ABSTRACT
Objective: To provide a basis for the rational use of Sophora japonica resources through comprehensive evaluation of different tissues and organs. Methods: The contents of rutin, narcissin, quercetin, isorhamnetin and heavy metals in the samples were detected by HPLC and ICP-OES. The Fe3+ reducing ability, DPPH free radical (DPPH•), ABTS free radical (ABTS•+) scavenging ability and total antioxidant capacity (FRAP) were detected by colorimetry. Then, cluster analysis (CA) and principal component analysis (PCA) were conducted by software of SPSS 20.0. Results: The total contents of four flavonoids in different tissues and organs of S. japonica were arranged as follows: flower buds > flowers > flower axis > leaves > branches. The order of antioxidant capacities was as follows: flower buds > flowers > flower axis > leaves > branches, which were positively correlated with the total contents of four flavonoids. The contents of five heavy metal elements in flowers and flower buds were within the limitation of the Green standards of medicinal plants and preparations for foreign trade and economy, while the Cd element in some leaves, flower axis and branches was beyond the standard. Flowers and flower buds were clustered into one type by CA, while flower axis, leaves and branches were clustered into another category. The two principal components (PC1 and PC2) were extracted from the eight variables by PCA, PC1 showed significant differences among different tissues and organs, and PC2 values showed large differences among batches. Conclusion: The flowers and flower buds of S. japonica showed an excellent qualities, including safe doses of heavy metals, rich flavonoids and outstanding antioxidant activities. In addition, the flower axis and leaves also contained high flavonoids and exhibited strong antioxidant activities, which had the value of further development and utilization.
ABSTRACT
This work aimed to study the antioxidant activity of a quercetin-containing flavonoid extract (FQЕ) obtained from Sophora japonica L. flower buds rich in quercetin (91.6%). Radical scavenging activity was analyzed towards the synthetic radicals DPPH and ABTS+ and antioxidant activity was evaluated applying the method of oxygen consumption in a model system containing methyl linoleate. Model food systems of lard and sunflower oil were explored by the application of Rancimat method and chicken as a real food system was investigated by the thiobarbituric acid test. Results showed a high radical scavenging activity and antioxidant capacity of QFE similar to those of the pure flavonoid quercetin.
ABSTRACT
Object To select the optimum extracting procedure for quercetin from bud of Sophora japonica L. Methods The optimum extracting procedure was selected with the content and extraction effeciency of quercetin from bud of S. japonica by orthogonal test design. Results The optimum extracting procedure was determined with 10 times of 0.05% sodium hydroxide decocting 20 min and 4 times, adjusting pH value to 6, hydrolyzing with 10 times of 4% sulfuric acid for 1 h after precipitated. Conclusion The optimum extracting procedure increased the content and extraction efficiency of quercetin from bud of S. japonica.
ABSTRACT
AIM: To evaluate the effect of microfiltrating the extract of Sophora japonica L. by inorganic ceramic membrane. METHODS: The extract of Sophora japonica L. was processed by inorganic ceramic membrane, and the whole solid, effective ingredinent and flux of mebrane were examined. RESULTS: The extract of Sophora japonica L. became clear after microfiltration. The decreasing rate of the whole solid was 27.88%, the metastasis rate of the effective ingredient was 78.26, and the increasing rate of the effective ingredient was 8.48%. CONCLUSION: The microfiltration of inorganic ceramic membrane can improve the qualitry of extract of Sophora japonica L. refinery effect.