An efficient preparative method was successfully developed for isolation and purification of unstable components from medicinal plant extracts, using a combined method of preparative high performance liquid chro-matog...An efficient preparative method was successfully developed for isolation and purification of unstable components from medicinal plant extracts, using a combined method of preparative high performance liquid chro-matography(HPLC) and solid-phase extraction(SPE). The aim of this study was to obtain an effective method with high preparative efficiency and importantly to avoid the transformation of unstable compounds. The preparative HPLC system was based on an LC/MS controlled four-channel autopurification system. The SPE method was performed with a C18 packing material to trap the target compounds and to remove the acidic additive derived from the mobile phase. Using this method, the unstable iridoid glucosides(IGs) as model compounds were successfully isolated and purified from the extract of Hedyotis diffusa Willd. Six IGs(including one new minor IG) and one nucleotide compound were simultaneously obtained, each with a purity of 91% as determined by HPLC. The structures of the isolated compounds were identified by UPLC/Q-TOF MS, UV, 1D and/or 2D NMR. It was demonstrated that the combination of preparative HPLC with SPE is a versatile tool for preparative purification of unstable compounds from complex natural products.展开更多
Solid-phase extraction method has proven efficient and amenable to microchips.A novel DNA purification microchip was demonstrated using porous silicon dioxide as the solid phase matrix.Porous SiO_2 was coated on the w...Solid-phase extraction method has proven efficient and amenable to microchips.A novel DNA purification microchip was demonstrated using porous silicon dioxide as the solid phase matrix.Porous SiO_2 was coated on the wall of the channel of the microchip to provide a surface-enlarging matrix.The porous silicon was achieved by anodisation of the silicon reactor in a HF/ethanol mixture and then was oxidized thermally at a lower increasing/decreasing rate to form porous SiO_2.Through optimization of the preparing conditions a more stable microchip was established.Compared with the microchip without the porous layer,the microchip with the porous SiO_2 layer achieved higher extracted efficiency of DNA.Genomic DNA from rat whole blood could be extracted and purified in 35 minutes.展开更多
该研究建立了热水浴提取-分散固相萃取(DSPE)净化-超高效液相色谱-串联质谱(UPLC-MS/MS)测定枸杞干果、鲜果中氯酸盐和高氯酸盐含量的方法。试样用7 m L超纯水在60℃水浴中振荡提取30 min后,加入13 m L甲醇涡旋5 min,离心后上清液用C18...该研究建立了热水浴提取-分散固相萃取(DSPE)净化-超高效液相色谱-串联质谱(UPLC-MS/MS)测定枸杞干果、鲜果中氯酸盐和高氯酸盐含量的方法。试样用7 m L超纯水在60℃水浴中振荡提取30 min后,加入13 m L甲醇涡旋5 min,离心后上清液用C18和石墨化碳黑(GCB)组合分散固相萃取净化,净化液在电喷雾负离子源和多反应监测(MRM)模式下测定,基质外标法定量。结果表明,枸杞干果、鲜果中氯酸盐和高氯酸盐均分别在1.0~100.0 ng/mL、0.5~100.0 ng/mL范围内线性关系良好,相关系数R2分别为0.998 9和0.999 2及0.998 4和0.999 0。氯酸盐检出限(LOD)为1.0μg/kg、定量限(LOQ)为10.0μg/kg;高氯酸盐LOD为0.5μg/kg、LOQ为5.0μg/kg。干果中氯酸盐和高氯酸盐平均加标回收率分别为89.9%~93.4%和76.8%~93.6%,相对标准偏差(RSD)分别小于11.0%和12.0%;鲜果中氯酸盐和高氯酸盐平均加标回收率分别为73.8%~94.9%和61.2%~90.5%,RSD分别小于11.0%和17.0%。展开更多
Micro total analysis systems for chemical and biological analysis have attracted much attention. However, microchips for sample preparation and especially DNA purification are still underdeveloped. This work describes...Micro total analysis systems for chemical and biological analysis have attracted much attention. However, microchips for sample preparation and especially DNA purification are still underdeveloped. This work describes a solid phase extraction chip for purifying DNA from biological samples based on the adsorption of DNA on bare silica beads prepacked in a microchannel. The chip was fabricated with poly-dimethylsiloxane. The silica beads were packed in the channel on the chip with a tapered microchannel to form the packed bed. Fluorescence detection was used to evaluate the DNA adsorbing efficiency of the solid phase. The polymerase chain reaction was used to evaluate the quality of the purified DNA for further use. The extraction efficiency for the DNA extraction chip is approximately 50% with a 150-nL extraction volume. Successful amplification of DNA extracted from human whole blood indicates that this method is compatible with the polymerase chain reaction.展开更多
基金Supported by the Science and Technology Plan of Liaoning Province, China(No.2006226002)the Project of the Doctor Fund of Hebei University of Science and Technology, China(No.005121)
文摘An efficient preparative method was successfully developed for isolation and purification of unstable components from medicinal plant extracts, using a combined method of preparative high performance liquid chro-matography(HPLC) and solid-phase extraction(SPE). The aim of this study was to obtain an effective method with high preparative efficiency and importantly to avoid the transformation of unstable compounds. The preparative HPLC system was based on an LC/MS controlled four-channel autopurification system. The SPE method was performed with a C18 packing material to trap the target compounds and to remove the acidic additive derived from the mobile phase. Using this method, the unstable iridoid glucosides(IGs) as model compounds were successfully isolated and purified from the extract of Hedyotis diffusa Willd. Six IGs(including one new minor IG) and one nucleotide compound were simultaneously obtained, each with a purity of 91% as determined by HPLC. The structures of the isolated compounds were identified by UPLC/Q-TOF MS, UV, 1D and/or 2D NMR. It was demonstrated that the combination of preparative HPLC with SPE is a versatile tool for preparative purification of unstable compounds from complex natural products.
基金The authors greatly acknowledge the financial support from the National Science Foundation of China under Grant number 20299030, 60427001 and 60501020.
文摘Solid-phase extraction method has proven efficient and amenable to microchips.A novel DNA purification microchip was demonstrated using porous silicon dioxide as the solid phase matrix.Porous SiO_2 was coated on the wall of the channel of the microchip to provide a surface-enlarging matrix.The porous silicon was achieved by anodisation of the silicon reactor in a HF/ethanol mixture and then was oxidized thermally at a lower increasing/decreasing rate to form porous SiO_2.Through optimization of the preparing conditions a more stable microchip was established.Compared with the microchip without the porous layer,the microchip with the porous SiO_2 layer achieved higher extracted efficiency of DNA.Genomic DNA from rat whole blood could be extracted and purified in 35 minutes.
基金the National Key Basic Research and Develop-ment (973) Program of China (No. G19990166) and the Na-tional High-Tech Research and Development (863) Program of China (No. 2002AAZZ2011)
文摘Micro total analysis systems for chemical and biological analysis have attracted much attention. However, microchips for sample preparation and especially DNA purification are still underdeveloped. This work describes a solid phase extraction chip for purifying DNA from biological samples based on the adsorption of DNA on bare silica beads prepacked in a microchannel. The chip was fabricated with poly-dimethylsiloxane. The silica beads were packed in the channel on the chip with a tapered microchannel to form the packed bed. Fluorescence detection was used to evaluate the DNA adsorbing efficiency of the solid phase. The polymerase chain reaction was used to evaluate the quality of the purified DNA for further use. The extraction efficiency for the DNA extraction chip is approximately 50% with a 150-nL extraction volume. Successful amplification of DNA extracted from human whole blood indicates that this method is compatible with the polymerase chain reaction.