大孔吸附树脂对红车轴草异黄酮吸附分离特性的研究

通过比较14种大孔吸附树脂对红车轴草异黄酮的吸附率和解吸率,筛选出适合红车轴草异黄酮分离的树脂,并对其动态吸附特性进行研究。结果表明,AB-8树脂对红车轴草异黄酮不仅吸附量大,而且解吸率高,适合红车轴草异黄酮的分离富集。AB-8树脂分离红车轴草异黄酮的工艺参数为:上柱液浓度0.79~1.11 mg/mL,pH 4.24,流速2 BV/h。以4倍树脂床体积的80%乙醇以2 BV/h流速进行洗脱,可基本上将红车轴草异黄酮从树脂上解吸下来,异黄酮回收率为93.72%。     

大孔吸附树脂对苜蓿皂苷的吸附和解吸附作用(英文)

采用5种不同极性的树脂(AB-8、S-8、NKA-9、D-101和X-5)来评价对苜蓿皂苷的吸附和解吸附作用,其中中等极性的AB-8树脂对苜蓿皂苷具有最大的吸附量,用55%~65%的乙醇溶液能有效地将吸附的皂苷洗脱下来。当苜蓿粗提物量和AB-8树脂量为1∶1时,树脂的吸附量达到饱和。采用AB-8树脂,用90%乙醇洗脱,苜蓿提取物的最大解吸附量为108.4 mg/g干重树脂。通过大孔树脂吸附和解吸附,将90%乙醇洗脱液浓缩,皂苷含量(53%)是苜蓿粗提物含量(5.68%)的9倍。结果表明,AB-8大孔吸附树脂可用于苜蓿皂苷的大规模制备。     

大孔吸附树脂对海边月见草总黄酮的吸附及解吸特性

通过比较3种大孔吸附树脂对海边月见草(O enothera littaralisSchlect.)总黄酮的吸附能力,选择了吸附量较大且易洗脱的树脂AB-8,研究了提取液浓度、pH值对该树脂静态吸附能力的影响,以及洗脱剂种类、乙醇浓度对动态解吸能力的影响。结果表明,AB-8树脂对海边月见草总黄酮有良好的吸附纯化性能,当原液浓度为1.076mg.mL-1时,树脂达饱和吸附量36.11 mg.g-1;提取液pH值对该树脂的吸附能力影响显著,pH值达4.0~4.5时树脂吸附量最大;用60%乙醇为洗脱剂,流速为1 mL.m in-1,总黄酮的动态洗脱率达83.41%,获得的总黄酮纯度为24.13%,得率3.54%;而30%乙醇(6倍柱床体积)和50%乙醇(6倍柱床体积)组合是最佳动态洗脱剂。     

HZ-841吸附树脂精制银杏叶总黄酮

本文研究了用HZ-841吸附树脂精制银杏叶总黄酮的工艺。用10 BV 70％的乙醇分三次提取脱脂银杏叶粉中的银杏叶总黄酮,其收得率为4．8％,纯度为21．7％;用30BV纯净水、微波解冻提取30min,银杏叶总黄酮的收得率及纯度分别是2．63％和13．4％。HZ-841树脂对银杏叶总黄酮的动态吸附容量在pH=7．0时为0．265g／mL,树脂,动态吸附平衡时间为10min。酸度对HZ-841树脂吸附银杏叶总黄酮有显著影响,当pH=5．0时,其静态吸附量可达到0．322g／mL。吸附了银杏叶总黄酮的HZ-841树脂可用乙醇洗脱,当洗脱液pH=9．0、乙醇浓度为90％、洗脱流速3BV／h时,5BV洗脱液的收得率为1．8％。用无水乙醇洗脱的银杏叶总黄酮经过真空浓缩、干燥,获得的浅黄色粉末中银杏叶总黄酮含量为37．3％,产品收得率为2．41％。     

大孔吸附树脂对家蝇抗菌肽的吸附与分离纯化

通过比较6种不同型号的大孔吸附树脂对家蝇蛋白的吸附解吸特性,发现D101大孔吸附树脂的性能优于其他5种,吸附流速、浓度影响大孔吸附树脂的动态吸附性能。D101大孔吸附树脂对未经诱导的家蝇蛋白的吸附量可达217．18mg／g（以干树脂总量为基准）,洗脱率为76．48％。吸附后的大孔吸附树脂用15％、35％、55％的乙醇溶液阶段洗脱,各洗脱组分的疏水性逐渐增大,蛋白质含量也明显增加。用E.coli、S．aureus和B．subtilis对各洗脱组分进行抑菌活性测定,抑菌活性随洗脱组分的疏水性增加而增大。测得55％乙醇洗脱组分的抑菌活性最大,其中对E.coli的抑菌圈直径达5．8mm。     

吸附柱层析法制备纯化茶多酚中EGCG单体

以茶多酚为原料,采用吸附树脂柱层析法制备表没食子儿茶素没食子酸酯(EGCG)单体。考察树脂对儿茶素的吸附容量、吸附率、解吸率及吸附选择因数,选择LX-8树脂初步纯化后采用HP-20树脂二次纯化。经LX-8两步柱层析,1.5 BV/h流速洗脱,25%乙醇洗脱组分上柱后经40%乙醇洗脱5 BV可得到纯度为73.06%的EGCG产品。以20 mg/mL浓度的LX-8柱40%乙醇产品上HP-20柱,1.5 BV/h洗脱,5%乙醇洗3 BV,15%乙醇洗6 BV,80%乙醇洗3 BV后,可制得纯度为93.16%,总收率为49.50%的EGCG产品。     

AB-8大孔树脂吸附分离红花桑寄生总黄酮的影响因子研究

AB-8大孔吸附树脂对红花桑寄生总黄酮静态吸附和动态洗脱的效果,受提取液质量浓度、pH值及环境温度、振速以及洗脱剂乙醇浓度、流速等因素影响。试验表明,提取液质量浓度和pH值对AB-8树脂的吸附效果有显著影响,其吸附分离总黄酮的工艺条件为:浓度为1.2~2.0 mg/ml、pH 3.0~4.0的红花桑寄生提取液,置于摇床上,于室温条件下振荡(振速160 r/min)吸附2~3 h,然后用5倍于树脂体积(5BV)的50%乙醇以1.5 ml/min流速进行柱上动态解吸。AB-8树脂对红花桑寄生总黄酮的饱和吸附量可达29.0 mg/g,动态洗脱率达95.0%,获得产品中黄酮纯度为46.0%,得率为5.5%。     

用超大孔树脂吸附和低乙醇浓度洗脱提纯异黄酮的研究

传统大孔吸附树脂吸附分离中草药有效成分通常需要高浓度的有机溶剂作为洗脱剂,在大规模生产中具有安全隐患和对环境的污染。本文以异黄酮为目标产物,考察了8种不同骨架、不同孔径的树脂对异黄酮的吸附分离性能,其中包括本实验室自制的孔径为1000nm的超大孔树脂。实验结果表明,与传统大孔树脂吸附层析法相比,超大孔树脂吸附层析不仅工艺简单、快速而且大幅度降低了有机溶剂的使用量。洗脱时,乙醇浓度由70％降低到20％。     

大孔树脂吸附法提纯苦楝素的研究

研究了大孔树脂吸附法从苦楝树皮的提取液中提纯苦楝素的工艺条件及参数,并筛选出较为理想的大孔吸附树脂。研究结果表明,S-8型吸附树脂的静态饱和吸附量明显大于AB-8型和NKA-9型。该树脂吸附提纯苦楝素的优化吸附条件为吸附温度40℃,溶液pH值8．0,上柱液质量浓度9．127mg／mL,溶液流速2BV／h;优化的解吸条件为：洗脱剂为70％乙醇-水溶液,溶液流速1BV／h,洗脱剂用量为8倍量树脂体积。在优化条件下,可以得到含量达75．2％的苦楝素提取物,表明S-8树脂对苦楝素有良好的吸附选择性。     

X—5树脂吸附和分离萝卜红色素

研究报道了X－5树脂吸附和分离萝卜红色素的方法。试验结果表明：在pH3.0-5.0时,树脂X－5时萝卜红色素具有较强的吸附能力和吸附选择性,其吸附容量为82.6mg/g树脂,吸附平衡时间30min,X－5树脂对产生萝卜异味的萝卜苷几乎不吸附,同时用50％的乙醇溶液洗脱,可获得90.8％以上的萝卜红色素。用该工艺生产的色素产品为深红色粉状,色价比国家标准提高了13倍。     

Recovery of ganoderic acids from <Emphasis Type="Italic">Ganoderma lucidum</Emphasis> mycelia by macroporous adsorption resins

In this work, the performance and adsorption characteristics of macroporous resins for the recovery and enrichment of ganoderic acid (GA)-Mk and GA-T from Ganoderma lucidum mycelia were systematically evaluated. ADS-8 resin displayed the best adsorption and desorption capacities among the tested resins based on batch experiments. The interaction between solute and ADS-8 resin at different temperatures was described in terms of Langmuir and Freundlich isotherms, and the equilibrium experimental data were well fitted to the two isotherms. Thermodynamic analysis indicated the exothermic and spontaneous nature of the adsorption process. The adsorption capacity of ADS-8 resin was found to depend strongly on the pH value of the initial solution. Dynamic adsorption and desorption tests were performed on an ADS-8 resin-packed column to obtain optimal parameters for recovering GA-Mk and GAT from G. lucidum extract. Under optimized conditions, a laboratory scale-up preparation of GA-Mk and GA-T was carried out. The contents of GA-Mk and GA-T were increased from 45 to 22 mg/g in the crude extract to 352 and 141 mg/g in the final product with recovery yields of 90.1 and 72.2%, respectively. These results demonstrated that ADS-8 resin chromatography could act as a useful approach for obtaining ganoderic acids from G. lucidum mycelia.     

Bacillus amyloliquefaciens ES-2发酵产抗菌脂肽消泡剂的筛选及脂肽的提取和纯化

将大豆油、有机硅消泡剂和聚醚类消泡剂3种消泡剂分别用于Bacillus amyloliquefaciens ES-2抗菌脂肽发酵,研究表明大豆油既可以实现消泡,又有利于抗菌脂肽的发酵,使其产量达到了2497.67mg/L。经过提取得到纯度为55.68%的产品,提取率达到88.72%。此外还比较了不同大孔树脂对抗菌脂肽吸附和解吸附效果,发现大孔树脂X-5最适合抗菌脂肽的纯化。纯化的工艺参数为:上样浓度14.4mg/ml、上样速率1ml/min,洗脱速率2ml/min、洗脱剂用量2.5BV,产品的回收率达90.01%,纯度达74.4%。     

大孔吸附树脂分离纯化地黄中梓醇工艺的研究

利用大孔吸附树脂分离提取地黄中梓醇。以地黄粗提液中梓醇含量为指标,高效液相色谱(HPLC)为含量测定方法,考察九种不同极性大孔吸附树脂对梓醇的吸附和解吸附性能,筛选出最佳树脂D101进行分离实验。结果表明,D101大孔吸附树脂的静态吸附容量为69.2mg/g干树脂,其吸附等温线符合Langmuir和Freundlich吸附等温式。采用5%乙醇作为洗脱剂,洗脱液减压浓缩后进行硅胶柱层析分离,氯仿：甲醇（8：2）梯度洗脱得到梓醇单体,纯度达90%以上,梓醇得率为6%。     

Isoflavones Daidzein and Genistein: Preparation by Acid Hydrolysis of Their Glycosides and the Effect on Phospholipid Peroxidation

A mixture of isoflavones was obtained by acid hydrolysis of isoflavone glycosides isolated from the products of soybean processing by successive extraction with aqueous acetone and methanol. The homogeneous isoflavones daidzein and genistein were isolated from the aglycone mixture by adsorption chromatography and identified by spectral and chromatographic methods. The effect of both isoflavones on lipid peroxidation of soy phospholipids in multilamellar vesicles was studied at various concentrations. These aglycones were found to inhibit the formation of lipid hydroperoxides and malonic dialdehyde at concentrations as low as 1 mM.     

Effect of genistein and daidzein obtained by acid hydrolysis of their glycosides on phospholipid peroxidation

A mixture of isoflavones was obtained by acid hydrolysis of isoflavone glycosides isolated from the products of soybean processing by a successive extraction with aqueous acetone and methanol. Homogeneous isoflavones genistein and daidzein were isolated from the aglycone mixture by adsorption chromatography and identified by spectral and chromatographic methods. The effect of both isoflavones on lipid peroxidation of soy phospholipids in multilamellar vesicles was studied at various concentrations. These aglycones were found to inhibit the formation of lipid hydroperoxides and malonic dialdehyde at the concentrations as low as 1 mM.     

Separation of soybean saponins from soybean meal by a technology of foam fractionation and resin adsorption

Foam fractionation and resin adsorption were used to recover soybean saponins from the industrial residue of soybean meal. First, a two-stage foam fractionation technology was studied for concentrating soybean saponins from the leaching liquor. Subsequently, resin adsorption was used to purify soybean saponins from the foamate in foam fractionation. The results showed that the enrichment ratio, the recovery percentage, and the purity of soybean saponins by using the two-stage foam fractionation technology could reach 4.45, 74%, and 67%, respectively. After resin adsorption and desorption, the purity of soybean saponins in the freeze-dried powder from the desorption solution was 88.4%.     

Improved production of teicoplanin using adsorbent resin in fermentations

AIMS: To use adsorbent resins in fermentations to eliminate toxic effects on growth, reduce feedback repression of production and assist in recovery of teicoplanin. METHODS AND RESULTS: An adsorbent resin was added to the culture broth for the adsorption of teicoplanin. Amberlite XAD-16, Diaion HP-20, charcoal and silica gel were investigated as adsorbent resins. The adsorbed teicoplanin was extracted from the resin by 80% methanol after fermentation. Antibiotic activity was quantified by the disc-agar diffusion assay against Bacillus substilis, and qualitative evaluations were based on HPLC using YMC-Pack ODS-A column. Diaion HP-20 was the most effective adsorbent resin when added at a concentration of 5% (w/v) in the inoculation stage. CONCLUSIONS: Addition of Diaion HP-20 in fermentations eliminated toxic effects on growth and reduced feedback repression of teicoplanin by adsorption. There was a 4.2-fold increase in the quantities of teicoplanin. Addition of adsorbent assisted in the recovery of teicoplanin by reducing the recovery steps. SIGNIFICANCE AND IMPACT OF THE STUDY: The results of this study provide useful information for the production of teicoplanin, a glycopeptide antibiotic produced by Actinoplanes teicomyceticus. Addition of adsorbent in fermentation increased productivity of teicoplanin by more than five times.     

Hydrophobic interaction adsorption of hen egg white proteins albumin, conalbumin, and lysozyme

Hydrophobic adsorption equilibrium data of the hen egg white proteins albumin, conalbumin, and lysozyme were obtained in batch systems, at 25 degrees C, using the Streamline Phenyl resin as adsorbent. The influence of three types of salt, NaCl, Na(2)SO(4), or (NH(4))(2)SO(4), and their concentration on the equilibrium data were evaluated. The salt Na(2)SO(4) showed the higher interaction with the studied proteins, thus favoring the adsorption of proteins by the adsorbent, even though each type of salt interacted in a distinct manner with each protein. The isotherm models of Langmuir, Langmuir exponential, and Chen and Sun were well fitted to the equilibrium data, with no significant difference being observed at the 5% level of significance. The mass transfer model applied simulated correctly adsorption kinetics of the proteins under the studied conditions.     

响应面法优化白头翁总黄酮提取工艺

采用无水乙醇C2H5OH/硫酸铵(NH4)2SO4双水相体系分离白头翁中的黄酮。确定双水相体系组成为21%C2H5OH/22%(NH4)2SO4,通过单因素试验和Box-Benhnken实验设计探讨黄酮粗提液质量分数、NaCl质量分数和pH值对萃取效果的影响。确定最佳萃取条件为:黄酮粗提液质量分数12.5%,NaCl质量分数1.5%,pH 5.99,在此条件下,白头翁总黄酮主要分布在上相,萃取率可达73.6%。     

Adsorption behaviors of L-arginine from aqueous solutions on a spherical cellulose adsorbent containing the sulfonic group

An investigation was conducted regarding the adsorption and desorption of L-arginine from aqueous solutions with a new spherical cellulose adsorbent containing the sulfonic group. The adsorption of L-arginine on the adsorbent was time, pH, initial concentration of L-arginine and temperature dependent. The adsorption process followed the Langmuir adsorption isotherm, and was endothermic (DeltaH =24.66 KJ/mol). Almost 100% L-arginine adsorbed on the adsorbent could be recovered with a 2.0 mol/L NH4OH or 2.0 mol/L NH4Cl aqueous solution. After 25 and 40 cycles of adsorption and desorption, the decrease in adsorption capacity reached to 4.9% and 20.3%, respectively.