioxidant capacity (AC) and total phenolic content (TPC) in the black cumin oils obtained by cold pressing and solvent extraction, as well as the by-products, were evaluated. The AC values of black cumin seeds (BCS), cold-pressed black cumin oil (BCCPO), black cumin oil extracted from seeds (BCEO-S), black cumin oil extracted from cake (BCEO-C), black cumin cake (BCC), and black cumin meal (BCM) were determined by 2,2-diphenyl-1-picrylhydrazyl (DPPH) and cupric reducing antioxidant capacity (CUPRAC) assays, whereas TPC in these samples was analyzed by the Folin-Ciocalteu (FC) method. Two applied conventional oil extraction methods, screw pressing and solvent extraction, significantly affected the AC and TPC in the obtained black cumin oils and by-products. The solvent-extracted black cumin oils revealed higher antioxidant properties (DPPH = 4041-16,500 μmol TE/100 g, CUPRAC = 1275-4827 μmol TE/100 g) than the cold-pressed black cumin oil (DPPH = 3451 μmol TE/100 g and CUPRAC = 3475 μmol TE/100 g). In addition, the oil yield (20.92-48.86%) and antioxidant properties of BCCPO (DPPH = 2933-5894 μmol TE/100 g and TPC = 135-199 mg GAE/100 g) and BCC (DPPH = 1890-2265 μmol TE/100 g and TPC = 284-341 mg GAE/100 g) closely depended on the nozzle diameters (5, 8, and 10 mm) mounted in a screw press. Although both by-products were a rich source of antioxidants, BCM had significantly lower CUPRAC (1514 μmol TE/100 g) and TPC (92 mg GAE/100 g) values than BCC (CUPRAC = 3397 μmol TE/100 g and TPC = 426 mg GAE/100 g). Nevertheless, acid hydrolysis and alkaline hydrolysis of BCM extracts significantly increased their antioxidant potential. However, the DPPH (35,629 μmol TE/100 g), CUPRAC (12,601 μmol TE/100 g), and TPC (691 mg GAE/100 g) results were higher for the BCM extract after acid hydrolysis than those for alkaline hydrolysate (DPPH = 2539 μmol TE/100 g, CUPRAC = 5959 μmol TE/100 g, and TPC = 613 mg GAE/100 g). Finally, the generated AGREEprep metrics highlighted the sustainability and the greenness of the cold pressing of oil from BCS.

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黑孜然油生产不同阶段的抗氧化潜力评估

黑小茴香（Nigella sativa L.）种子及其工业加工产品（油、饼和粕）是具有抗氧化特性的生物活性化合物的宝贵来源。在这项工作中，研究人员评估了技术工艺对通过冷榨和溶剂萃取获得的黑孜然油以及副产品中抗氧化能力（AC）和总酚含量（TPC）的影响。黑孜然籽（BCS）、冷榨黑孜然油（BCPO）、从籽中提取的黑孜然油（BCEO-S）、从饼中提取的黑孜然油（BCEO-C）、黑孜然饼（BCC）和黑孜然粉（BCM）的抗氧化能力（AC）和总酚含量（TPC）均达到了标准值、采用 2,2-二苯基-1-苦基肼（DPPH）和铜还原抗氧化能力（CUPRAC）检测法测定黑孜然籽油（BCEO-S）、黑孜然饼油（BCEO-C）、黑孜然饼（BCC）和黑孜然粉（BCM）的抗氧化能力，而这些样品中的 TPC 则采用 Folin-Ciocalteu （FC）法分析。螺旋压榨和溶剂萃取这两种传统的榨油方法对所获得的黑孜然油和副产品中的 AC 和 TPC 有显著影响。与冷榨黑孜然油（DPPH = 3451 μmol TE/100 g 和 CUPRAC = 3475 μmol TE/100 g）相比，溶剂萃取黑孜然油具有更高的抗氧化性（DPPH = 4041-16,500 μmol TE/100 g 和 CUPRAC = 1275-4827 μmol TE/100 g）。此外，BCCPO（DPPH = 2933-5894 μmol TE/100 g，TPC = 135-199 mg GAE/100 g）和 BCC（DPPH = 1890-2265 μmol TE/100 g，TPC = 284-341 mg GAE/100 g）的出油率（20.92%-48.86%）和抗氧化特性与安装在螺旋榨油机中的喷嘴直径（5、8 和 10 毫米）密切相关。虽然两种副产品都是抗氧化剂的丰富来源，但 BCM 的 CUPRAC 值（1514 μmol TE/100 g）和 TPC 值（92 mg GAE/100 g）明显低于 BCC（CUPRAC = 3397 μmol TE/100 g 和 TPC = 426 mg GAE/100 g）。然而，BCM 提取物的酸水解和碱水解可显著提高其抗氧化潜力。然而，酸水解后 BCM 提取物的 DPPH（35629 μmol TE/100 g）、CUPRAC（12601 μmol TE/100 g）和 TPC（691 mg GAE/100 g）结果均高于碱水解物（DPPH = 2539 μmol TE/100 g、CUPRAC = 5959 μmol TE/100 g 和 TPC = 613 mg GAE/100 g）。最后，生成的 AGREEprep 指标强调了 BCS 冷榨油的可持续性和绿色性。

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来源期刊

Foods Immunology and Microbiology-Microbiology

CiteScore

7.40

自引率

15.40%

发文量

3516

审稿时长

15.83 days

期刊介绍： Foods (ISSN 2304-8158) is an international, peer-reviewed scientific open access journal which provides an advanced forum for studies related to all aspects of food research. It publishes reviews, regular research papers and short communications. Our aim is to encourage scientists, researchers, and other food professionals to publish their experimental and theoretical results in as much detail as possible or share their knowledge with as much readers unlimitedly as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. There are, in addition, unique features of this journal: manuscripts regarding research proposals and research ideas will be particularly welcomed electronic files or software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material we also accept manuscripts communicating to a broader audience with regard to research projects financed with public funds