Optimization of Extraction Process of Yingshan Cloud Tea Polysaccharides by Response Surface Methodology

[Objectives] This study was conducted to explore the optimal process conditions for hot water extraction of polysaccharides from Yingshan cloud tea. [Methods] Based on single factor experiments, with the extraction rate of polysaccharides as the response value and liquid-to-solid ratio, extraction temperature and extraction time as investigation factors, the optimum extraction process for tea polysaccharides from Yingshan cloud tea was determined by Box-Behnken central componse design and response surface analysis method. [Results] Under the conditions of the liquid-to-solid ratio of 50∶1(ml/g), the extraction temperature at 94 ℃ and the extraction time of 210 min, the extraction rate of polysaccharides from Yingshan cloud tea reached 2.16%. [Conclusions] This study will provide theoretical basis and reference for subsequent related research.

Research on the Extraction Process of Pu-erh Tea Polysaccharide by Response Surface Analysis

[Objective] This study aimed to optimize the extraction process parameters of Pu-erh tea polysaccharide. [Method] Single-factor experiment was carried out to analyze the influences of three main factors, including extraction temperature, ex- traction duration and solid-liquid ratio, on the extraction yield of tea polysaccharide. Box-Behnken central composite design and response surface methodology were adopted to determine the optimal extraction process of Pu-erh tea polysaccharide. [Result] The results of response surface analysis showed that the optimal extraction process was solid-liquid ratio of 1：17, extraction temperature of 80 ℃ and extraction duration of 78.5 min, and the Pu-erh tea polysaccharide yield was 12.72%. [Conclu- sion] Using response surface methodology （RSM） is feasible for the optimization of Pu-erh tea polysaccharide extraction process, and the tea polysaccharide yield increased significantly.

Bioassay-Guided Extraction of Crude Fucose-Containing Sulphated Polysaccharides from Sargassum fusiforme with Response Surface Methodology

The response surface methodology(RSM) combined with bioassays was employed to optimize the extraction process of crude fucose-containing sulphated polysaccharides(c FCSP) from Sargassum fusiforme. The central composite design(CCD) was used with four variables, five levels, and four responses. The four variables were p H value of hydrochloric acid solution, extraction temperature(℃), ratio of liquid to raw material(m L g^(-1)), and extraction time(h), respectively. Chemical and bioassay indices were used in combination as the response parameters, which included the yield of c FCSP, fucose content, proliferation rate of spleen cells, and lipopolysaccharide-induced proliferation of splenocytes. The experimental data were fitted to a second-order polynomial equation using multiple regression analysis, and examined using the appropriate statistical methods. The best extraction conditions were as follows: the p H value of hydrochloric acid solution was 3.50; the extraction temperature was 100℃; the ratio of liquid to raw material was 15.00 m L g^(-1) and the extraction time was 2.50 h. The experimental yield was close to the predicted from the model. The extract could promote spleen lymphocyte proliferation, especially the lipopolysaccharide-induced lymphocyte proliferation in vitro, which suggested that its immunomodulatory effect on B lymphocytes. Therefore, c FCSP extracted from S. fusiforme could be utilized as an immunostimulant in functional foods and pharmaceutical industry in future.

Optimization of Polysaccharide Extraction from Radix Glehniae Root Bark by Response Surface Methodology and Anti-immunosuppressive Activity Analysis

[ Objective ] This study aimed to establish and optimize the extraction technology of polysaccharides from Radix Glehniae root bark, and to explore the processing methods of Radix Glehniae in producing areas. [ Method ] Based on the single-factor experiment, with polysaccharide content and polysaccharide yield as indices, various factors affecting polysaccharide yield from Radix Glehniae root bark were investigated by central composite design-response surface method. Mo- reover, immune functions of cyclophosphamide-induced blood-deficient mice in various polysaccharide groups were compared to investigate the effects of root bark removal of Radix Glehniae on medicinal quality. [ Result] Ultrasonic extraction was the appropriate extraction technology of polysaccharides from Radix Glehniae root bark. The optimal ultrasonic extraction conditions were ultrasonic time 36 min, ultrasonic power 460 W, solid-liquid ratio 1： 10, ethanol concentration 80%, under which polysaccharide yield reached 16.08%. Polysaccharides extracted from Radix Glehniae root （ALP） and Radix Glehniae root bark （BLP） could effec- tively improve immune function of blood-deficient mice with no significant differences. [ Conclusion] Radix Glehniae could be used without removal of root bark. The optimized extraction process was stable and feasible, which laid a solid foundation for further comprehensive development and utilization of Radix Glehniae root bark.

Optimization of Ultrasound-assisted Enzymatic Polysaccharide Extraction from Turpiniae Folium Based on Response Surface Methodology

Objective To optimize the extraction procedure and obtain the maximum total polysaccharide yield from Turpiniae Folium.Methods Response surface methodology(RSM),combining Plackett–Burman design(PBD),steepest ascent method,and Box–Behnken design(BBD),was employed.The significant factors contributing to polysaccharide production were determined by PBD.The path of steepest ascent method was performed to rapidly reach the neighborhood of the optimum region.BBD and RSM were applied to further investigate the mutual interaction between the variables and to define the optimal values.Results The significant factors contributing to polysaccharide production were enzyme concentration,extraction time,and liquid-to-solid ratio.The optimal conditions for maximal TFP were:enzyme concentration of2.8%,extraction time of41min,and liquid-to-solid ratio of27mL/g.The experimental yield of3.08%was in good agreement with the model-predicted yield of3.1%under the optimized conditions.Conclusion This study was successfully applied to optimize the extraction conditions of Turpiniae Folium polysaccharide,which can contribute to its further production and application.

Optimization of the Extraction Process of Polysaccharides from Tegillarca granosa by Response Surface Methodology

[ Objective] The aim was to use response surface methodology to determine optimum conditions for extraction of polysaccharides from Tegillarca granosa. [ Method] Response surface methodology with three-factors and throe-levels was carried out for optimizing the extraction process of polysacchafides from Tegillarca granosa. A central composite des（gn including independent variables, such as extraction temperature （A）, extraction time （B）, and ethanol concentration （C） was obtained through Box-Benhnken central combination design. Selected response which evaluates the extraction process was polysacchadde yield. [ Result] The independent variable with the largest effect on response was ethanol concentration （C）. The optimum extraction conditions were found to be extraction temperature 69.6℃, extraction time 6.2 h, and ethanol concen- tration of 78% （V/V）, respectively. Under these conditions, the extraction efficiency of polysaccharide can increase to 1. 635%. [ Coaclusioa] Study on the extraction of polysaccharides from Tegillarca granosa could provide certain theoretical direction for extracting polysaccharides from Tegillarca granosa on a large scale.

Optimization of extraction process of Amomum longiligulare T.L.Wu polysaccharides by response surface methodology

Objective:To optimize the technological conditions of ultrasonic-assisted extraction of Amomum longiligulare T.L.Wu polysaccharides and increase the yield of polysaccharides.Methods:The polysaccharide was prepared by water extraction and alcohol precipitation method,and the yield of polysaccharide was taken as an index.The effects of ultrasonic time,extraction times,ultrasonic temperature,and water-to-material ratio on polysaccharide yield were investigated through a single factor experiment.Combined experimental design and response surface analysis were used to optimize the extraction process of Amomum longiligulare T.L.Wu polysaccharides.Results:The optimum conditions of ultrasonic-assisted extraction were determined as follows:extraction time of 29 min,three extraction times,water bath extraction temperature of 68℃,water-to-material ratio of 15:1;under these conditions,the polysaccharide yield was 10.69%.Conclusion:The results are close to the predicted values of the model.This optimization test is effective and feasible,and provides a reference for the related research of Amomum longiligulare T.L.Wu.

Method for the determination of polonium-210 in tea samples using response surface methodology(RSM)

The method based on solvent parameters(mass,cycle of acidification, and autodeposition time), combined with response surface methodology(RSM) modeling and optimization, has been developed for maximizing ^(210)Po activity in tea samples, as observed by an alpha spectrometer. RSM based on 3-factor and 5-level composite center design was used to obtain the optimal combination of solvent conditions. As solvent parameters for ^(210)Po activity, different masses(0.5, 0.75, 1, 1.5, and 2 g), different cycles of acidification(2, 3, 4, 5, and 6 times), and different autodeposition times(2, 3, 4, 5, and 6 h) were studied. The 3D response surface plot and the contour plot derived from the mathematical models were used to determine the optimal conditions. According to the obtained results, the experimental value of ^(210)Po activity was in good agreement(R^2=0.96) with the value predicted by the model. We found a favorable effect of mass on the ^(210)Po activity(p\0.05).

Optimization of Supercritical Fluid Extraction of Tea Flower Polysaccharides by Using Response Surface Method

Polysaccharide production from tea flower(TFPS) was carried out using supercritical fluid extraction(SFE).Response surface methodology(RSM),based on a five level,four variable small central composite design,was employed to obtain the best possible combination of extraction time,pressure,temperature and ethanol content of modifier for maximum production.The optimum conditions were as follows:extraction time of 170 min,pressure of45 MPa,temperature of 75 ℃,and 50% aqueous ethanol solution as modifier.Under these conditions,the experimental yield was 6.56 ± 0.37%,which was similar to the value predicted by the model.Monosaccharide composition of TFPS was fucose,rhamnose,arabinose,xylose,galactose,glucose,mannose,fructose,ribose,galacturonic acid and glucuronic acid in a molar percent of 31.69,0.21,0.49,1.29,35.82,0.97,1.63,18.34,7.88,1.06 and 0.63.Compared to other extraction methods,SFE could achieve higher yield and gain more types of monosaccharide.

Optimization of enzyme assisted extraction of polysaccharides from pomegranate peel by response surface methodology and their anti-oxidant potential

Objective： To optimize the enzymatic extraction conditions of polysaccharides from pomegranate peel using response surface methodology（RSM）, and invest the anti-oxidant activity of pomegranate peel polysaccharide in vitro for seeking novel biological components used as pharmaceutical products and functional foods.Methods： Effects of enzymolysis time, ratio of water to raw material, and the dosage of cellulase on the extraction yield of pomegranate peel polysaccharide were fully examined by Box-Behnken design of RSM. DPPH radical scavenging activity, hydroxyl radicals scavenging activity, superoxide anion radical scavenging activity, and reducing power assay were measured by microplate reader.Results： The optimal extraction conditions were as follows： enzymolysis temperature 55 °C, pH 5.0,enzymolysis time 88 min, ratio of water to raw material 22：1 mL/g, and dosage of cellulose 0.93%. Under the optimal extraction conditions, the yield of pomegranate peel polysaccharide was（22.31 ± 0.07）%,which was well matched with the predicted value 22.35% of the Box-Behnken design model. Also,pomegranate peel polysaccharide demonstrated appreciable anti-oxidant potential on DPPH（1,1-diphenyl-2-picrylhydrazyl） radical scavenging, hydroxyl radical scavenging, superoxide anion radical scavenging and reducing power in vitro.Conclusions： An optimized enzymolysis assisted method was proposed for the extraction of pomegranate peel polysaccharide, which can be used as a good anti-oxidant.

Optimization of methyl orange removal from aqueous solution by response surface methodology using spent tea leaves as adsorbent

The effective disposal of redundant tea waste is crucial to environmental protection and comprehensive utilization of trash resources. In this work, the removal of methyl orange （MO） from aqueous solution using spent tea leaves as the sorbent was investigated in a batch experiment. First, the effects of various parameters such as temperature, adsorption time, dose of spent tea leaves, and initial concentration of MO were investigated. Then, the response surface methodology （RSM）, based on Box- Behnken design, was employed to obtain the optimum adsorption conditions. The optimal conditions could be obtained at an initial concentration of MO of 9.75 mg·L-1, temperature of 35.3℃, contact time of 63.8 min, and an adsorbent dosage 3.90 g· L-1. Under the optimized condi- tions, the maximal removal of MO was 58.2%. The results indicate that spent tea leaves could be used as an effective and economical adsorbent in the removal of MO from aqueous solution.

Optimization of Ultrasonic-Assisted Extraction Process of Polysaccharides from American Ginseng and Evaluation of Its Immunostimulating Activity

Ultrasonic-assisted extraction （UAE） of American ginseng polysaccharides （AGP） was investigated using response surface methodology. Three-factor-three-level Box-Behnken design was employed to optimize the ultrasonic power, extraction time and ratio of water to raw material to obtain a high AGP yield. The analysis of variance and response surface plots indicated that ultrasonic power was the most important factor affecting the extraction yield. The optimal conditions were ultrasonic power 400 W, extraction time 71 min, and ratio of water to raw material 33 mL g-1. Under these conditions, the yield of AGP was 8.09%, which was agreed closely to the predicted value. Gas chromatography （GC） analysis showed that AGP was composed of arabinose, rhamnose, galactose, glucose, and galacturonic acid. Fourier transform infrared spectra revealed the general characteristic absorption peaks of AGP. In addition, AGP exhibited good immunostimulating activities by up-regulating the production of nitric oxide and cytokines. Compared with hot water extraction, UAE required shorter extraction time and gave a higher extraction yield, without changing the structure and immunostimulating activity of AGP. The results indicated that UAE could be an effective and advisable technique for the large scale production of plant polysaccharides.

Effect of Process Parameters of Microwave Assisted Extraction (MAE) on Polysaccharides Yield from Pumpkin

Process parameters of microwave assisted extraction （MAE） of the polysaccharides from pumpkin viz. extraction temperature, time and liquid-solid ratio were studied by using single factor and response surface methodology method. The results showed that the liquid-solid ratio was the most important factor in polysaccharides yield, followed the extraction temperature was the least important factor. The optimum microwave assisted extraction co by ndi extraction time, and tions for the highest polysaccharides yield from pumpkin （16.76%-4-0.38%） were obtained by using the response surface methodology with extraction time of 29 min, an extraction temperature of 79 ℃ and a liquid-solid ratio of 22 mL·g^-1. Validation experiment result well agreed with predicted value.

Central Composite Design for Optimized Extraction of Polysaccharides from Undaria pinnatifida

Response surface methodology was used to optimize the extraction conditions of polysaccharides from Undaria pinnatifida.The effects of three independent variables,extraction time,extraction temperature and ratio of water to raw material were investigated by a central composite design.The experimental data were fitted to a second-order polynomial equation via multiple regression analysis and also examined with the appropriate statistical methods.The adjusted coefficient of determination（R^2Adj） for the model was 0.9171.An optimum extraction yield of 30.78% was obtained when the extraction temperature was 95 °C,extraction time was 4.5 h,and the ratio of water to raw material was 35（mL/g）.Under these conditions,validation experiments were done and the mean extraction yield of polysaccharides was 30.79%,which was in good agreement with the predicted model value.

Optimization of Extraction Process and Antioxidant Activity of Polysaccharide in Embelia parviflora Wall.by RSM

[Objectives]To optimize the extraction process of polysaccharide in Embelia parviflora Wall.by response surface methodology,and to study the antioxidant activity in vitro of polysaccharide in E.parviflora,so as to provide a basis for the further development and utilization of E.parviflora.[Methods]The solid-to-liquid ratio,extraction temperature,extraction time and extraction times were used as single factors to investigate the effects.On this basis,the response surface methodology(RSM)was used to optimize the extraction process of polysaccharide in E.parviflora.DPPH and ABTS free radicals were used to investigate the antioxidant capacity of polysaccharide in E.parviflora.[Results]The optimal solid-to-liquid ratio for extraction of polysaccharide from E.parviflora was 32∶1(mL/g),extraction temperature was 77℃,and extraction time was 36 min.The IC50 values of DPPH and ABTS were 0.04 and 0.03 mg/mL,respectively.[Conclusions]The optimized extraction process of polysaccharide in E.parviflora is stable,the extraction rate is high,and has strong antioxidant activity.It is expected to provide a reference for the industrial extraction of polysaccharide from E.parviflora.

Study on enzymatic extraction process of polysaccharide from Urena lobata L. and investigation on its antioxidant activity

OBJECTIVE This study aimed to optimize polysaccharides extraction from Urena lobata L.and investigate its antioxidant activity.METHODS The mathematical model was established by re.sponse surface method(RSM) based on the results of single factor experiments,using polysaccha.rides extraction rate as response value,and using the ratio of water to material,cellulase concentra.tion,extraction temperature and time as experimental factors,which was used to screen optimum poly.saccharide extraction conditions from Urena lobata L..Antioxidant activity of polysaccharides was stud.ied by DPPH and ·OH free radical elimination method.RESULTS The optimum conditions obtained by RSM were as follows:the cellulase level was 10.8 g·L^(-1),extraction time duration was 72 min,the ra.tio of water to feedstock was 7 mL·g^(-1),extraction temperature was 43℃,the pH value was 5.0.Under the optimal conditions,there was a difference of less than 5% between predicted extraction rate 13.37% and experimental extraction rate 13.32%.The polysaccharide yield was most significantly af.fected by cellulase concentration,followed by extraction time,water to material ratio and extraction tem.perature.IC50 of DPPH and ·OH were 1.082 g·L^(-1) and 3.202 mg·L^(-1),respectively.Antioxidant activity of sample polysaccharides was weaker than those of vitamin C.CONCLUSION The polysaccharide extraction process from Urena lobata L.by cellulase enzymolysis approach was obtained,which was convenient and feasible,and extracted polysaccharides had good free radical scavenging activity.

响应面法优化超声提取多花黄精多糖工艺及其生物活性研究

通过响应面法和超声波辅助法优化多花黄精多糖的提取工艺,并研究多糖的抗氧化活性。采用单因素试验及Box-Behnken Design方法,以提取物中多糖的含量作为评估指标,以确定最佳提取工艺。结果显示,超声功率对多花黄精多糖含量影响有显著影响,液料比、超声波时间、超声波温度对实验结果影响不大。多花黄精多糖的最佳提取工艺条件为:液料比41 mL/g、超声时间40 min,超声功率151 W,超声温度59℃,最佳提取工艺条件下多花黄精多糖含量可达(16.67±0.53)%,且具有较强的抗氧化活性,30 mg/mL的多花黄精多糖对DPPH·的清除率为(61.35±0.96)%,对ABTS^(+)·的清除率为(97.58±0.70)%。因此,基于对多花黄精多糖的超声辅助进行响应面优化的提取工艺可靠、提取率高,可为进一步开发利用多花黄精提供依据。

板蓝根多糖结构修饰及抗氧化、抗炎活性研究

目的:以板蓝根为原料,优化板蓝根多糖乙酸酐法修饰工艺,制得乙酰化板蓝根多糖,并研究其修饰前后体外抗氧化和抗炎活性。方法:采用乙酸酐法修饰制备乙酰化板蓝根多糖,以乙酰基取代度为评价指标,结合单因素和响应面方法对其乙酰化修饰工艺条件进行优化,采用体外化学模型法评估多糖对DPPH、ABTS^(+)、羟基自由基的清除能力,并通过细胞活力实验检测其抗炎能力。结果:通过红外光谱分析结果,显示乙酰化板蓝根多糖修饰成功,并未改变多糖基本结构骨架。其最佳工艺条件为反应温度39℃,反应时间5.6 h,料液比1:19 g·mL^(-1),取代度可达到0.3889。在抗氧化实验中发现,板蓝根多糖乙酰化修饰前后对DPPH自由基、ABTS^(+)自由基和羟基自由基均具有较好的清除能力,并呈现出剂量依赖关系,其中乙酰化板蓝根多糖抗氧化活性更强,同时可以有效降低炎症细胞的活力,显示出较显著的抗炎活性。结论:板蓝根多糖经乙酰化修饰后,可显著提高体外抗氧化和抗炎活性,为板蓝根多糖的进一步开发与利用提供理论依据和数据参考。

星点设计-效应面法优化白及多糖pH-离子敏感原位凝胶的处方

目的优化白及多糖pH-离子敏感原位凝胶的处方。方法以去乙酰结冷胶用量、海藻酸钠用量、氯化钙用量、枸橼酸钠与氯化钙的质量比为考察变量,采用单因素实验初步确定各变量的范围。以25℃凝胶前体溶液黏度和37℃胶凝黏度为考察指标,采用星点设计-效应面法优选白及多糖pH-离子敏感原位凝胶的处方工艺,并进行预测分析。结果白及多糖pH敏感原位凝胶的最优处方为:去乙酰结冷胶用量为0.50%,海藻酸钠用量为1.10%,氯化钙用量为0.07%,枸橼酸钠与氯化钙的质量比为4∶1。该处方条件下,25℃前体溶液黏度为(704.00±3.00)mPa·s,37℃胶凝黏度为(12544.70±47.33)mPa·s。结论白及多糖pH-离子敏感原位凝胶稳定性好,前体溶液在25℃流动性良好,凝胶强度良好,可为基于白及多糖原位凝胶的后续研究提供实验基础。

响应面法优化乌龙茶提取茶多糖的工艺研究

以乌龙茶为原料,选用回流法提取茶多糖,根据Plackett-Burman实验设计考察提取温度、提取时间、提取次数、料液比等多种因素对茶多糖提取率的影响;在单因素实验基础上,运用Box-Behnken实验设计进行响应面剖析.实验结果显示,当提取温度100℃、提取时长80 min、料液比1∶50时,乌龙茶茶多糖的提取率显著增加,得率是6.13%.对最佳提取工艺开展验证,结果显示实测均值与模型估计值相近,表明该提取工艺平稳可行.