葡萄叶中总黄酮的提取工艺研究

目的：从葡萄叶中提取总黄酮。方法：采用正交试验法研究葡萄叶总黄酮的最佳提取工艺条件,考察了乙醇浓度、回流温度、回流时间及料液比四因素对葡萄叶总黄酮提取率的影响。结果：确立了葡萄叶总黄酮最佳提取条件为：45％的乙醇为溶剂、液料比为1：40、提取温度为60％、提取时间2h,在最佳工艺条件下葡萄叶总黄酮含量为5．329mg／g。     

均匀设计法优选芝麻油提取新工艺

本文通过超临界CO2提取芝麻油的均匀设计实验和微波和超声波诱导提取芝麻油的正交实验比较,考察影响提取的主要因素,寻求最佳萃取工艺。超临界CO2萃取最佳工艺条件为：压力32MPa,温度60℃,CO2流量31kg／h,萃取时问80min,得率46．39％;微波萃取最佳工艺条件为：溶剂为丙酮,物料与溶剂比例1：7,辐射时间7min,辐射功率810W,得率23．01％。超声波萃取最佳工艺条件为：物料与溶剂比例1：7,溶剂为石油醚,浸泡时间30h,得率23．99％。结果表明超临界CO2萃取芝麻油品质最好,而且萃取也最高,质量最稳定。     

中华稻蝗脂肪提取方法

以丙酮和石油醚的混合液为提取液,通过正交试验,对中华稻蝗Oxyachinensis(Thunberg)成虫体脂肪进行溶剂提取条件的优化研究,并分别讨论了各因素对中华稻蝗成虫体脂肪提取率的影响。结果表明:料液比4/25、溶剂混比1/1(丙酮:石油醚)、提取时间8h、水浴温度85℃为中华稻蝗脂肪提取的最佳工艺条件,在此条件下,脂肪得率可达5.875%。     

苦参酮的热稳定性及其提取工艺研究

考察了苦参酮的热稳定性,并用正交实验方法优选了苦参酮的提取工艺。结果发现,苦参酮在50℃下较稳定;以苦参酮的相对提取率为考察指标,在所考察的范围内,影响苦参酮相对提取率的主要因素依次为：提取时间〉乙醇浓度〉温度〉溶剂用量,其中提取时间和乙醇浓度对苦参酮的相对提取率影响显著;苦参酮的最佳提取工艺为：提取温度50℃,提取时间120min,容积用量（mL/g）25：1,乙醇浓度（v／v）：80％,相对提取率达到99．6％。优化后的提取工艺能较高效率地提取苦参酮。     

响应面法优化微波辅助提取发酵虫草菌丝体多糖工艺

为优化发酵虫草菌粉多糖的微波辅助提取工艺,在单因素实验基础上,以液固比、微波功率以及提取时间为自变量,多糖提取率为响应值,采用中心组合设计的方法,研究各自变量及其交互作用对多糖提取率的影响。利用SAS软件和响应面分析相结合的方法对发酵虫草菌粉多糖的微波辅助提取工艺进行优化,确定了微波辅助提取多糖的最佳条件：液固比值12．2,微波功率650．5W,提取时间11．8min,在此条件下,多糖提取率达到6．41％。采用此法提取的虫草菌丝体多糖,当质量浓度为1mg／mL时,对二苯代苦味肼基自由基（DPPH）清除率达到76％。     

黄粉虫油超声振荡有机溶剂提取工艺研究

目的：以黄粉虫幼虫为原料,研究超声振荡有机溶剂法提取黄粉虫油脂的工艺。方法：对溶剂量、温度、时间等影响黄粉虫油提取率的因素进行单因素研究,并进行多因素正交试验确定黄粉虫油脂的最佳提取条件。结果：正交试验得到最佳试验组合为A3B1C3D2,即黄粉虫量20g、醇酮量30mL、提取温度40℃、提取时间20min。在此条件下,黄粉虫幼虫油提取率达18.36%,得到的黄粉虫油浅黄色、透明、香味纯正。     

正交试验法优化吴茱萸总碱的微波提取

以紫外-可见分光光度法为检测手段,研究了乙醇-水混合溶剂中吴茱萸总生物碱的微波提取条件,试验中分别以微波功率、萃取时间和萃取溶剂的用量、浓度及酸度等为因素,设计了五因素四水平的正交试验,考察了它们对总生物碱成分提取率的影响。结果表明,最佳提取条件为：在700W微波功率下,用浓度70％、酸度pH=2的乙醇-水混合溶剂25mL／g,提取6min,此条件下总生物碱的提取率可达0．4898％。     

文冠果种子油提取工艺

以石油醚（60~90℃）为溶剂,通过单因素和正交实验优化了提取文冠果种子油工艺,得到的最佳工艺参数为：种仁粒径为2 mm,提取温度为90℃,提取时间为10 h,料液比为1：5（W/V）。在最佳提取条件下,平均提取率可达62.49%。利用高效液相色谱技术分析了油脂的脂肪酸组成,结果表明其主要成分与一般生物柴油主要成分基本相同,文冠果种子油将是生产生物柴油原料的新来源。     

不同处理方法对海稻米中γ-氨基丁酸提取率的影响

以海稻米为研究对象,研究提取温度、提取溶剂、料液比、提取时间、提取次数等5个因素对海稻米中γ 氨基丁酸（GABA）提取率的影响,采用正交试验分析方法确定海稻米中GABA最优工艺条件。结果表明：海稻米中GABA的最佳提取工艺为：提取溶剂为水、提取时间为1 h、提取次数3次、提取温度60 ℃、提取物料比1 g∶15 mL,在此提取条件下的提取率为6.2μg/g。     

微波辅助提取补阳还五汤多糖的研究

采用单因素实验和正交实验法,进行了微波辐射萃取补阳还五汤多糖的最佳工艺条件研究。探讨了不同微波辐射时间、微波功率及料液比等条件对多糖提取率的影响。结果表明,在微波辐射时间20min,微波功率325W,料液比为1：7,补阳还五汤中多糖的提取率为7．75％。微波辅助萃取大大缩短了提取时间,节省了溶剂,提高了收率。     

响应曲面分析方法优化发酵液中多杀菌素的提取工艺

依据中心复合旋转设计原理,在单因素试验的基础上,采用三因素五水平的响应曲面分析法,建立了发酵液中多杀菌素提取的二次多项式数学模型,并以多杀菌素质量浓度为响应值作响应面和等高线,考察了提取时间、料液比和提取频率对多杀菌素质量浓度的影响。结果表明:发酵液中多杀菌素超声提取的优化工艺条件为提取频率75 KHz,提取时间74 min,料液比1∶1.5。在此工艺条件下,从发酵液中提取多杀菌素的质量浓度可达到100.75μg/mL。     

响应面法优化黄腐酚提取工艺条件的研究

以啤酒花超临界CO2萃取物剩余残渣为原料,利用响应面法对热回流提取黄腐酚的工艺条件进行了优化。以单因素实验为基础,根据中心组合设计原理,采用响应面分析法,对提取时间、提取温度、提取溶剂、料液比各因子间显著性和交互作用进行分析,得到黄腐酚提取的最佳工艺条件为:乙醇体积分数96%,提取温度为60℃,提取时间为88min,提取料液比为1g∶26mL,在该条件下,黄腐酚得率可达4.05%,纯度为12.31%。     

响应面法优化黑水虻幼虫蛋白质提取工艺

【目的】对黑水虻Hermetia illucens幼虫蛋白质进行不同提取方法的比较,选择最优提取方法,并确定其最优工艺参数,为黑水虻幼虫蛋白提取与资源利用提供依据。【方法】以黑水虻幼虫为原料,分别采用碱提法、酶提法、盐提法和Tris-HCl缓冲液提法对黑水虻幼虫蛋白质进行提取,并比较分析。通过单因素试验分别确定NaOH质量浓度、液料比、提取温度及提取时间4个因素的较优水平。在单因素试验结果基础上,按照Box-Behnken响应面试验设计进行响应面优化试验。【结果】提取黑水虻幼虫蛋白质的4种方法中碱提法的提取率最高,最佳提取条件为：NaOH质量浓度2.44 g/100mL,液料比22 mL/g,提取温度53℃,提取时间2 h。提取率验证试验结果为88.49%,与预测值相对误差为0.28%。【结论】响应面模型拟合度高,优化出的最佳提取工艺可行。     

响应面法优化微波辅助提取枇杷叶中黄酮类化合物

为充分利用枇杷叶,研究微波辅助乙醇浸提法从枇杷叶中提取黄酮类化合物的工艺。首先研究了影响提取效果的因素:不同体积分数的乙醇溶液、料液比、时间及微波功率。在单因素试验基础上利用响应面分析法,确定了各因素与总黄酮得率之间的关系,并以总黄酮得率为响应值做响应面和等高线图。研究表明,枇杷叶中黄酮类化合物提取最佳工艺为乙醇体积分数50%,料液比1∶30,提取时间3 min,微波功率500 W,最佳条件下总黄酮得率为2.04%,与理论推导值2.07%相比,误差为1.4%,黄酮类化合物响应方程的回归分析表明此方法合理可行。本研究对枇杷叶总黄酮提取优化的研究为进一步探讨枇杷叶的深度开发提供了理论参考依据,并为枇杷叶总黄酮的生物活性研究提供材料。     

Optimisation of enzyme assisted extraction of silybin from the seeds of Silybum marianum by Box–Behnken experimental design

Introduction – Silybin, a standardised extract of flavanolignans from the seeds of Silybum marianum, has been used for centuries as a natural remedy in the treatment of hepatitis and cirrhosis. The higher yield of silybin by using more efficient extraction technique is of particular interest in the herbal products manufacture. Objective – To systematically investigate the important factors of enzyme‐assisted extraction of flavanolignans from the seeds of Silybum marianum to enhance the extraction yield of silybin. Methodology – The important factors of enzyme‐assisted extraction were optimised by employing Box–Behnken design with the aid of the orthogonal array design (OAD) OA₈ (2⁷). The effects of enzyme incubation temperature (EIT), the pH of enzyme solution (PES) and the size of seeds (SS) on the yield of silybin were visualised as three‐dimensional response surface and contour plots. Results – The predictive yield was 24.6 mg/g defatted seeds under the optimum enzymolysis conditions (EIT 40°C, PES 4.5 and SS 7003 μm). The coefficient of the model was r² > 0.97 (n = 15). The actual yield of silybin was 24.81 ± 1.93 mg/g defatted seeds, higher by 138 and 123.6% than that from ethanol extraction in this study and in the previous literature, respectively. IR spectra and HPLC of the extracts by EAE were in agreement with those from ethanol extraction. SEM and TEM pictures of defatted seeds by variant extractions demonstrate that the extraction of silybin depends on the destruction of cell walls. Conclusion – The results suggest that EAE is a promising alternative for the extraction of silybin by the use of traditional ethanol extraction. Copyright © 2009 John Wiley & Sons, Ltd.     

Response surface method was used to optimize the ultrasonic assisted extraction of flavonoids from Crinum asiaticum

In this study, ultrasound-assisted extraction of flavonoid from Crinum asiaticum was studied through response surface methodology (RSM) to gain the best extraction process of flavonoid and enhance the extraction rate of flavonoid. In the following RSM experiment, we selected the corresponding data of every factor as the center point through the single-factor experiments, then the experimental data was subjected to multiple regression analysis. According to the statistical analysis results, the results were consistent with the polynomial regression model, the determination coefficient (R2) was 0.9769. The best conditions for maximum flavonoid yield were 60% ethanol concentration, 64 °C for extraction temperature, 1:28 (v/w) solid-to-liquid ratio with extraction time for 47 min. The best response of flavonoid yield was 1.63972%. The predicted results for best reaction conditions were in good agreement with experiment values. Ultrasound-assisted extraction method can enhance the extraction rate of flavonoid significantly. It is a powerful tool to extract of important phytochemicals from nature plant.     

A monophasic extraction strategy for the simultaneous lipidome analysis of polar and nonpolar retina lipids

Lipid extraction using a monophasic chloroform/methanol/water mixture, coupled with functional group selective derivatization and direct infusion nano-ESI-high-resolution/accurate MS, is shown to facilitate the simultaneous analysis of both highly polar and nonpolar lipids from a single retina lipid extract, including low abundance highly polar ganglioside lipids, nonpolar sphingolipids, and abundant glycerophospholipids. Quantitative comparison showed that the monophasic lipid extraction method yielded similar lipid distributions to those obtained from established “gold standard” biphasic lipid extraction methods known to enrich for either highly polar gangliosides or nonpolar lipids, respectively, with only modest relative ion suppression effects. This improved lipid extraction and analysis strategy therefore enables detailed lipidome analyses of lipid species across a broad range of polarities and abundances, from minimal amounts of biological samples and without need for multiple lipid class-specific extractions or chromatographic separation prior to analysis.     

Optimization of polysaccharides (ABP) extraction from the fruiting bodies of Agaricus blazei Murill using response surface methodology (RSM)

Response surface methodoloty (RSM) was used to optimize the extraction conditions of polysaccharides (ABP) from the fruiting body of Agaricus blazei. A central composite design (CCD) was used for experimental design and analysis of the results to obtain the optimal processing parameters. Four independent variables such as extraction temperature (°C), ratio of water to raw material, number of extraction, and extraction time (h) were investigated. The experimental data obtained were fitted to a second-order polynomial equation using multiple regression analysis and also analyzed by appropriate statistical methods. The 3-D response surface plot and the contour plot derived from the mathematical models were applied to determine the optimal conditions. The optimum extraction conditions were as follows: extraction temperature 91 °C, ratio of water to raw material 14, number of extraction 6, and extraction time 2.1 h. Under these conditions, the experimental value was 65.8 ± 1.42, which is well in close agreement with value predicted by the model.     

响应面法优化超声提取绿茶茶多酚工艺

利用响应面法对超声提取绿茶荼多酚的工艺条件进行优化,在单因素试验的基础上,根据中心组合设计原理采用三因素三水平的响应面分析法,依据回归分析确定最优提取工艺条件。结果表明,其最佳工艺条件为：液料比为40．2mL／g,超声功率为476W,提取时间为15．1min,采用该工艺条件,茶多酚的提取得率达到10．312％,通过响应面法得到一个能较好预测试验结果的模型方程。     

Statistical optimization of lipase catalyzed hydrolysis of methyloleate by response surface methodology

Hydrolysis of methyloleate was optimized using lipase from Chromobacterium viscosum immobilized on IRC-50. The optimization was studied by a statistical methodology using response surface methodology (RSM). The cumulative interactive effect of substrate, water concentration and time was studied in optimizing the hydrolysis of methyloleate. The interactive effect of substrate-time was found to be significant compared to substrate-water and time-water interactions. A well correlation was observed between the optimum values obtained from the response surface contour plots and from the quadratic regression model equation. The optimal values obtained for substrate, water and time were found to be in the experimental range chosen.