Objective Genetic diversity and affinity relationships among 13 species of Dendrobium Sw.were analyzed,the result laid a solid foundation for the better use of this resources.Methods Random amplified polymorphic DNA(RAPD) technique was used to analyze genetic diversity,and the dendrogram was constructed by UPGMA.Results Ten RAPD primers were applied to do random amplification.A total of 188 DNA bands was detected,180 among which were polymorphic,the average rate of polymorphic bands was 95.74%.The result of cluster analysis by using UPGMA method showed that 13 genotypes could be classified into three types in genetic distance 0.63.This outcome was corresponding to the result by using traditional classification.Conclusion It is concluded that RAPD markers can be used on the studies of genetic relationships and classification of species of Dendrobium Sw.sensitively.

Objective To study the inhibition of berberine on organ anion transporters (OATs) and its bidirectional trans-membrane transport.Method The transgene cell lines of the organ anion transporters including OAT1,OAT2,OAT3,OAT4,OAT7,and URAT1 were constructed and selected by animal cell transgenic method mediated by transporter Lipo 3000.Wild type (WT) cells were used as control group,and activity of OATs was verified by adding their radiolabeled substrates and inhibitors.The inhibition of 100 μmol/L berberine on the transporters was investigated in vitro.The IC50 of berberine on URAT1 was also determined.The bidirectional transport of berberine was studied through the Caco-2 model.Result The results showed that 100 μmol/L berberine inhibited the activity of OAT1,OAT2,OAT3,OAT4,OAT7 and URAT1 to (70.48±4.23)％,(69.13±1.28)％,(72.12±3.28)％,(79.77±6.49)％,(69.51 ±5.99)％ and (38.4 ± 2.67)％ respectively,the IC50 of berberine to URAT 1 was 13.19 μmol/L,the Papp (A-B) of 50 μmol/L and 100 μmol/L berberine were separately 0.28 × 10-6 and 0.40 × 10-6 cm/s,and the effiux rates were separately 3.18 and 3.15.Conclusion Berberine shows a stronger inhibition to URAT1 compared to OAT1,OAT2,OAT3,OAT4 and OAT7.Berberine may be the substrate of some effiux transporters.This study provides theoretical basis for explaining the low bioavailability ofberberine and forecasting the possible drug-drug interaction.

Objective To study the inhibitory effects ofberberine on human organic cation transporter (OCTs) including OCT1,OCT2,OCT3,OCTN1 and OCTN2.Methods Using animal cell transgenic method mediated by transporter Lipo 3000,the drug transporters over expression cell lines S2-OCT1,S2-OCT2,S2-OCT3,S2-OCTN1 and S2-OCTN2 were obtained by selective medium culture.The OCTs evaluation model was established by detecting the trans-membrane transport of radioactive substrate in vitro.Wild type (WT) cells were used as control group,activity of OCTs was verified by adding its inhibitor.The inhibition of berberine on the transporters was investigated in vitro.The IC50 of inhibitory effect of berberine on various drug transporters was also calculated.Result The transport activity of transporter cell lines was increased by more than 5 times compared to the WT cell line respectively,what's more,their transport activity decreased significantly by their corresponding inhibitor.The ICs0 of berberine to OCT1,OCT2,OCT3,OCTN1 and OCTN2 were respectively 7.63,6.80,2.25,4.66 and 210.34 μmol/L.Conclusion Berberine significant inhibition to OCT1,OCT2,OCT3,OCTN1 and OCTN2.The inhibition on OCT1,OCT2,OCT3,OCTN1 is stronger compared to OCTN2.