田口法优化石榴皮中3种活性成分的提取工艺

采用田口法优化乙醇回流提取石榴皮中3种酚酸——安石榴林、安石榴苷和鞣花酸,并使3种成分产率达到最大。通过单因素试验和田口法优化显著影响石榴皮提取的因素,包括乙醇体积分数、提取温度、提取时间、液料比、粒径和提取次数。结果表明,优化后取得的乙醇体积分数、提取温度、提取时间、液料比、粒径和提取次数分别为20%、70℃、2 h、50︰1(mL/g)、0.125 mm和提取2次。在这些最佳条件下,从1 g干燥的石榴皮粉末中可获得17.89±0.27 mg安石榴林、498.66±2.13 mg安石榴苷、7.30±0.05 mg鞣花酸,与预测值17.94 mg安石榴林、497.44 mg安石榴苷、7.26 mg鞣花酸符合。因此,达到利用田口法使安石榴林、安石榴苷和鞣花酸3种成分产率最大的目标。     

Characterization and evaluation of major anthocyanins in pomegranate (Punica granatum L.) peel of different cultivars and their development phases

Three red pomegranate cultivars of different coloration in China (Lvbaoshi, Hongbaoshi, Moshiliu) were analyzed quantitatively during ripening for individual anthocyanin (AC) pigment content. For the first time, anthocyanin peonidin-hexoside and flavonol myricetin-hexoside were tentatively identified in Moshiliu pomegranate. Cy3G, Pg3G, and Cy3,5dG were the first three major ACs in Hongbaoshi and followed a similar changing pattern with ripening time. Large amounts of Cy3G and Dp3G were found in dark red Moshiliu cultivar, exhibiting a similar pattern over time. The main concentration of Cy3G was 53.52 mg 100 g^?1, which was 35-fold and 12-fold higher compared to Lvbaoshi and Hongbaoshi cultivar. The main concentration of Dp3G reached 34.36 mg 100 g^?1 which was generally 68-fold and 82-fold higher than Lvbaoshi and Hongbaoshi. The main concentration of Cy3,5dG, Cy3G, and Pg3G levels in Hongbaoshi presented significant differences during ripening period (p < 0.05) compared with the Lvbaoshi cultivar. The AC profile was linked closely to the level of pigmentation. The results highlighted that cultivars and development phases influenced AC profile significantly. Data derived from study of the ratio between diglucosides and monoglucosides led to characterize the ACs in three different red pomegranate fruits.     

Sustainable extraction of proteins and bioactive substances from pomegranate peel (Punica granatum L.) using pressurized liquids and deep eutectic solvents

Pomegranate peel is a source of proteins, bioactive peptides, and phenolic compounds. The simultaneous extraction of these compounds required the use of polluting solvents and reagents that are non-suitable. This work targets the development of green methodologies based on pressurized liquids (PLE) or deep eutectic solvents (DES) for the extraction of these compounds. Extracts were digested with different proteolytic enzymes and different functionalities (antioxidant, hypocholesterolemia, and antihypertensive capacities) were evaluated. Highly antioxidant and hypocholesterolemic extracts and hydrolysates were obtained using PLE while high antihypertensive capacity was observed in the hydrolysates from proteins extracted using DES. Peptides and polyphenols were identified by HPLC-ESI-Q-TOF/MS. Higher amounts of peptides were shown in hydrolysates from DES extracts while hydrolysates from PLE extracts presented higher amounts of phenolic compounds. Some peptides were assigned to proteins from Punica granatum. Both green methods improved the extraction of bioactive compounds from pomegranate peel compared to the non-sustainable method.Industrial relevanceThe development of green methodologies which employ sustainable solvents such as pressurized liquids (PLE) and deep eutectic solvents (DES) allows extracting proteins and bioactive compounds from pomegranate peel. In addition, these solvents improve the extraction of health beneficial compounds compared to the non-sustainable and polluting solvents. Therefore, they could be used for the development of nutraceuticals and functional foods or even in medicinal, cosmetic, and pharmaceutical preparations.     

响应面法优化石榴叶总酚的亚临界水提取工艺

本研究采用亚临界水萃取法提取石榴叶总酚,并通过响应面法优化其提取工艺参数。在单因素实验的基础上,根据响应面Box-Behnken实验设计原理,采用三因素三水平的分析法,选取提取温度、提取时间、液料比为自变量,考察其对石榴叶提取物中总酚含量的影响,并通过方差分析优化其工艺。结果表明,回归方程对实验拟合较好,可以对石榴叶中总酚含量进行很好的分析和预测;优化后的最佳工艺条件为:提取温度134℃、提取时间31 min、液料比52∶1 m L/g。在该条件下,石榴叶总酚含量为169.24 mg GAE/g,与预测值173.31 mg GAE/g基本一致。通过与溶剂加热回流法相比较,亚临界水提取可明显提高石榴叶总酚的含量,并缩短提取时间。      

响应面优化超声-微波协同提取石榴叶中总黄酮工艺的研究

为确定石榴叶中总黄酮提取的最佳工艺,在单因素试验的基础上,应用响应面法优化石榴叶中总黄酮的提取条件。结果表明:微波功率、提取时间和料液比对黄酮提取率影响极显著;最佳工艺为:乙醇体积分数71.5%(v/v),微波功率662 W,提取时间262 s,液料质量体积比33.5g/m L,在此条件下提取1次,石榴叶中总黄酮的提取率为89.21%。     

新疆石榴花多酚的提取工艺

采用单因素和正交试验,考察提取溶剂、提取时间、提取温度、料液比等因素对石榴花多酚提取的影响。结果显示：石榴花中多酚的最佳提取条件为以体积分数60% 乙醇作溶剂、料液比1:20(g/mL)、温度50℃、提取时间1h;在该优化条件下提取,多酚粗提物的得率为44.20%、纯度46.19%,即石榴花多酚得率达到20.42%。该方法操作简便、成本低、提取效果好,适合于工业化大生产。     

Development of medical cotton fabrics with Punica granatum L extract finishing for nosocomial infections control

Transmission of pathogenic microorganisms on textile in the hospital settings may contribute to nosocomial infection. This study was aimed to develop a natural antimicrobial finishing on textile that can prevent transmission of pathogenic microorganisms that meets American Association of Textiles Chemists and Colorists (AATCC) standard. Punica granatum L ethanolic extract was shown to have broad spectrum antimicrobial efficacy with bis(6-methylheptyl)-benzene-1,2-dicarboxylate and ethyl-pentadecanoate as the main bioactive constituents. Textile samples developed with the extract finishing exhibited excellent antimicrobial efficacy with a growth reduction of 99.9% on Hoheinstein Challenge Test. The wash durability of the finished textile was found good even after 30 washes with commercial detergent.     

Phytochemical characterisation for industrial use of pomegranate (Punica granatum L.) cultivars grown in Spain

BACKGROUND: The study of 15 pomegranate cultivars was carried out in order to demonstrate the wide diversity among the quality of Spanish pomegranates, and compared to ‘Wonderful’ cultivars, which are used worldwide for industrial purposes. Juice yield, quality parameters, organic acids and sugars, colour, vitamin C, ellagic acid, punicalagins, anthocyanins, total phenolic content, antioxidant capacity, and sensory properties were measured. RESULTS: A considerable variation was found between ‘Wonderful’ and pomegranates of Spanish origin, according to both cluster analysis and principal component analysis. ‘Wonderful’ juices displayed large antioxidant activity and a polyphenol content with very high acidity. In contrast, ‘Mollar de Elche’ showed fewer anthocyanins although it had very superior organoleptical properties. In addition to a high content in ellagitannins, ‘Valenciana’ juices had exclusive colour parameters. CONCLUSION: These useful results can be employed by the juice processing industry to select those properties more interesting for the development of pomegranate juices that are organoleptically attractive and rich in bioactive compounds. Copyright © 2011 Society of Chemical Industry     

Volatile composition and sensory quality of Spanish pomegranates (Punica granatum L.)

BACKGROUND: Pomegranate is highly valued for its health‐promoting effects. Fruits of nine pomegranate cultivars were analysed for volatile compounds, antioxidant activity and quality parameters, including maturity index and CIEL*a*b* colour. Volatile compounds were isolated from fresh juices using hydrodistillation; extracts were analysed using gas chromatography/mass spectrometry. Fruit colour was influenced by cultivar and grouping of cultivars according to their taste (sweet, sour‐sweet or sour), with sweet fruits having more intense red colour and higher lightness values. RESULTS: A total of 18 compounds were found in pomegranate aroma profiles, including monoterpenes, aldehydes, alcohols, monoterpenoids and linear hydrocarbons. The most abundant compound were trans‐2‐hexenal, 3‐carene, α‐terpinene and α‐terpineol. The total concentration of volatiles ranged from 1.7 to 10.9 g kg^?1. Overall consumer liking of pomegranate juices was associated with the presence of monoterpenes such as α‐pinene, β‐pinene, β‐myrcene, limonene and γ‐terpinene. The presence of aldehydes such as hexanol, hexanal and cis‐3‐hexenol was correlated with poor overall consumer liking. CONCLUSION: Fruits from the cultivar Mollar de Elche 2 were those most suited for juice processing because they had the highest total concentration of volatiles, which was related to high overall consumer liking, intense and acceptable fresh pomegranate odour and flavour (high scores of satisfaction degree), medium intensity of red colour and low sourness. Copyright © 2010 Society of Chemical Industry     

Heavy Metals Bounding Ability of Pomegranate (Punica granatum) Peel in Model System

Pomegranate fruit is an important sources of natural phenolic compounds. In this study, the influence of pomegranate fruit peel on binding of some heavy metals were established by Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES). Also, the total phenolic content of methanol extract of pomegranate fruit peel was determined with the Folin-Ciocalteu method. Amounts of 1, 2, 3, 10, 20, 40, and 60 g of ground peel were used in this experiment. After pomegranate samples were weighed, they were added into 500 ml baker. Each sample was treated by several solutions contained the heavy metal elements at different concentrations. The heavy metal contents in the solutions prepared with ground material were decreased with increasing of ground material. At the same time, the bounding rate of heavy metals increased with the increase of ground peel amounts. Lead (Pb) with 99.2% rate for solution obtained from 20 g ground sample was the highest bound element. It can be observed from these results that the amount of metal ions bound by the ground material differed from on fraction to others.     

石榴皮总黄酮的提取工艺及抑制亚硝化反应

目的:研究石榴皮总黄酮的提取工艺及黄酮类物质对亚硝化反应的抑制能力。方法:通过正交试验,探讨影响总黄酮提取率的因素范围和最佳组合,并采用分光光度法测定总黄酮提取液对亚硝酸盐清除能力和亚硝胺抑制能力。结果:石榴皮总黄酮的最佳提取工艺条件为乙醇体积分数60%、料液比1:60(g/mL)、提取时间40min、超声电流强度150mA。在最佳提取工艺条件下,石榴皮总黄酮的平均提取率为84.8mg/g,石榴皮总黄酮提取液对亚硝酸钠的最大清除率为81.2%,对亚硝胺合成的最大阻断率为67.0%。结论:石榴皮总黄酮提取液对亚硝化反应的抑制能力较强。     

石榴叶酚酸测定及提取工艺研究

以石榴叶为原料,采用Folin-Ciocalteu 法定量测定石榴叶提取液中总酚含量,通过单因素试验和正交试验对石榴叶总酚的提取工艺进行探讨。确定其最佳提取条件为：料液比1:25(g/ml),温度70℃,提取溶剂为75% 乙醇,提取时间1.5h。综合考虑成本因素,原料过1mm 筛较为适宜,按照该工艺提取石榴叶总酚的得率为16.63%。     

Comparison of antioxidant activities of juice, peel, and seed of pomegranate (Punica granatum L.) and inter-relationships with total phenolic, Tannin, anthocyanin, and flavonoid contents

In this study, the antioxidant activities of juice, peel, and seed parts of pomegranate were investigated by using DPPH scavenging activity, β-carotene bleaching method, reducing power, and metal chelating activity. Sample of pomegranates which are named Punica granatum L. cv. Hicaznar, genotype 19–121, genotype 17–67, and genotype 19–66 obtained from BATEM (West Mediterranean Agricultural Research Institute) in Anlalya. The EC₅₀ values of DPPH scavenging activities in peel extracts (PE) had 23.4-fold higher than the juice extracts (JE), and the seed extracts (SE) had 2.3-fold higher than JE. The reducing power in peel extracts was found to be 4.7-fold higher than SE and 10.5-fold higher than the JE. The highest metal chelating capacity (37.22%) was determined in peel, while the lowest (7.151%) in seed. Generally, in peel, the total polyphenol, flavonoid, tannin contents, and in juice, the total polyphenol, anthocyanin, tannin contents, and acidity significantly affected to antioxidant activities.