人参叶化学成分及其生物活性研究
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摘要
本文对人参叶化学成分及其生物活性进行了研究。
从人参叶中共分得24个三萜类化合物,并利用1DNMR、2DNMR、MS等方法确定了其结构。它们分别为人参皂苷A(Ginsenoside A,1)、人参皂苷B(Ginsenoside B,2)、人参皂苷C(Ginsenoside C,3)、人参皂苷M7cd (ginsenoside M7cd,4)、人参皂苷Rg6(Ginsenoside Rg6,5)、20-(E)-人参皂苷F4(20-(E)-ginsenoside F4,6)、七叶胆皂苷XVII(Gypenoside XVII,7)、人参皂苷Rb3(Ginsenoside Rb3,8)、七叶胆皂苷IX (Gypenoside IX,9)、珠子参皂苷F4(Majoroside F4,10)、人参皂苷F1(Ginsenoside F1,11)、人参皂苷F2(Ginsenoside F2,12)、人参皂苷F3(Ginsenoside F3,13)、人参皂苷F5(Ginsenoside F5,14)、人参皂苷Rd2(Ginsenoside Rd2,15)、三七皂苷(Notoginseoside Fe,16)、20-(S)-人参皂苷Rh1(20-(S)-ginsenoside Rh1,17)、人参皂苷Re(Ginsenoside Re,18)、20-(R)-人参皂苷Rg2(20-(R)-ginsenoside Rg2,19)、20-(S)-人参皂苷Rg2(20-(S)-ginsenoside Rg2,20)、人参皂苷Rb1(Ginsenoside Rb1,21)、人参皂苷Rb2(Ginsenoside Rb2,22)、人参皂苷Rc(Ginsenoside Rc,23)、人参皂苷Rd(Ginsenoside Rd,24)。分得的24个化合物中,化合物1-9为首次从人参叶中得到,化合物1、2、3为新化合物。
本文首次建立了人参叶及活力源片中10种主要人参皂苷(人参皂苷F1、人参皂苷F2、人参皂苷F3、人参皂苷F5、三七皂苷Fe、人参皂苷Rb1、人参皂苷Rb2、人参皂苷Rb3、人参皂苷Rc、人参皂苷Rd)的HPLC含量测定方法,该方法具有便捷、准确、灵敏、选择性高等特点。
本文还对各种人参皂苷单体及其混合物的抗自由基生物活性进行了研究,探讨了各种人参皂苷单体及其混合物对由AAPH引起的红细胞膜氧化损伤的抑制作用,为寻找其可能的医药用途提供了实验依据。研究结果表明,人参皂苷单体及混合物的抗氧化活性顺序为F组人参皂苷>b组人参皂苷>人参皂苷F2>原人参二醇>人参皂苷Rd>人参皂苷Rg2>人参皂苷F5>人参皂苷Rb3>人参皂苷Rb1>三七皂苷Fe>珠子参皂苷F4>人参皂苷Rb2>人参皂苷Rc>人参皂苷F1~人参皂苷F3。
本实验的研究结果为利用人参叶研制开发新药或保健产品以及人参叶及其相关产品的质量控制提供了科学依据。
Panax ginseng C. A. Meyer (P. ginseng) as a plant of Araliaceae is mainly distributed in Northeast region and Changbai Mountain of China, North Korea, Corea, Japan and Russia. As early as the 1970′s, the aboveground parts of P. ginseng have been studied by many scholars from different countries, who found that the leaves of P.ginseng contains the same ginsenosides with the roots, and the content was higher than the roots. The leaves of P.ginseng have been widely used throughout the word for the treatment of a number of diseases, including anaemia, diabetes, cancer and arrhythmia etc.
The main chemical constituents are ginsenosides which are glycosides that contain an aglycone with dammarane skeleton in the leaves of P.ginseng. From 1976, there have been more than forty saponins in the leaves of P.ginseng. In order to further study on the chemical constituents and bioactivities of the leaves of P.ginseng, the extraction, separation and determination of the leaves of P.ginseng from Jingyu country of Jilin Province were preformed. 10 saponins (GinsenosideF2, GinsenosideRd, GinsenosideF5, GinsenosideRb3, GinsenosideRb1, GinsenosideRb2, GinsenosideRc, GinsenosideF1, GinsenosideF3 and Notoginseoside Fe) in P. ginseng leaf were simultaneously determined by RP-HPLC, and the contents of total saponins in P. ginseng leaf from different areas in China were compared. In addition, the contents of 10 saponins in Huoliyuan tablets which were traditional chinese medicine were also quantitatively determined.
13 saponins (GinsenosideRb1, GinsenosideRb2, GinsenosideRb3, GinsenosideRc, GinsenosideRd, GinsenosideF1, GinsenosideF2, GinsenosideF3, GinsenosideF5, Notoginseoside Fe, Protopanaxadiol, GinsenosideRg2, Majonoside F4), b mixed compounds (GinsenosideRb1, GinsenosideRb2, GinsenosideRb3, GinsenosideRc, GinsenosideRd) and F mixed compounds (GinsenosideF1, GinsenosideF2, GinsenosideF3, GinsenosideF5, Notoginseoside Fe, GinsenosideRg2) were studied by inhibiting AAPH (2,2′-azobis (2-amidinopropane )hydrochloride) induced hemolysis of human erythrocytes in thesis.
The air-dried leaves (2kg) were extracted three times with water under heating. The extracts were combined, subjected to a macroporous absorption resin AB-8 column by eluting with water to remove impurities, and then eluted with 85% EtOH. The eluate was collected and evaporated under vacuum to afford the crude saponins fraction, which was partitioned in an EtOAc-H2O (1:1 v/v) mixture. The aqueous phase was further extracted with n-BuOH. Removal of the solvent from the EtOAc-soluble, n-BuOH-soluble and H2O-soluble fractions under reduced pressure yielded 91g, 106g, 33g of the residue, respectively. The compounds were separated and purified by silica gel column, ODS column, RP-HPLC etc.. Twenty-four compounds were isolated and identified by 1DNMR、2DNMR、MS etc., as compound 1(Ginsenoside A)、compound 2(Ginsenoside B)、compound 3(Ginsenoside C)、compound 4(Ginsenoside M7cd)、compound 5(Ginsenoside Rg6)、compound 6 (20-(E)-Ginsenoside F4)、compound 7(Gypenoside XVII)、compound 8(Ginsenoside Rb3)、compound 9(Gypenoside IX)、compound 10(Majoroside F4)、compound 11 (Ginsenoside F1)、compound 12(Ginsenoside F2)、compound 13(Ginsenoside F3)、compound 14(Ginsenoside F5)、compound 15(Ginsenoside Rd2)、compound 16(Notoginseoside Fe)、compound 17( 20-(S)-Ginsenoside Rh1 )、compound 18 ( Ginsenoside Re )、compound 19(20-(R)-Ginsenoside Rg2)、compound 20(20-(S)-Ginsenoside Rg2)、compound 21(Ginsenoside Rb1)、compound 22(Ginsenoside Rb2)、compound 23(Ginsenoside Rc)、compound 24(Ginsenoside Rd). Among which, compond 1-9 are the first time isolated from the leaves of P.ginseng, compound 1, 2, 3 are new , named ginsenoside A, B, C.
In this thesis, The conditions of HPLC-UV were firstly established for the quantitative and qualitative determination of 10 saponins(GinsenosideF2, GinsenosideRd, GinsenosideF5, GinsenosideRb3, GinsenosideRb1, GinsenosideRb2, GinsenosideRc, GinsenosideF1, GinsenosideF3 and Notoginseoside Fe) in P. ginseng leaf and Huoliyuna tablets. The appropriate analytical condition: UV absorption was measured at 203nm.Gradient elution was employed using solvent A (acetonitrile) and solvent B (water) at 25℃, the gradient eluting program started with 29.6% (v/v) solvent A and 70.4% (v/v) solvent B for 15 min, then 15-30min, changed to 40% (v/v) solvent A and solvent B 60% (v/v), and was held for 10 min. The flow rate was kept at 1 ml/min and the sample injection volume was 10μL. The results showed that the content of ginsenosideRd was the highest, the contents of ginsenosideRb1, Rb3, notoginseoside Fe were lower than the other ginsenosides. the contents of the saponins were obviously different from different growing area. the contents of total saponins in the leaves from changbai were lower than the leaves from other growing area. the contents of ginsenoside Rb3 in the leaf of P. ginseng cultivated in Fusong was higher than the other samples.
The quantification method is rapid, accurate, and precise. The proposed method satisfies the need for quality control of P. ginseng leaves and their products.
13 saponins, F mixed compounds and b mixed compounds were studied by inhibiting AAPH (2,2′-azobis(2-amidinopropane)hydrochloride) induced hemolysis of human erythrocytes.The results showed that a majority of ginsenosides obviously protect human erythrocytes against AAPH-induced haemolysis. It showed that the effects changed duing to different compounds, and the time when hemolysis attained 50% was also different. Ginsenoside F2 , Rd , Rg2 , F5 , Rb3 and ppd exhibited more protevtive effect, but ginsenoside F1, F3, F5 and notoginsenoside Fe exhibited little protevtive effect.The results showed that the free-radical-scavenging activity of various ginsenosides relate to the type of ginsenoside, the category, the number, the position and the connect of the the sugar moieties. In addition, the mixed ginsenosides played the most efficient protective role, which was possibly caused by the synergistic reaction among several compounds and was expected for the further continued research. The active sequence was F mixed compounds> b mixed compounds > F2 > ppd > Rd > Rg2 >F5 > Rb3 > Rb1 > N-Fe > MF4 > Rb2 > Rc > F1~F3. The presented result provides useful information for the pharmacological research of ginsenosides.
从人参叶中共分得24个三萜类化合物,并利用1DNMR、2DNMR、MS等方法确定了其结构。它们分别为人参皂苷A(Ginsenoside A,1)、人参皂苷B(Ginsenoside B,2)、人参皂苷C(Ginsenoside C,3)、人参皂苷M7cd (ginsenoside M7cd,4)、人参皂苷Rg6(Ginsenoside Rg6,5)、20-(E)-人参皂苷F4(20-(E)-ginsenoside F4,6)、七叶胆皂苷XVII(Gypenoside XVII,7)、人参皂苷Rb3(Ginsenoside Rb3,8)、七叶胆皂苷IX (Gypenoside IX,9)、珠子参皂苷F4(Majoroside F4,10)、人参皂苷F1(Ginsenoside F1,11)、人参皂苷F2(Ginsenoside F2,12)、人参皂苷F3(Ginsenoside F3,13)、人参皂苷F5(Ginsenoside F5,14)、人参皂苷Rd2(Ginsenoside Rd2,15)、三七皂苷(Notoginseoside Fe,16)、20-(S)-人参皂苷Rh1(20-(S)-ginsenoside Rh1,17)、人参皂苷Re(Ginsenoside Re,18)、20-(R)-人参皂苷Rg2(20-(R)-ginsenoside Rg2,19)、20-(S)-人参皂苷Rg2(20-(S)-ginsenoside Rg2,20)、人参皂苷Rb1(Ginsenoside Rb1,21)、人参皂苷Rb2(Ginsenoside Rb2,22)、人参皂苷Rc(Ginsenoside Rc,23)、人参皂苷Rd(Ginsenoside Rd,24)。分得的24个化合物中,化合物1-9为首次从人参叶中得到,化合物1、2、3为新化合物。
本文首次建立了人参叶及活力源片中10种主要人参皂苷(人参皂苷F1、人参皂苷F2、人参皂苷F3、人参皂苷F5、三七皂苷Fe、人参皂苷Rb1、人参皂苷Rb2、人参皂苷Rb3、人参皂苷Rc、人参皂苷Rd)的HPLC含量测定方法,该方法具有便捷、准确、灵敏、选择性高等特点。
本文还对各种人参皂苷单体及其混合物的抗自由基生物活性进行了研究,探讨了各种人参皂苷单体及其混合物对由AAPH引起的红细胞膜氧化损伤的抑制作用,为寻找其可能的医药用途提供了实验依据。研究结果表明,人参皂苷单体及混合物的抗氧化活性顺序为F组人参皂苷>b组人参皂苷>人参皂苷F2>原人参二醇>人参皂苷Rd>人参皂苷Rg2>人参皂苷F5>人参皂苷Rb3>人参皂苷Rb1>三七皂苷Fe>珠子参皂苷F4>人参皂苷Rb2>人参皂苷Rc>人参皂苷F1~人参皂苷F3。
本实验的研究结果为利用人参叶研制开发新药或保健产品以及人参叶及其相关产品的质量控制提供了科学依据。
Panax ginseng C. A. Meyer (P. ginseng) as a plant of Araliaceae is mainly distributed in Northeast region and Changbai Mountain of China, North Korea, Corea, Japan and Russia. As early as the 1970′s, the aboveground parts of P. ginseng have been studied by many scholars from different countries, who found that the leaves of P.ginseng contains the same ginsenosides with the roots, and the content was higher than the roots. The leaves of P.ginseng have been widely used throughout the word for the treatment of a number of diseases, including anaemia, diabetes, cancer and arrhythmia etc.
The main chemical constituents are ginsenosides which are glycosides that contain an aglycone with dammarane skeleton in the leaves of P.ginseng. From 1976, there have been more than forty saponins in the leaves of P.ginseng. In order to further study on the chemical constituents and bioactivities of the leaves of P.ginseng, the extraction, separation and determination of the leaves of P.ginseng from Jingyu country of Jilin Province were preformed. 10 saponins (GinsenosideF2, GinsenosideRd, GinsenosideF5, GinsenosideRb3, GinsenosideRb1, GinsenosideRb2, GinsenosideRc, GinsenosideF1, GinsenosideF3 and Notoginseoside Fe) in P. ginseng leaf were simultaneously determined by RP-HPLC, and the contents of total saponins in P. ginseng leaf from different areas in China were compared. In addition, the contents of 10 saponins in Huoliyuan tablets which were traditional chinese medicine were also quantitatively determined.
13 saponins (GinsenosideRb1, GinsenosideRb2, GinsenosideRb3, GinsenosideRc, GinsenosideRd, GinsenosideF1, GinsenosideF2, GinsenosideF3, GinsenosideF5, Notoginseoside Fe, Protopanaxadiol, GinsenosideRg2, Majonoside F4), b mixed compounds (GinsenosideRb1, GinsenosideRb2, GinsenosideRb3, GinsenosideRc, GinsenosideRd) and F mixed compounds (GinsenosideF1, GinsenosideF2, GinsenosideF3, GinsenosideF5, Notoginseoside Fe, GinsenosideRg2) were studied by inhibiting AAPH (2,2′-azobis (2-amidinopropane )hydrochloride) induced hemolysis of human erythrocytes in thesis.
The air-dried leaves (2kg) were extracted three times with water under heating. The extracts were combined, subjected to a macroporous absorption resin AB-8 column by eluting with water to remove impurities, and then eluted with 85% EtOH. The eluate was collected and evaporated under vacuum to afford the crude saponins fraction, which was partitioned in an EtOAc-H2O (1:1 v/v) mixture. The aqueous phase was further extracted with n-BuOH. Removal of the solvent from the EtOAc-soluble, n-BuOH-soluble and H2O-soluble fractions under reduced pressure yielded 91g, 106g, 33g of the residue, respectively. The compounds were separated and purified by silica gel column, ODS column, RP-HPLC etc.. Twenty-four compounds were isolated and identified by 1DNMR、2DNMR、MS etc., as compound 1(Ginsenoside A)、compound 2(Ginsenoside B)、compound 3(Ginsenoside C)、compound 4(Ginsenoside M7cd)、compound 5(Ginsenoside Rg6)、compound 6 (20-(E)-Ginsenoside F4)、compound 7(Gypenoside XVII)、compound 8(Ginsenoside Rb3)、compound 9(Gypenoside IX)、compound 10(Majoroside F4)、compound 11 (Ginsenoside F1)、compound 12(Ginsenoside F2)、compound 13(Ginsenoside F3)、compound 14(Ginsenoside F5)、compound 15(Ginsenoside Rd2)、compound 16(Notoginseoside Fe)、compound 17( 20-(S)-Ginsenoside Rh1 )、compound 18 ( Ginsenoside Re )、compound 19(20-(R)-Ginsenoside Rg2)、compound 20(20-(S)-Ginsenoside Rg2)、compound 21(Ginsenoside Rb1)、compound 22(Ginsenoside Rb2)、compound 23(Ginsenoside Rc)、compound 24(Ginsenoside Rd). Among which, compond 1-9 are the first time isolated from the leaves of P.ginseng, compound 1, 2, 3 are new , named ginsenoside A, B, C.
In this thesis, The conditions of HPLC-UV were firstly established for the quantitative and qualitative determination of 10 saponins(GinsenosideF2, GinsenosideRd, GinsenosideF5, GinsenosideRb3, GinsenosideRb1, GinsenosideRb2, GinsenosideRc, GinsenosideF1, GinsenosideF3 and Notoginseoside Fe) in P. ginseng leaf and Huoliyuna tablets. The appropriate analytical condition: UV absorption was measured at 203nm.Gradient elution was employed using solvent A (acetonitrile) and solvent B (water) at 25℃, the gradient eluting program started with 29.6% (v/v) solvent A and 70.4% (v/v) solvent B for 15 min, then 15-30min, changed to 40% (v/v) solvent A and solvent B 60% (v/v), and was held for 10 min. The flow rate was kept at 1 ml/min and the sample injection volume was 10μL. The results showed that the content of ginsenosideRd was the highest, the contents of ginsenosideRb1, Rb3, notoginseoside Fe were lower than the other ginsenosides. the contents of the saponins were obviously different from different growing area. the contents of total saponins in the leaves from changbai were lower than the leaves from other growing area. the contents of ginsenoside Rb3 in the leaf of P. ginseng cultivated in Fusong was higher than the other samples.
The quantification method is rapid, accurate, and precise. The proposed method satisfies the need for quality control of P. ginseng leaves and their products.
13 saponins, F mixed compounds and b mixed compounds were studied by inhibiting AAPH (2,2′-azobis(2-amidinopropane)hydrochloride) induced hemolysis of human erythrocytes.The results showed that a majority of ginsenosides obviously protect human erythrocytes against AAPH-induced haemolysis. It showed that the effects changed duing to different compounds, and the time when hemolysis attained 50% was also different. Ginsenoside F2 , Rd , Rg2 , F5 , Rb3 and ppd exhibited more protevtive effect, but ginsenoside F1, F3, F5 and notoginsenoside Fe exhibited little protevtive effect.The results showed that the free-radical-scavenging activity of various ginsenosides relate to the type of ginsenoside, the category, the number, the position and the connect of the the sugar moieties. In addition, the mixed ginsenosides played the most efficient protective role, which was possibly caused by the synergistic reaction among several compounds and was expected for the further continued research. The active sequence was F mixed compounds> b mixed compounds > F2 > ppd > Rd > Rg2 >F5 > Rb3 > Rb1 > N-Fe > MF4 > Rb2 > Rc > F1~F3. The presented result provides useful information for the pharmacological research of ginsenosides.
引文
[1]霍霞,李大岩,刘春峰.人参叶现代研究概况[J].中国医药卫生,2005,6(23): 36-37.
[2]王铁生.中国人参[M].沈阳:辽宁科学技术出版社.2001,150.
[3]王铁生.中国人参[M].沈阳:辽宁科学技术出版社.2001,128.
[4]杜尔逊,王玉书,刘玉珍.人参地上部分皂苷含量及其提取工艺[J].特产研究.1980,2: 34-36.
[5]YAHARA S,TANAKA O,KOMORI T.Saponins of leaves of Panax ginseng C.A.Meyer[J].Chemical & Pharmaceutical Bulletin,1976,24(9):2204-2208.
[6]YAHARA S,KAJI K, TANAKA O.Further study on dammaran type of root, leaves,flower-buds,and fruits of Panax ginseng C.A.Meyer[J].Chemical & Pharmaceutical Bulletin,1979,27(1):88-92.
[7]蔡培列,徐景达,谷月清.吉林人参叶中人参皂苷的分离与鉴定[J].药学通报,1982,17(8):500.
[8]蔡培列,徐景达,谷月卿.国产人参叶化学成分的研究(一)人参皂苷的分离与鉴定[J].白求恩医科大学学报,1986,12(1):16-19.
[9]蔡培列,徐景达,谷月卿.国产人参叶化学成分的研究(二)人参皂苷的分离与鉴定[J].白求恩医科大学学报,1987,13(2):110-113.
[10]徐绥绪,王乃利,申梅,吕小开.人参茎叶中皂苷类化学成分的研究[J].植物学报,1986,28(1):95-101.
[11]陈英杰,徐绥绪,马启凤等.人参叶微量新成分的研究[J].药学学报,1987,22(9):685-689.
[12]陈英杰,林景南,谢桦等.抗肿瘤活性成分人参皂苷Rh2的分离与鉴定[J].中药通报,1988,13(1):40-41.
[13]何桂霞,张绍林,崔承彬等.人参叶微量新成分的研究[J].沈阳药学院学报,1989,6(1):68.
[14]ZHANG S L,YAO X S,CHEN Y J,et al.Ginsenoside La,a novalsaponin from the leaves of Panax ginseng[J]. Chemical & Pharmaceutical Bulletin,1989,37(7): 1966-1968.
[15]陈英杰,张绍林,王喆星等.人参叶中微量新皂苷-La的分离与鉴定.药学学报,1990,25(5):379-381.
[16]张绍林,陈英杰,崔承彬等.人参叶中的微量新皂苷.药学学报,1989,24(11):877-879.
[17]赵余庆,袁昌鲁,傅玉琴等.人参茎叶中微量三萜化合物的化学研究.药学学报,1990,25(4):297-301.
[18]ZHANG S L, TAKEDA T,ZHU T R,et al. A New Minor Saponin from the Leaves of Panax ginseng. Planta Medica,1990,56: 298-300.
[19]窦德强,陈英杰,马忠泽等.人参叶化学成分的研究[J].中国药物化学杂志,1996,6(1):54-55.
[20]窦德强,文晔,裴玉萍等.人参叶中微量成分的研究[J].中国中药杂志,1997,22(1): 35-37.
[21]窦德强,陈英杰,竹田忠.自人参叶中得到的一对差向异构体的分离与鉴定[J].中国药物化学杂志,1997,7(3):202-204.
[22]DOU D Q,CHEN Y J,LIANG L H,et al. Six New Dammarane-type Triterpene Saponins from the Leaves of Pananx ginseng[J]. Chemical & Pharmaceutical Bulletin,2001,49(4): 442-446.
[23]DOU D Q,CHEN Y J, REN J,et al.Ocotiione-type Ginsenoside from leaves of Pananx ginseng[J].Journal of Chinese Pharmaceutical Sciences,2002,11(4): 119-121.
[24] WANG L B,GAO H Y,WU B,et al.Structure Determination of A Novel Natural ProductIsolated from the Leaves of Panax Ginseng C.A. Meyer[J]. Chinese Journal of Magnetic Resonance,2006,23(6): 321-326.
[25]TANG X H,SUN X X,HUANG J,et al. A noval natural dammarane–type triterpene saponin from the leaves of Panax ginseng[J].Asian Journal of Traditional Medicines,2007, 2(3): 124-126.
[26]WU L J,WANG L B,GAO H Y,et al. A new compound from the leaves of Pananx ginseng[J]. Fitoterapia,2007,78: 556-560.
[27]唐晓慧.人参叶的化学成分研究[D].沈阳:沈阳药科大学,2008.
[28]王志学,张永煜,刘明生等.人参茎叶中黄酮类成分的研究[J].沈阳药学院学报,l985,29(4):284-287.
[29]李静,卫永第.野山参叶挥发油化学成分的研究[J].中草药,1997,27(4): 205-206.
[30]ZHANG H X, SUN Y X, MAO K Y, et al. Determination of the Constityents of GisengSesquiterpenes [J].Chinese Science Bulletin,1990,35(18): 1526-1528.
[31]王慧,刘在群,王建辉等.人参茎叶挥发油中倍半萜烯化合物的分离与鉴定[J].吉林大学自然科学学报,2001,1(1): 88-90.
[32]刘在群,王慧,林英杰等.人参茎叶挥发油中含氧化合物的分离与结构鉴定[J].应用化学, 2002,19(2):196-198.
[33]SEOG H M,JUNG C H,CHIOC I W, et al. Indentification of phenolic compounds and quantification of their antioxidant activities in roasted wild ginseng (Panax ginseng C.A.Meyer) leaves[J]. Food Science and Biotechnology,2007,16(3): 349-354.
[34]台挂花.生物化学与生物物理学报.1988,2:119.
[35]CUI J F. Detection and quantification of ginsenosides in various commercial ginseng preparations[J]. European Journal of Pharmaceutical Sciences,1995,3: 77-85.
[36]FUZZATI N. Analysis methods of ginsenosides[J]. Journal Chromatography B,2004,812: 119-133.
[37]REN G X,CHEN F. Simultaneous Quantification of Ginsenosides in American Ginseng (Panax quinquefolium) Root Powder by Visible/Near-Infrared Reflectance Spectroscopy[J]. Journal of Agricultural and Food Chemistry,1999,47: 2771-2775.
[38]桂双英,周亚球.比色法测定人参中人参总皂苷的含量[J].安徽中医学院学报,2003,22(4):51-52.
[39]陈方,宋海峰.皂苷分析方法研究进展[J].天津中医院学报,2005,22(3):257-259.
[40]张苏中,杨艳,罗晋萍.薄层扫描法测定龟龄集中人参皂苷Rg1的含量[J].药物分析杂志,1999,19(1):13.
[41]李小进,王宝平,滕训辉.抗疲劳胶囊总皂苷含量测定方法[J].时针国医国药,2003,14(3):138-139.
[42]CUI J F.Identification and quantification of ginsenosides in various commercial ginseng preparations[J]. European Journal of Pharmaceutical Sciences 1995, 3(2): 77-85.
[43]CUI J F, GARLE M, BJOERKHEM E P. Determination of aglycons of ginsenosides in ginseng preparations sold in Sweden and in urine samples from Swedish athletes consuming ginseng[J]. Scandinavian Journal of Clinical & Laboratory Investigation, 1996, 56: 151-160.
[44]颜春芳,马家骢.人参植株不同部位皂苷含量研究[J].现代应用药学,1991,8 (1):47.
[45]孔燕军,洪美凤.紫外分光光度法测定人参及三七中总皂苷的含量[J].中国现代应用药学杂志,2000,17(1):51-52.
[46]张小勇,许学哲,金星华.人参皂苷的高效液相色谱分析[J].延边大学学报,1999,25(2):97-99.
[47]王梅,范亚刚,高文分.梯度洗脱法同时测定三七总皂苷及血塞通注射液中8种皂苷的含量[J].药物分析杂志,2000,20(6):410-412.
[48]沈国芳,吴永江,程翼宇.RP-HPLC测定血栓通注射液中4种皂苷含量[J].中国药学杂志,2003,38(9):698-699.
[49]刘桂艳,刘墨祥,于连贵.西洋参浆果发酵液中人参皂苷含量的分析[J].吉林农业大学学报,2001,23(3):65-68.
[50]许传莲,郑毅男,崔淑玉.RP-HPLC法测定西洋参茎叶中6种人参皂苷的含量[J].吉林农业大学学报,2002,24(3):50-52.
[51]许传莲,郑毅男,崔淑玉.RP-HPLC法测定人参茎叶及人参浸膏中6种人参皂苷的含量[J].吉林农业大学学报,2002,24(5):69-71,74.
[52]黄新生.高效液相色谱法测定人参茎叶浸膏及人参根中的人参皂苷含量[J].中国中药杂志,2001,26(3):173-175.
[53]张天斌,丁长江,李绪文.HPLC法测定红参总皂苷中人参皂苷Rh2的含量[J].吉林大学学报(医学版),2003,219(4):533-534.
[54]将磊,赵寿经,梁彦龙.HPLC法测定酶转化生产人参皂苷Rh2的含量[J].中国科技核心期刊,2004,1:41-44.
[55]郭伟芳,潘书洋,李超生等.高效液相色谱法分离20 (S)和20 (R)-人参皂苷Rg2构型异构体[J].中国卫生工程学,2005,4(6):361-363.
[56]汤明辉,姜志宏,赵中振.HPLC法分离与检测20(S)-人参皂苷Rg3和20(R)-人参皂苷Rg3[J].中草药,2004,35(3):280-282.
[57]翟为民,袁永生,周玉新.人参、西洋参及三七参指纹图谱鉴别[J].中国中药杂志,2001,26(7):481-482.
[58]阮鸣.高效液相色谱法测定人参总皂苷的含量[J].时珍国医国药,2007,18(1): 134-135.
[59]贾晓斌,施亚芳,陈彦.复方人参注射液的HPLC指纹图谱[J].中成药,2002, 24(4):243-245.
[60]ZHU S, ZOU K, CAI S Q. Simultaneous determination of triterpene saponins in ginseng drug by high-performance liquid chromatography[J].Chemical & Pharmaceutical Bulletin,2004, 52(8):995-998.
[61]李发美.分析化学(第五版)[M].北京:人民卫生出版社,1986:435-436.
[62]朱杰,杨蓉,张洪彬. HPLC-ELSD法测定三七中人参皂苷Rb3、Rc、Rb1的含量[J].中草药,2004,35(12):1365-1366.
[63]秦少容,余佳文,岳廷哲.高效液相色谱法-蒸发光散射检测器测定红参及育精胶囊中人参皂苷Rg1和Re的含量[J].中国中药杂志,2001,26(8): 544-566.
[64]石威,王玉堂,权新军等.高效液相色谱-蒸发光散射检测法测定人参根中人参皂苷的含量[J].分析化学,2006,34(2):243-246.
[65]FUZZATI N, GABETTA B, JAYAKAR K,et al.Determination of ginsenosides in panax ginseng roots by liquid chromatography with evaporative light-scattering detection [J]. Jounal of AOAC international, 2000, 83(4): 820-829.
[66]HATTORI M , KAWATA Y , KAKIUCHI N , et al.Application of liquid chromatography/mass spectrometry to the qualitative analysis of saponinsⅡ[J]. Chemical & Pharmaceutical Bulletin,1988,36: 4467-4473.
[67]HATTORI M , KAWATA Y , KAKIUCHI N , et al.Application of liquid chromatography-mass spectrometry in the qualitative analysis of saponins (I)[J]. Shoyakugaku Zasshi, 1988, 42: 228-234.
[68]PARK M K, PAR J H, HWANG G S, et al. Analysis of ginsenosides by thermospray LC/MS[J]. Korean Journal of Ginseng Science, 1995,19: 134-138.
[69]CUI M, SONG F, LIU Z,et al. Rapid identification of saponins in plant extracts by electrospray ionization multi-stage tandem mass spectrometry and liquid chromatography/tandem mass spectrometry[J]. Rapid Communication in Mass Spectrometry, 2000, 14: 1280-1286.
[70]ACKLOO S Z, SMITH R W, TERLOUW J K,et al. Characterization of ginseng saponins using electrospray mass spectrometry and collision-induced dissociation experiments of metal-attachment ions[J]. Analyst,2000,125: 591-597.
[71]CUI M, SONG F, LIU Z, et al. Metal ion adducts in the structural analysis of ginsenosides by electrospray ionization with multi-stage mass spectrometry[J]. Rapid Communication in Mass Spectrometry,2001,15: 586-595.
[72]MIAO X S, METCALFE C D, HAO C,et al.Electrospray ionization mass spectrometry of ginsenosides[J]. Journal of Mass Spectrometry,2002,37: 495-506.
[73]LIU S, CUI M, LIU Z,et al. Structural analysis of saponins from medicinal herbs using electrospray ionization tandem mass spectrometry[J]. Journal of the American Society for Mass Spectrometry,2004,15: 133-141.
[74]郭继芬,钟大放,乔善义.液相质谱-电喷雾质谱联用技术分析人参皂苷[J].质谱学报,2003,24(4):477-480.
[75]FUZZATI N, GABETTA B, JAYAKAR K, et al.Liquid chromatography-electrospray mass spectrometric identification of ginsenosides in Panax ginseng roots [J]. Journal of Chromatography A, 1999, 854: 69-79.
[76]JIQC, HARKEY M R, HENDERSON G L,et al. Quantitative determination of ginsenosides by high-performance liquid chromatography-tandem mass spectrometry[J]. Phytochemical Analysis,2001,12:320-326.
[77]LI W , GU C , ZHANG H , et al. Use of High-Performance Liquid Chromatography-Tandem Mass Spectrometry To Distinguish Panax ginseng C. A. Meyer (Asian Ginseng) and Panax quinquefolius L.(North American Ginseng)[J]. Analytical Chemistry,2000,72: 5417-5422.
[78]KITE G C, HOWES M J, LEON C J,et al. Liquid chromatography/mass spectrometry of malonyl-ginsenosides in the authentication of ginseng[J]. Rapid Communication in Mass Spectrometry,2003,17: 238-244.
[79]陈方,宋海峰.皂苷分析方法研究进展[J].天津中医药,2005,18(6):677-679.
[80]Emara S,Mohamed K M, Masujim A T,et al. Seperation of naturally occurring triterpenoidal saponins by capillary zone electrophoresis[J]. Biomedical Chromatography,2001,15(4): 252-256.
[81]杨伟峰,赵维良.胶束电动毛细管色谱法测定西洋参中人参皂苷Rb1和Re的含量[J].中国中药杂志,2003,28(12):1135-1139.
[82]杨南林,陈翼宇,吴永江.中药材三七中皂苷类成分的近红外光谱快速无损分析新方法[J].化学学报,2003,63(3):393-398.
[83]张春枝,安利佳,金凤燮.人参皂苷生理活性的研究进展[J].食品与发酵工业,2002,28(4):70-73.
[84]吴春福,于庆海,刘雯.根据自由基学说研究人参茎叶皂苷的抗衰老作用[J].沈阳药科大学学报,1992,19(1):39-42.
[85]钟国赣,江岩,王雪清.人参二醇与三醇组皂苷对正常与黄嘌呤-黄嘌呤氧化酶致损的培养心肌细胞动作电位的影响[J].中国药理学报,1991,12(3):256-260.
[86]钟国赣,齐晖,赵春燕.用电子自旋共振法比较观察八种人参单体皂苷对培养心肌细胞自由基含量影响[J].生物化学与生物物理学报,1993,25(6):667-671.
[87]程俊霖,周黎明,朱玲等.人参茎叶总皂苷对衰老小鼠的作用研究[J].四川生理科学杂志,2004,26(3):97-99.
[88]黄宗锈,陈冠敏,林蔚.人参皂苷延缓衰老的实验研究[J].实用预防医学, 2001, 8 (5): 385.
[89]刘文心.人参皂苷Rg1的抗衰老和促智作用及其机制研究[J].生理科学进展,1996,27(2):139-142.
[90]刘文心,张均田.人参皂苷Rb1和Rg1对后代培养大鼠海马神经细胞的保护作用[J].药学学报,1995,30(9):674-678.
[91]李君庆,张均田.年龄变化及人参皂苷-Rg1对大鼠脑皮层细胞膜流动性影响[J].药学学报,1997,32(1):23-27.
[92]潘树义,刘大庸,余磊等.人参皂苷对NGF引导的鼠胚脊髓神经节细胞轴突生长的影响[J].中国神经科学杂志,2000, 16(4):345~348.
[93]潘树义,刘大庸,钟世镇等.9种人参皂苷对培养鼠胚脊髓神经元生长的影响中国[J].神经科学杂志,2000,8(6):332.
[94]刘景臣,尹飞,赵刚.人参皂苷治疗脊髓损伤的实验研究[J].中国老年学杂志, 2000,7 (20): 303-305.
[95]郭岱琦,杨雷,肖建德.人参皂苷对大鼠急性脊髓损伤的影响实验研究[J].中国现代医学杂志,2004,14(12):69-74.
[96]杨国愉,皇甫思,苗丹民等.人参皂苷对动物学习记忆影响的研究进展[J].中国行为医学科学,2000,9 (3): 932.
[97]倪小虎,白洁,吕育齐等.人参根和茎叶皂苷对大鼠学习记忆障碍改善作用研究[J].时珍国医国药,2000,11 (9): 773-774.
[98]赖红,吕永利,包峰等.海马神经元的老龄性改变及人参皂苷对其作用的研究[J].中国医科大学学报,1996,25(3):225-228.
[99]包峰,何维为,吕永利等.大鼠下丘脑神经元突触的老龄性改变及人参皂苷对其影响的研究[J].中国医科大学学报,1995,24(4):338-341.
[100]刘雨.人参皂苷Rg1抗衰老和促智作用及其机制研究[J].生理科学进展,1996,27(2):941-943.
[101]宗瑞义,陈声武.人参茎叶皂苷对大鼠脑内γ-氨基丁酸的影响[J].吉林大学学报(医学版).1987,13(3):215-217
[102]胡刚,宗瑞义,陈声武.人参茎叶皂苷对离体兔脑钠、钾-三磷酸腺苷酶活力的影响[J].吉林大学学报(医学版).1987,13(5):403-407.
[103]胡刚,宗瑞义.人参茎叶皂苷在体外对兔脑Ca2+-ATP酶和Mg2+-ATP酶活力的影响[J].中国药理学通报,1989,5(4):236-239
[104]王爱民,曹颖琳,王玉坤等.中国人参根、茎叶皂苷对大鼠的学习记忆及脑内单胺类递质含量的影响[J] .中国中药杂志,1995,20(8):483-486.
[105]王福庄,丁爱石,刘振伟.人参皂苷抗海马培养细胞缺氧损伤的作用[J].中国药理学报,1995,16(5):419
[106]冯凯侯晓强.人参茎叶皂苷对大鼠实验性坐骨神经损伤保护作用的研究[J].华北煤炭医学院学报, 2001,3(5): 543-544.
[107]候明晓,敖定椿.人参皂苷抗心肌缺血-再灌注损伤的作用机制[J].中国胸心血管外科临床杂志,2000,7(4):256-259.
[108]李敬远,朱珊珊,曾因明.人参皂苷抗离体大鼠心肌缺血再灌注损伤的作用[J].徐州医学院学报,2004,24 (5): 404-406.
[109]李敏,凌昌全,沈志雷等.人参茎叶皂苷对热损伤大鼠糖皮质激素受体的影响[J].第二军医大学学报,2003,24(8):16-17.
[110]李敏,凌昌全,沈志雷等.人参茎叶皂苷提高机体热耐受能力的作用[J].中国公共卫生,2003,19(12):1473-1474.
[111]李敏,凌昌全,黄雪强等.人参茎叶皂苷对热损伤大鼠不同脏器糖皮质激素受体的影响[J].中西医结合学报,2006,4(2):156-159.
[112]李杰,宋淑霞,吕占军.人参皂苷抗肿瘤作用的研究进展[J].中国肿瘤生物治疗杂志,2004,11(1):61-63.
[113]高瑞兰,金锦梅,朱泱平等.人参总皂苷增加白血病细胞对化疗药物的敏感性[J].中国中西医结合杂志,1999,19(1):17-19.
[114]陈方,吴铁,傅玉萍.人参茎叶皂苷对5-Fu抗肿瘤的增强作用[J].中国临床药理学与治疗学.2002,7(4): 299-301.
[115]曾小莉,涂植光.人参总皂苷诱导人肝癌细胞分化初探[J].肿瘤防治研究,2000, 27(3): 188-189.
[116]黄惠华,李志刚.人参二醇组皂苷对小细胞肺癌细胞增殖的影响及其机制[J].中国药业,2005,14(7): 20-22.
[117]JAE Y C,EUN S Y, KYONG U B, et al. In vitro inhibitory effect of protopanaxadiol ginsenosides on tumor necrosis factor (TNF)-αpruduction and modulation by known TNF-αantagonists[J]. Planta Medica, 2001,67(3):213-218.
[118]DAVID G P, DAVID D K. Mechastic studies on protopanaxadiol, Rh2 and ginseng(Panax quinquefolium) exreact induced cytotoxicity in intestinal Caco-2 cells,Jounal of Biochemical and molecular toxicology[J]. 2004, 18(3):143-149.
[119]DONG H. Saponins and sapogenins for use in combination therapy for caner.P.,US 2002-435305,CAN 141:82315.
[120]KWANG S I, HAE Y C, SUL H P,et al. Anticancer effect of the hydrolyzed monogluco of total saponin from gingseng leaf[J]. Koryo Insam Hakhoechi, 1995, 19(3): 291-294.
[121]张有为,窦德强,陈英杰等.人参皂苷对人体骨肉瘤细胞U2OS增殖的影响[J].中草药,2001,32(3):232-236.
[122]王毅,刘铁汉,王巍等.人参皂苷Rg1肠内菌代谢及其代谢产物吸收入血的研究[J].药学学报,2000,35(4):284.
[123]陈声武,王岩,王毅等.人参皂苷Rg1和Rh1抗肿瘤作用的研究[J].吉林大学学报,2003,29(1):25-28.
[124]刘轩,魏育林,李波等.人参皂苷对脂多糖诱导小鼠肺泡巨噬细胞分泌肿瘤坏死因子的作用及机制探讨[J].中日友好医院学报,2001,15(2):83-86.
[125]雷铁池,朱文元,夏明玉.人参皂苷Rg1对体外培养鼠黑素瘤细胞系的化疗增敏作用[J].中华皮肤科杂志,2003,33(5):338-340
[1]YAHARA S,KAJI K, TANAKA O.Futher study on dammarane-type saponins of root, leaves, flowers-buds, and fruits of Panax ginseng C.A. Meyer[J]. Chemical & Pharmaceutical Bulletin. 1979, 27(1) : 88-92.
[2]冯宝树,汪夕彬,王答祺等.秦岭产珠子参叶的达玛烷型皂苷的研究(1)[J].云南植物研究,1987,9(4):477-484.
[3]RYU J H,PARK J H, EUN J H,et al. A dammarane glycoside from Korean red ginseng[J]. Phytochemistry , 1997, 44(5): 931-933.
[4]RYU J H,PARK J H, KIM T H, et al. A genuine dammarane glycoside, (20E)-ginsenoside F4 from Korean Red Ginseng[J].Archives Pharmacal Research. 1996, 19 (4): 335-336.
[5]TAKEMOTO T, ARIHARA S, NAKAJIMA T, et al. Studies on the constituents of fructus momordicae. III. Structure of mogrosides[J]. Yakugaku Zasshi, 1983,103: 1167-1173.
[6]森田俊信.亚洲产人参属植物化学的研究[D].日本:广岛大学大学院医学系,1986.
[7]TAKEMOTO T, ARIHARA S, NAKAJIMA T, et al. Studies on the constituents of Gynostemma pentaphyllum Makino. I. Structure of gypenoside I-XIV[J] .Yakugaku Zasshi, 1983,103: 173-185.
[8]吕永俊,徐绥绪.人参皂苷的化学研究方法[J].沈阳药学学报,1985,2(1):63-82.
[9]窦德强,文晔,裴玉萍等.人参叶中微量成分的研究[J].中国中药杂志,1997,22(1):35-37.
[10]DOU D Q,CHEN Y J,MA Z Z,et al. A novel minor saponin from the leaves of Panax Ginseng C.A.Meyer[J]. Journal of Chinese Pharmaceutical Sciences, 1996,5(1):48-52.
[11]DOU D Q,CHEN Y J,MENG Z Y, et al. Two minor saponins from leaves of Panax ginseng C.A. Meyer[J]. Journal of Chinese Pharmaceutical Sciences, 1996,5(4):195-199.
[12]宋长春,马兴元,徐景达.用西洋参茎叶总苷制取Rh1和Rh2[J].中国药学杂志,1992,27(1):6.
[13]杨秀伟.20(R)和20(S)-人参皂苷-Rg2碳氢NMR信号全指定[J].波谱学杂志,2000,17(1):9-15.
[1]桂明玉,金永日,李绪文等.一种从人参叶中提取分离人参皂苷混合物的方法:中国200610093612.5[P].2006-11-29.
[2]金永日,桂明玉,李绪文等.一种从人参叶中提取分离人参皂苷混合物的方法:中国JP 200610093607.4[P].2006-11-29.
[3]WAN J B,LIN S P,CHEN J M,et al.Chemical characteristics of three medicinal plants of the Panax genus determined by HPLC-ELSD[J]. Journal of Separation Science, 2007,30:825-832.
[4]LI W,FITZLOFF J F.HPLC analysis of ginsenosides in the roots of Asian ginseng(Panax ginseng) and North American ginseng(Panax quinquefolius) with in-line photodiode array and evaporative light scattering detection[J]. Journal of Liquid Chromatography & Related Technologies, 2002, 25: 29-41.
[5]李绪文,金永日,桂明玉等.碱催化降解法制备抗癌活性化合物20(S)-原人参二醇[J].高等学校化学学报,2006,27(3):478-481.
[1]BLAND J S. Oxidants and antioxidants in clinical medicine: past,present and future potential[J].Journal of Nutrition Environ and Medicine,1995,5(3):255-280.
[2]MARK A.Trying to unlock the mysteries of free radicals and antioxidants.The Scientist,1996,(Sept.30):13-16.
[3]RICE-EVANS C A,DIPLOCK,A T.Current status of antioxidant therapy[J].Free Radical Biology and Medicine.1993,15(1):77-96.
[4]LAWEN A,MARTINUS R D,MCMULLEN G L ea tl.The universality of bioenergetic disease: The role of mitochondrial mutation and the putative inter-relationship between mitochondria and plasma membrane NADH oxidoreductase[J].Molecular Aspects in Medicine,1994,15: 813-827.
[5]SLATER T F.Free radicals and tissue injury: Facts and fiction[J].British Journal of Cancer,1987,55(Suppl.VIII):5-10.
[6]KRINSKY N I.Antioxidant functions of carotenoids[J]. Free Radical Biology and Medicine,1989,7(66): 617-635.
[7]MOORE M M, BREEDUELD M W, AUTOR A P. The role of carotenoids in preventing oxidative damage in the pigmented yeast, Rhodotorula mucilaginosa[J]. Archives of Biochemistry and Biophysics,1989,270: 419-431.
[8]林其准.生物膜的结构与功能[M].北京:科学出版社,1992.
[9]LIU Z Q,YU W,LIU Z L.Antioxidative and prooxidative effects of coumarin derivatives on free radical initiated and photosensitized peroxidation of human low-density lipoprotein[J]. Chemistry and Physics of Lipids,1999,103(1):125~135.
[10]ESTERBAUER H,RAMOS P.Chemistry and pathophysiology of oxidation of LDL [J]. Reviews of Physiology, Biochemistry & Pharmacology,1995,127(1): 31-64.
[11]ANASTASIA C, DERICK H, LETTER P. Vitamin E recycling in human erythrocyte membranes[J]. 1993,the Journal of Biological Chemistry,268 (15): 10906~10913.
[12]TANG Y Z,LIU Z Q. The antioxidant effect of hydroxyl-substituent Schiff bases on the free-radical-induced hemolysis of human erythrocytes[J]. Cell Biochem Funct,2007, 25: 149-158.
[13] TANG Y Z,LIU Z Q. Free-radical-scavenging effect of carbazole derivatives on AAPH–induced hemolysis of human erythrocytes[J].Bioorganic & Medicinal Chemistry,2007, 15: 1903-1913.
[2]王铁生.中国人参[M].沈阳:辽宁科学技术出版社.2001,150.
[3]王铁生.中国人参[M].沈阳:辽宁科学技术出版社.2001,128.
[4]杜尔逊,王玉书,刘玉珍.人参地上部分皂苷含量及其提取工艺[J].特产研究.1980,2: 34-36.
[5]YAHARA S,TANAKA O,KOMORI T.Saponins of leaves of Panax ginseng C.A.Meyer[J].Chemical & Pharmaceutical Bulletin,1976,24(9):2204-2208.
[6]YAHARA S,KAJI K, TANAKA O.Further study on dammaran type of root, leaves,flower-buds,and fruits of Panax ginseng C.A.Meyer[J].Chemical & Pharmaceutical Bulletin,1979,27(1):88-92.
[7]蔡培列,徐景达,谷月清.吉林人参叶中人参皂苷的分离与鉴定[J].药学通报,1982,17(8):500.
[8]蔡培列,徐景达,谷月卿.国产人参叶化学成分的研究(一)人参皂苷的分离与鉴定[J].白求恩医科大学学报,1986,12(1):16-19.
[9]蔡培列,徐景达,谷月卿.国产人参叶化学成分的研究(二)人参皂苷的分离与鉴定[J].白求恩医科大学学报,1987,13(2):110-113.
[10]徐绥绪,王乃利,申梅,吕小开.人参茎叶中皂苷类化学成分的研究[J].植物学报,1986,28(1):95-101.
[11]陈英杰,徐绥绪,马启凤等.人参叶微量新成分的研究[J].药学学报,1987,22(9):685-689.
[12]陈英杰,林景南,谢桦等.抗肿瘤活性成分人参皂苷Rh2的分离与鉴定[J].中药通报,1988,13(1):40-41.
[13]何桂霞,张绍林,崔承彬等.人参叶微量新成分的研究[J].沈阳药学院学报,1989,6(1):68.
[14]ZHANG S L,YAO X S,CHEN Y J,et al.Ginsenoside La,a novalsaponin from the leaves of Panax ginseng[J]. Chemical & Pharmaceutical Bulletin,1989,37(7): 1966-1968.
[15]陈英杰,张绍林,王喆星等.人参叶中微量新皂苷-La的分离与鉴定.药学学报,1990,25(5):379-381.
[16]张绍林,陈英杰,崔承彬等.人参叶中的微量新皂苷.药学学报,1989,24(11):877-879.
[17]赵余庆,袁昌鲁,傅玉琴等.人参茎叶中微量三萜化合物的化学研究.药学学报,1990,25(4):297-301.
[18]ZHANG S L, TAKEDA T,ZHU T R,et al. A New Minor Saponin from the Leaves of Panax ginseng. Planta Medica,1990,56: 298-300.
[19]窦德强,陈英杰,马忠泽等.人参叶化学成分的研究[J].中国药物化学杂志,1996,6(1):54-55.
[20]窦德强,文晔,裴玉萍等.人参叶中微量成分的研究[J].中国中药杂志,1997,22(1): 35-37.
[21]窦德强,陈英杰,竹田忠.自人参叶中得到的一对差向异构体的分离与鉴定[J].中国药物化学杂志,1997,7(3):202-204.
[22]DOU D Q,CHEN Y J,LIANG L H,et al. Six New Dammarane-type Triterpene Saponins from the Leaves of Pananx ginseng[J]. Chemical & Pharmaceutical Bulletin,2001,49(4): 442-446.
[23]DOU D Q,CHEN Y J, REN J,et al.Ocotiione-type Ginsenoside from leaves of Pananx ginseng[J].Journal of Chinese Pharmaceutical Sciences,2002,11(4): 119-121.
[24] WANG L B,GAO H Y,WU B,et al.Structure Determination of A Novel Natural ProductIsolated from the Leaves of Panax Ginseng C.A. Meyer[J]. Chinese Journal of Magnetic Resonance,2006,23(6): 321-326.
[25]TANG X H,SUN X X,HUANG J,et al. A noval natural dammarane–type triterpene saponin from the leaves of Panax ginseng[J].Asian Journal of Traditional Medicines,2007, 2(3): 124-126.
[26]WU L J,WANG L B,GAO H Y,et al. A new compound from the leaves of Pananx ginseng[J]. Fitoterapia,2007,78: 556-560.
[27]唐晓慧.人参叶的化学成分研究[D].沈阳:沈阳药科大学,2008.
[28]王志学,张永煜,刘明生等.人参茎叶中黄酮类成分的研究[J].沈阳药学院学报,l985,29(4):284-287.
[29]李静,卫永第.野山参叶挥发油化学成分的研究[J].中草药,1997,27(4): 205-206.
[30]ZHANG H X, SUN Y X, MAO K Y, et al. Determination of the Constityents of GisengSesquiterpenes [J].Chinese Science Bulletin,1990,35(18): 1526-1528.
[31]王慧,刘在群,王建辉等.人参茎叶挥发油中倍半萜烯化合物的分离与鉴定[J].吉林大学自然科学学报,2001,1(1): 88-90.
[32]刘在群,王慧,林英杰等.人参茎叶挥发油中含氧化合物的分离与结构鉴定[J].应用化学, 2002,19(2):196-198.
[33]SEOG H M,JUNG C H,CHIOC I W, et al. Indentification of phenolic compounds and quantification of their antioxidant activities in roasted wild ginseng (Panax ginseng C.A.Meyer) leaves[J]. Food Science and Biotechnology,2007,16(3): 349-354.
[34]台挂花.生物化学与生物物理学报.1988,2:119.
[35]CUI J F. Detection and quantification of ginsenosides in various commercial ginseng preparations[J]. European Journal of Pharmaceutical Sciences,1995,3: 77-85.
[36]FUZZATI N. Analysis methods of ginsenosides[J]. Journal Chromatography B,2004,812: 119-133.
[37]REN G X,CHEN F. Simultaneous Quantification of Ginsenosides in American Ginseng (Panax quinquefolium) Root Powder by Visible/Near-Infrared Reflectance Spectroscopy[J]. Journal of Agricultural and Food Chemistry,1999,47: 2771-2775.
[38]桂双英,周亚球.比色法测定人参中人参总皂苷的含量[J].安徽中医学院学报,2003,22(4):51-52.
[39]陈方,宋海峰.皂苷分析方法研究进展[J].天津中医院学报,2005,22(3):257-259.
[40]张苏中,杨艳,罗晋萍.薄层扫描法测定龟龄集中人参皂苷Rg1的含量[J].药物分析杂志,1999,19(1):13.
[41]李小进,王宝平,滕训辉.抗疲劳胶囊总皂苷含量测定方法[J].时针国医国药,2003,14(3):138-139.
[42]CUI J F.Identification and quantification of ginsenosides in various commercial ginseng preparations[J]. European Journal of Pharmaceutical Sciences 1995, 3(2): 77-85.
[43]CUI J F, GARLE M, BJOERKHEM E P. Determination of aglycons of ginsenosides in ginseng preparations sold in Sweden and in urine samples from Swedish athletes consuming ginseng[J]. Scandinavian Journal of Clinical & Laboratory Investigation, 1996, 56: 151-160.
[44]颜春芳,马家骢.人参植株不同部位皂苷含量研究[J].现代应用药学,1991,8 (1):47.
[45]孔燕军,洪美凤.紫外分光光度法测定人参及三七中总皂苷的含量[J].中国现代应用药学杂志,2000,17(1):51-52.
[46]张小勇,许学哲,金星华.人参皂苷的高效液相色谱分析[J].延边大学学报,1999,25(2):97-99.
[47]王梅,范亚刚,高文分.梯度洗脱法同时测定三七总皂苷及血塞通注射液中8种皂苷的含量[J].药物分析杂志,2000,20(6):410-412.
[48]沈国芳,吴永江,程翼宇.RP-HPLC测定血栓通注射液中4种皂苷含量[J].中国药学杂志,2003,38(9):698-699.
[49]刘桂艳,刘墨祥,于连贵.西洋参浆果发酵液中人参皂苷含量的分析[J].吉林农业大学学报,2001,23(3):65-68.
[50]许传莲,郑毅男,崔淑玉.RP-HPLC法测定西洋参茎叶中6种人参皂苷的含量[J].吉林农业大学学报,2002,24(3):50-52.
[51]许传莲,郑毅男,崔淑玉.RP-HPLC法测定人参茎叶及人参浸膏中6种人参皂苷的含量[J].吉林农业大学学报,2002,24(5):69-71,74.
[52]黄新生.高效液相色谱法测定人参茎叶浸膏及人参根中的人参皂苷含量[J].中国中药杂志,2001,26(3):173-175.
[53]张天斌,丁长江,李绪文.HPLC法测定红参总皂苷中人参皂苷Rh2的含量[J].吉林大学学报(医学版),2003,219(4):533-534.
[54]将磊,赵寿经,梁彦龙.HPLC法测定酶转化生产人参皂苷Rh2的含量[J].中国科技核心期刊,2004,1:41-44.
[55]郭伟芳,潘书洋,李超生等.高效液相色谱法分离20 (S)和20 (R)-人参皂苷Rg2构型异构体[J].中国卫生工程学,2005,4(6):361-363.
[56]汤明辉,姜志宏,赵中振.HPLC法分离与检测20(S)-人参皂苷Rg3和20(R)-人参皂苷Rg3[J].中草药,2004,35(3):280-282.
[57]翟为民,袁永生,周玉新.人参、西洋参及三七参指纹图谱鉴别[J].中国中药杂志,2001,26(7):481-482.
[58]阮鸣.高效液相色谱法测定人参总皂苷的含量[J].时珍国医国药,2007,18(1): 134-135.
[59]贾晓斌,施亚芳,陈彦.复方人参注射液的HPLC指纹图谱[J].中成药,2002, 24(4):243-245.
[60]ZHU S, ZOU K, CAI S Q. Simultaneous determination of triterpene saponins in ginseng drug by high-performance liquid chromatography[J].Chemical & Pharmaceutical Bulletin,2004, 52(8):995-998.
[61]李发美.分析化学(第五版)[M].北京:人民卫生出版社,1986:435-436.
[62]朱杰,杨蓉,张洪彬. HPLC-ELSD法测定三七中人参皂苷Rb3、Rc、Rb1的含量[J].中草药,2004,35(12):1365-1366.
[63]秦少容,余佳文,岳廷哲.高效液相色谱法-蒸发光散射检测器测定红参及育精胶囊中人参皂苷Rg1和Re的含量[J].中国中药杂志,2001,26(8): 544-566.
[64]石威,王玉堂,权新军等.高效液相色谱-蒸发光散射检测法测定人参根中人参皂苷的含量[J].分析化学,2006,34(2):243-246.
[65]FUZZATI N, GABETTA B, JAYAKAR K,et al.Determination of ginsenosides in panax ginseng roots by liquid chromatography with evaporative light-scattering detection [J]. Jounal of AOAC international, 2000, 83(4): 820-829.
[66]HATTORI M , KAWATA Y , KAKIUCHI N , et al.Application of liquid chromatography/mass spectrometry to the qualitative analysis of saponinsⅡ[J]. Chemical & Pharmaceutical Bulletin,1988,36: 4467-4473.
[67]HATTORI M , KAWATA Y , KAKIUCHI N , et al.Application of liquid chromatography-mass spectrometry in the qualitative analysis of saponins (I)[J]. Shoyakugaku Zasshi, 1988, 42: 228-234.
[68]PARK M K, PAR J H, HWANG G S, et al. Analysis of ginsenosides by thermospray LC/MS[J]. Korean Journal of Ginseng Science, 1995,19: 134-138.
[69]CUI M, SONG F, LIU Z,et al. Rapid identification of saponins in plant extracts by electrospray ionization multi-stage tandem mass spectrometry and liquid chromatography/tandem mass spectrometry[J]. Rapid Communication in Mass Spectrometry, 2000, 14: 1280-1286.
[70]ACKLOO S Z, SMITH R W, TERLOUW J K,et al. Characterization of ginseng saponins using electrospray mass spectrometry and collision-induced dissociation experiments of metal-attachment ions[J]. Analyst,2000,125: 591-597.
[71]CUI M, SONG F, LIU Z, et al. Metal ion adducts in the structural analysis of ginsenosides by electrospray ionization with multi-stage mass spectrometry[J]. Rapid Communication in Mass Spectrometry,2001,15: 586-595.
[72]MIAO X S, METCALFE C D, HAO C,et al.Electrospray ionization mass spectrometry of ginsenosides[J]. Journal of Mass Spectrometry,2002,37: 495-506.
[73]LIU S, CUI M, LIU Z,et al. Structural analysis of saponins from medicinal herbs using electrospray ionization tandem mass spectrometry[J]. Journal of the American Society for Mass Spectrometry,2004,15: 133-141.
[74]郭继芬,钟大放,乔善义.液相质谱-电喷雾质谱联用技术分析人参皂苷[J].质谱学报,2003,24(4):477-480.
[75]FUZZATI N, GABETTA B, JAYAKAR K, et al.Liquid chromatography-electrospray mass spectrometric identification of ginsenosides in Panax ginseng roots [J]. Journal of Chromatography A, 1999, 854: 69-79.
[76]JIQC, HARKEY M R, HENDERSON G L,et al. Quantitative determination of ginsenosides by high-performance liquid chromatography-tandem mass spectrometry[J]. Phytochemical Analysis,2001,12:320-326.
[77]LI W , GU C , ZHANG H , et al. Use of High-Performance Liquid Chromatography-Tandem Mass Spectrometry To Distinguish Panax ginseng C. A. Meyer (Asian Ginseng) and Panax quinquefolius L.(North American Ginseng)[J]. Analytical Chemistry,2000,72: 5417-5422.
[78]KITE G C, HOWES M J, LEON C J,et al. Liquid chromatography/mass spectrometry of malonyl-ginsenosides in the authentication of ginseng[J]. Rapid Communication in Mass Spectrometry,2003,17: 238-244.
[79]陈方,宋海峰.皂苷分析方法研究进展[J].天津中医药,2005,18(6):677-679.
[80]Emara S,Mohamed K M, Masujim A T,et al. Seperation of naturally occurring triterpenoidal saponins by capillary zone electrophoresis[J]. Biomedical Chromatography,2001,15(4): 252-256.
[81]杨伟峰,赵维良.胶束电动毛细管色谱法测定西洋参中人参皂苷Rb1和Re的含量[J].中国中药杂志,2003,28(12):1135-1139.
[82]杨南林,陈翼宇,吴永江.中药材三七中皂苷类成分的近红外光谱快速无损分析新方法[J].化学学报,2003,63(3):393-398.
[83]张春枝,安利佳,金凤燮.人参皂苷生理活性的研究进展[J].食品与发酵工业,2002,28(4):70-73.
[84]吴春福,于庆海,刘雯.根据自由基学说研究人参茎叶皂苷的抗衰老作用[J].沈阳药科大学学报,1992,19(1):39-42.
[85]钟国赣,江岩,王雪清.人参二醇与三醇组皂苷对正常与黄嘌呤-黄嘌呤氧化酶致损的培养心肌细胞动作电位的影响[J].中国药理学报,1991,12(3):256-260.
[86]钟国赣,齐晖,赵春燕.用电子自旋共振法比较观察八种人参单体皂苷对培养心肌细胞自由基含量影响[J].生物化学与生物物理学报,1993,25(6):667-671.
[87]程俊霖,周黎明,朱玲等.人参茎叶总皂苷对衰老小鼠的作用研究[J].四川生理科学杂志,2004,26(3):97-99.
[88]黄宗锈,陈冠敏,林蔚.人参皂苷延缓衰老的实验研究[J].实用预防医学, 2001, 8 (5): 385.
[89]刘文心.人参皂苷Rg1的抗衰老和促智作用及其机制研究[J].生理科学进展,1996,27(2):139-142.
[90]刘文心,张均田.人参皂苷Rb1和Rg1对后代培养大鼠海马神经细胞的保护作用[J].药学学报,1995,30(9):674-678.
[91]李君庆,张均田.年龄变化及人参皂苷-Rg1对大鼠脑皮层细胞膜流动性影响[J].药学学报,1997,32(1):23-27.
[92]潘树义,刘大庸,余磊等.人参皂苷对NGF引导的鼠胚脊髓神经节细胞轴突生长的影响[J].中国神经科学杂志,2000, 16(4):345~348.
[93]潘树义,刘大庸,钟世镇等.9种人参皂苷对培养鼠胚脊髓神经元生长的影响中国[J].神经科学杂志,2000,8(6):332.
[94]刘景臣,尹飞,赵刚.人参皂苷治疗脊髓损伤的实验研究[J].中国老年学杂志, 2000,7 (20): 303-305.
[95]郭岱琦,杨雷,肖建德.人参皂苷对大鼠急性脊髓损伤的影响实验研究[J].中国现代医学杂志,2004,14(12):69-74.
[96]杨国愉,皇甫思,苗丹民等.人参皂苷对动物学习记忆影响的研究进展[J].中国行为医学科学,2000,9 (3): 932.
[97]倪小虎,白洁,吕育齐等.人参根和茎叶皂苷对大鼠学习记忆障碍改善作用研究[J].时珍国医国药,2000,11 (9): 773-774.
[98]赖红,吕永利,包峰等.海马神经元的老龄性改变及人参皂苷对其作用的研究[J].中国医科大学学报,1996,25(3):225-228.
[99]包峰,何维为,吕永利等.大鼠下丘脑神经元突触的老龄性改变及人参皂苷对其影响的研究[J].中国医科大学学报,1995,24(4):338-341.
[100]刘雨.人参皂苷Rg1抗衰老和促智作用及其机制研究[J].生理科学进展,1996,27(2):941-943.
[101]宗瑞义,陈声武.人参茎叶皂苷对大鼠脑内γ-氨基丁酸的影响[J].吉林大学学报(医学版).1987,13(3):215-217
[102]胡刚,宗瑞义,陈声武.人参茎叶皂苷对离体兔脑钠、钾-三磷酸腺苷酶活力的影响[J].吉林大学学报(医学版).1987,13(5):403-407.
[103]胡刚,宗瑞义.人参茎叶皂苷在体外对兔脑Ca2+-ATP酶和Mg2+-ATP酶活力的影响[J].中国药理学通报,1989,5(4):236-239
[104]王爱民,曹颖琳,王玉坤等.中国人参根、茎叶皂苷对大鼠的学习记忆及脑内单胺类递质含量的影响[J] .中国中药杂志,1995,20(8):483-486.
[105]王福庄,丁爱石,刘振伟.人参皂苷抗海马培养细胞缺氧损伤的作用[J].中国药理学报,1995,16(5):419
[106]冯凯侯晓强.人参茎叶皂苷对大鼠实验性坐骨神经损伤保护作用的研究[J].华北煤炭医学院学报, 2001,3(5): 543-544.
[107]候明晓,敖定椿.人参皂苷抗心肌缺血-再灌注损伤的作用机制[J].中国胸心血管外科临床杂志,2000,7(4):256-259.
[108]李敬远,朱珊珊,曾因明.人参皂苷抗离体大鼠心肌缺血再灌注损伤的作用[J].徐州医学院学报,2004,24 (5): 404-406.
[109]李敏,凌昌全,沈志雷等.人参茎叶皂苷对热损伤大鼠糖皮质激素受体的影响[J].第二军医大学学报,2003,24(8):16-17.
[110]李敏,凌昌全,沈志雷等.人参茎叶皂苷提高机体热耐受能力的作用[J].中国公共卫生,2003,19(12):1473-1474.
[111]李敏,凌昌全,黄雪强等.人参茎叶皂苷对热损伤大鼠不同脏器糖皮质激素受体的影响[J].中西医结合学报,2006,4(2):156-159.
[112]李杰,宋淑霞,吕占军.人参皂苷抗肿瘤作用的研究进展[J].中国肿瘤生物治疗杂志,2004,11(1):61-63.
[113]高瑞兰,金锦梅,朱泱平等.人参总皂苷增加白血病细胞对化疗药物的敏感性[J].中国中西医结合杂志,1999,19(1):17-19.
[114]陈方,吴铁,傅玉萍.人参茎叶皂苷对5-Fu抗肿瘤的增强作用[J].中国临床药理学与治疗学.2002,7(4): 299-301.
[115]曾小莉,涂植光.人参总皂苷诱导人肝癌细胞分化初探[J].肿瘤防治研究,2000, 27(3): 188-189.
[116]黄惠华,李志刚.人参二醇组皂苷对小细胞肺癌细胞增殖的影响及其机制[J].中国药业,2005,14(7): 20-22.
[117]JAE Y C,EUN S Y, KYONG U B, et al. In vitro inhibitory effect of protopanaxadiol ginsenosides on tumor necrosis factor (TNF)-αpruduction and modulation by known TNF-αantagonists[J]. Planta Medica, 2001,67(3):213-218.
[118]DAVID G P, DAVID D K. Mechastic studies on protopanaxadiol, Rh2 and ginseng(Panax quinquefolium) exreact induced cytotoxicity in intestinal Caco-2 cells,Jounal of Biochemical and molecular toxicology[J]. 2004, 18(3):143-149.
[119]DONG H. Saponins and sapogenins for use in combination therapy for caner.P.,US 2002-435305,CAN 141:82315.
[120]KWANG S I, HAE Y C, SUL H P,et al. Anticancer effect of the hydrolyzed monogluco of total saponin from gingseng leaf[J]. Koryo Insam Hakhoechi, 1995, 19(3): 291-294.
[121]张有为,窦德强,陈英杰等.人参皂苷对人体骨肉瘤细胞U2OS增殖的影响[J].中草药,2001,32(3):232-236.
[122]王毅,刘铁汉,王巍等.人参皂苷Rg1肠内菌代谢及其代谢产物吸收入血的研究[J].药学学报,2000,35(4):284.
[123]陈声武,王岩,王毅等.人参皂苷Rg1和Rh1抗肿瘤作用的研究[J].吉林大学学报,2003,29(1):25-28.
[124]刘轩,魏育林,李波等.人参皂苷对脂多糖诱导小鼠肺泡巨噬细胞分泌肿瘤坏死因子的作用及机制探讨[J].中日友好医院学报,2001,15(2):83-86.
[125]雷铁池,朱文元,夏明玉.人参皂苷Rg1对体外培养鼠黑素瘤细胞系的化疗增敏作用[J].中华皮肤科杂志,2003,33(5):338-340
[1]YAHARA S,KAJI K, TANAKA O.Futher study on dammarane-type saponins of root, leaves, flowers-buds, and fruits of Panax ginseng C.A. Meyer[J]. Chemical & Pharmaceutical Bulletin. 1979, 27(1) : 88-92.
[2]冯宝树,汪夕彬,王答祺等.秦岭产珠子参叶的达玛烷型皂苷的研究(1)[J].云南植物研究,1987,9(4):477-484.
[3]RYU J H,PARK J H, EUN J H,et al. A dammarane glycoside from Korean red ginseng[J]. Phytochemistry , 1997, 44(5): 931-933.
[4]RYU J H,PARK J H, KIM T H, et al. A genuine dammarane glycoside, (20E)-ginsenoside F4 from Korean Red Ginseng[J].Archives Pharmacal Research. 1996, 19 (4): 335-336.
[5]TAKEMOTO T, ARIHARA S, NAKAJIMA T, et al. Studies on the constituents of fructus momordicae. III. Structure of mogrosides[J]. Yakugaku Zasshi, 1983,103: 1167-1173.
[6]森田俊信.亚洲产人参属植物化学的研究[D].日本:广岛大学大学院医学系,1986.
[7]TAKEMOTO T, ARIHARA S, NAKAJIMA T, et al. Studies on the constituents of Gynostemma pentaphyllum Makino. I. Structure of gypenoside I-XIV[J] .Yakugaku Zasshi, 1983,103: 173-185.
[8]吕永俊,徐绥绪.人参皂苷的化学研究方法[J].沈阳药学学报,1985,2(1):63-82.
[9]窦德强,文晔,裴玉萍等.人参叶中微量成分的研究[J].中国中药杂志,1997,22(1):35-37.
[10]DOU D Q,CHEN Y J,MA Z Z,et al. A novel minor saponin from the leaves of Panax Ginseng C.A.Meyer[J]. Journal of Chinese Pharmaceutical Sciences, 1996,5(1):48-52.
[11]DOU D Q,CHEN Y J,MENG Z Y, et al. Two minor saponins from leaves of Panax ginseng C.A. Meyer[J]. Journal of Chinese Pharmaceutical Sciences, 1996,5(4):195-199.
[12]宋长春,马兴元,徐景达.用西洋参茎叶总苷制取Rh1和Rh2[J].中国药学杂志,1992,27(1):6.
[13]杨秀伟.20(R)和20(S)-人参皂苷-Rg2碳氢NMR信号全指定[J].波谱学杂志,2000,17(1):9-15.
[1]桂明玉,金永日,李绪文等.一种从人参叶中提取分离人参皂苷混合物的方法:中国200610093612.5[P].2006-11-29.
[2]金永日,桂明玉,李绪文等.一种从人参叶中提取分离人参皂苷混合物的方法:中国JP 200610093607.4[P].2006-11-29.
[3]WAN J B,LIN S P,CHEN J M,et al.Chemical characteristics of three medicinal plants of the Panax genus determined by HPLC-ELSD[J]. Journal of Separation Science, 2007,30:825-832.
[4]LI W,FITZLOFF J F.HPLC analysis of ginsenosides in the roots of Asian ginseng(Panax ginseng) and North American ginseng(Panax quinquefolius) with in-line photodiode array and evaporative light scattering detection[J]. Journal of Liquid Chromatography & Related Technologies, 2002, 25: 29-41.
[5]李绪文,金永日,桂明玉等.碱催化降解法制备抗癌活性化合物20(S)-原人参二醇[J].高等学校化学学报,2006,27(3):478-481.
[1]BLAND J S. Oxidants and antioxidants in clinical medicine: past,present and future potential[J].Journal of Nutrition Environ and Medicine,1995,5(3):255-280.
[2]MARK A.Trying to unlock the mysteries of free radicals and antioxidants.The Scientist,1996,(Sept.30):13-16.
[3]RICE-EVANS C A,DIPLOCK,A T.Current status of antioxidant therapy[J].Free Radical Biology and Medicine.1993,15(1):77-96.
[4]LAWEN A,MARTINUS R D,MCMULLEN G L ea tl.The universality of bioenergetic disease: The role of mitochondrial mutation and the putative inter-relationship between mitochondria and plasma membrane NADH oxidoreductase[J].Molecular Aspects in Medicine,1994,15: 813-827.
[5]SLATER T F.Free radicals and tissue injury: Facts and fiction[J].British Journal of Cancer,1987,55(Suppl.VIII):5-10.
[6]KRINSKY N I.Antioxidant functions of carotenoids[J]. Free Radical Biology and Medicine,1989,7(66): 617-635.
[7]MOORE M M, BREEDUELD M W, AUTOR A P. The role of carotenoids in preventing oxidative damage in the pigmented yeast, Rhodotorula mucilaginosa[J]. Archives of Biochemistry and Biophysics,1989,270: 419-431.
[8]林其准.生物膜的结构与功能[M].北京:科学出版社,1992.
[9]LIU Z Q,YU W,LIU Z L.Antioxidative and prooxidative effects of coumarin derivatives on free radical initiated and photosensitized peroxidation of human low-density lipoprotein[J]. Chemistry and Physics of Lipids,1999,103(1):125~135.
[10]ESTERBAUER H,RAMOS P.Chemistry and pathophysiology of oxidation of LDL [J]. Reviews of Physiology, Biochemistry & Pharmacology,1995,127(1): 31-64.
[11]ANASTASIA C, DERICK H, LETTER P. Vitamin E recycling in human erythrocyte membranes[J]. 1993,the Journal of Biological Chemistry,268 (15): 10906~10913.
[12]TANG Y Z,LIU Z Q. The antioxidant effect of hydroxyl-substituent Schiff bases on the free-radical-induced hemolysis of human erythrocytes[J]. Cell Biochem Funct,2007, 25: 149-158.
[13] TANG Y Z,LIU Z Q. Free-radical-scavenging effect of carbazole derivatives on AAPH–induced hemolysis of human erythrocytes[J].Bioorganic & Medicinal Chemistry,2007, 15: 1903-1913.
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