普鲁兰酶逆向合成麦芽糖基-α-环糊精

以麦芽糖和α-环糊精作为底物,利用普鲁兰酶逆向合成作用合成了麦芽糖基-α-环糊精。用薄层色谱、液-质联用对产物进行了鉴定,并用薄层色谱对其分离。对影响麦芽糖基-α-环糊精合成的反应物摩尔比(麦芽糖/α-环糊精)、底物浓度、反应温度、反应时间、加酶量、pH等因素分别做了单因素实验,最终确定了反应条件:反应物摩尔比(麦芽糖/α-环糊精)为16:1,反应时间24h,反应温度为58℃,加酶量400U/gα-环糊精,pH4.5。

麦芽糖基(α-1→6)β-环糊精的酶法合成和结构鉴定

Cyclodextrins are widely used for various purposes and limited because of it′s low solubility.Branched cyclodextrins have attracted more and more attention because of their many advantages such as higher solubility in water.In this study a new method for synthesizing maltosyl(α-1→6)β-cyclodextrin with a high yield was described.Mal-β-CD was synthesized through the reverse reaction of Bacillus licheniformis pullulanase and identified.The factors which affect the formation of maltosyl(α1→6)β-cyclodextrin were studied and the optimum conditions were obtained as follows: 250 U/g β-CD of enzyme amount,molar ratio of maltose to β-CD 12∶1～16∶1,a substrate mass fraction of 80%,the pH of reaction mixture 4.5,reaction temperature 70 ℃ and reaction time 60 h respectively.The product was separated by Sephadex G25 column and further purified by Bio-gel P-2 column.Maltosyl(α-1→6)β-cyclodextrin was identified by IR,ESI-MS and NMR.It was proved to be a effective method to synthesize maltosyl(α-1→6)β-cyclodextrin by using Bacillus licheniformis pullulanase.The yield of Mal-β-CD was about 56% under the optimal conditions.

异淀粉酶合成麦芽糖糖基环糊精的研究

以β-环糊精、麦芽糖为原料,采用异淀粉酶反向合成得到超高水溶性的麦芽糖基(α-1→6)β-环糊精.其最佳合成条件为:麦芽糖与环糊精摩尔比8∶1、异淀粉酶300 U/gβ-环糊精、反应pH 6.0、温度50℃、反应时间35 h.

反向合成超高水溶性麦芽糖基β-环糊精

以β-环糊精、麦芽糖为原料,采用普鲁蓝酶生物反向合成得到超高水溶性的麦芽糖基(α-1→6)β-环糊精,其最佳条件为麦芽糖与环糊精摩尔比为8∶1、普鲁蓝酶450U/gβ-环糊精、反应pH为4.0。

环糊精的发展及特性研究

环糊精在食品等领域应用非常广泛。它具有特殊的结构,可以和许多化合物生成包合物。本文用差示扫描量热法(DSC)研究了麦芽糖基(α-1→6)-β-环糊精(Mal-β-CD)的热分解动力学。按Kissinger方程和Ozawa方程计算反应的活化能,分别为21.44k J/mol和18.7k J/mol,麦芽糖基(α-1→6)-β-环糊精在高温、高浓度碱中处于稳定,在酸中可被水解。随着温度的升高,溶解度变大。