肉苁蓉茎水溶性多糖的结构研究
|
摘要
从野生肉苁蓉的茎中分离水溶性多糖,粗多糖经Sevage法脱蛋白、反复冻融、高速离心、超滤分级等方法,得级分SPA,经高压液相色谱等方法证明SPA为均一组分,气相色谱分析,SPA的单糖组成为Ara、Rha、Man、Gal、Glc.摩尔比依次为1.83:1.00:3.06:4.56:14.74以上结果表明多糖SPA是以葡萄糖和半乳糖为主兼有阿拉伯糖鼠李糖和甘露糖的中性杂多糖.其分子量为0.76×104
对SPA的结构研究采取了13C-NMR分析,部分酸水解,高碘酸氧化,Simth降解,I.R.分析,G.C.分析,甲基化分析等方法,甲基化产物经水解、还原、乙酰化后用G.C.--M.S.进行测定。
结果分析表明:SPA为少分枝结构;其主体结构由Glc组成,其中(1
—6)Glc构成主链的核心结构,(1—6)Glc在0—3处有分枝;平均每七
个己糖残基有一个分枝残基;A,B为侧链结构,其构成分别为-
末端残基为1--Ara;其重
复结构单位可能为:
支链的结构为
A water soluble polysaccharide has been isolated from the stem of the wild Cistanche salsa G.Beck. The crude polysaccharide was deproteinized by Sevage method, freezed-melted repeatedly, and fractionated by hydrogen peroxide solution and ultrafiltration, giving a polysaccharide fractions termed SPA. Its homogeneity was proved by HPLC etc. GC show it consists of Rha, Ara, Man, Gal and Glc with the molarity rate of 1:1.83:3.06:4.56:14.75 in turn. These indicated that SPA was a kind of neutral heteropolysaccharide, as well as it consisted mainly of glucose and some galactose, Ala, Rha and Man. Average molecular weight of SPA was around 0.76×104.In the structure analysis of SPA,13C-NMR, partial hydrolysis with acid, periodate oxidation, Smith degradation, I.R. ,G.C. and methylation etc. were the principal methods used. After acetylation, the methylated productions were analyzed by G.C.-M.S.The results revealed that SPA was a kind of low branched structure. The main chain was composed of (1 -- 6)-linked-Glc, and (1--6)-linked-Glc residues were substituted at O-3. On average, there are 1 branche among 7 main chain residues; A and Bwere side chains, they are composed of (1 --4)-linked-Gal, (1 — 4)linked-Man, (1 — 3)-linked-Gal and (1 — 2)-linked-Rha residues. So itd possible repeated unit was:
The side chains were:
对SPA的结构研究采取了13C-NMR分析,部分酸水解,高碘酸氧化,Simth降解,I.R.分析,G.C.分析,甲基化分析等方法,甲基化产物经水解、还原、乙酰化后用G.C.--M.S.进行测定。
结果分析表明:SPA为少分枝结构;其主体结构由Glc组成,其中(1
—6)Glc构成主链的核心结构,(1—6)Glc在0—3处有分枝;平均每七
个己糖残基有一个分枝残基;A,B为侧链结构,其构成分别为-
末端残基为1--Ara;其重
复结构单位可能为:
支链的结构为
A water soluble polysaccharide has been isolated from the stem of the wild Cistanche salsa G.Beck. The crude polysaccharide was deproteinized by Sevage method, freezed-melted repeatedly, and fractionated by hydrogen peroxide solution and ultrafiltration, giving a polysaccharide fractions termed SPA. Its homogeneity was proved by HPLC etc. GC show it consists of Rha, Ara, Man, Gal and Glc with the molarity rate of 1:1.83:3.06:4.56:14.75 in turn. These indicated that SPA was a kind of neutral heteropolysaccharide, as well as it consisted mainly of glucose and some galactose, Ala, Rha and Man. Average molecular weight of SPA was around 0.76×104.In the structure analysis of SPA,13C-NMR, partial hydrolysis with acid, periodate oxidation, Smith degradation, I.R. ,G.C. and methylation etc. were the principal methods used. After acetylation, the methylated productions were analyzed by G.C.-M.S.The results revealed that SPA was a kind of low branched structure. The main chain was composed of (1 -- 6)-linked-Glc, and (1--6)-linked-Glc residues were substituted at O-3. On average, there are 1 branche among 7 main chain residues; A and Bwere side chains, they are composed of (1 --4)-linked-Gal, (1 — 4)linked-Man, (1 — 3)-linked-Gal and (1 — 2)-linked-Rha residues. So itd possible repeated unit was:
The side chains were:
引文
[1]王长云,管华诗.多糖抗病毒作用研究进展. .多糖抗病毒作用.[J].生物工程进展,2000,20(1):17
[2] Watson K, Gooderham N J, Davies D S, et al. Interaction of the transactivating protein HIV-1 Tat with sulphated polysaccharide. [J]. Biochem Pharmaco, 1999,57:775
[3] Kiho T, Ookubo K, U sui S, et al. Structrual features and hypoglycem ic activity of a polysaccharide (CS-F10) from the cultured mycelium of Cordyceps sinensis.[J]. Bio l Pharm Bull, 1999, 22(9):966
[4] Varki, A. Glycobiology, 1993,3(2);97-130
[5] Varki, A. et al. Essential of glycobiology, Cold Spring Harbor Laboratory Press,1999
[6]向道斌,李晓玉. 多糖的免疫调节作用. 国外医药——合成药、生化药制剂分册, 1991, 12(5):261~268
[7]盛剑秋,杨淑英. 香菇多糖的免疫调节作用研究进展.胃肠病学和肝病学杂志, 1998, 7(1):92~96
[8]魏平,郭桂芹,王以庆. 多糖类中药免疫药理研究进展.长春中医学院学报, 1997, 13(64):66~67
[9]陆琮明,孙桂菊,张小强等. 香菇和黄芪混合多糖抑制S-180肉瘤生长和增强免疫作用的研究.JPreMedInf, 1998, 14(4):210~213
[10]曹广文. 生药活性多糖对淋巴细胞/细胞素的调节与抗肿瘤作用. 免疫学杂志, 1992,8(4):273~275
[11]王玉明,王玉芬,王浴生. 肿瘤防治中的多糖研究. 国外医药抗生素分册, 1993, 14(2):127~130
[12]程培元. 抗肿瘤多糖研究的某些进展,江苏医药, 1980,12:25~27
张惟杰,糖复合物生化研究技术,杭州;浙江大学出版社,1999
[13]李泽浩. 甲壳质的利用前景,生物学通报, 1995, 09
[14]沈萍萍等. 真菌多糖研究进展,南京大学学报 , 1991 ,27(3):528
[15]胡继飞. 甲壳质及其衍生物的开发与利用 生物技术, 1994 04
[16]李家增,包承鑫,陈关珍等. 刺参酸性粘多糖抗凝血酶活性及诱导血小板聚集的作用. 中国药理学报, 1985,6(2):10
[17]邵传森等.浙江中医学院学报 1991;(6):29
[18]Usui, T., Asari K.and Mizuno. T. Isolation of highly purified “fucoidan” from Eisebnia biocyclis and its anticoagulant and antithrombin activities Agric. Biol. Chem. 1980;44: 1965-1966
[19]Mori. II., Kamei, h., Nishide. E. and Nishizawa. K. Sugar constituents of some sulfated polysaccharides from the sporophyus of wakame (Undaria pinatifida) and their biological activities Mar. Algae. Pharm. Sci.1982;2: 109-121
[20]Nishino. T., Yokoyam. G., Dobashi. K., Fujihara M, and Nagumo. T. Isolation, purification and characterization of fucose containing sulfated polysaccharides from the brown/ seaweed Ecklonia Kurome and their blood-anticoagulant activities Carbohydr. Res. 1989;186:119-129
[21]方积年. 硫酸酯化多糖的研究进展,中国药学杂志,1993, (28)7:393(395
[22]汪东风. 茶多糖的组分及理化性质,茶叶科学, 1996,16(1 ):1~8
[23]熊学敏,叶士玲,许春波等. 南瓜多糖对四氧嘧啶糖尿病大鼠的降糖作用, 江西中医学院学报, 1998; 10(4):174~175
[24]姜委莲. 银耳多糖对四氧嘧啶糖尿病小鼠的降血糖作用, 长白山中医药研究与开发, 1995,4(2):48
[25]许建明,丁长海,李连德等. 冬虫夏草多糖保护小鼠免疫性肝损伤的筛选研究, 安徽医科大学学报, 1995, 34(3):173~175
[26]马雄,邱德凯,徐军等. 冬虫夏草多糖治疗慢性丙型肝炎患者的临床研究.华人消化杂志, 1998,6(7):582~584
[27]邱德凯,曾民德,沈敏等. 冬虫夏草多糖治疗慢性乙型肝炎的研究.中华消化杂志, 1991, 11(2):69~72
[28]张丽萍等. 刺五加果水溶性多糖的研究, AS2的分离纯化与结构探讨,生物化学杂志 , 1993, 9(1):1
[29]阎家麒等. 中华猕猴桃多糖的提取及其对自由基的清除作用,中国生化药物杂志, 1995, 16(1) :12~14
[30]魏文树. 灵芝多糖对小鼠超氧化物歧化酶活力的影响. 中国药理学报 1996,17(2):174
[31]李荣芷. 灵芝抗衰老机理与活性成分灵芝多糖的化学与构效研究.北京医科大学学报, 1991, 23(6):473
[32]王蓉等. 多糖生物活性的研究进展,国外医药抗生素分册,2001;22(3):97-100
[33]周鹏、谢明勇等. 多糖的结构研究,南昌大学学报(理科版),2001,25(2):197-203
[34]林雨露. 多糖化学结构及构效关系的研究,武汉教育学院学报,2000,19(6):34-37
[35]邱龙新. 真菌多糖化学研究,龙岩师专学报,1999,17(3):55-57
[36]吴东儒. 糖类生物化学,高等教育出版社,1987,第一版,517-530,
[37]张惟杰主编. 糖复合物生化研究技术,浙江大学出版社, 1999,第二版
[38]李悦等. 质谱离子化技术及其发展,中国医药工业杂志,1998,29(11):524-528
[39]方一苇. 糖结构与质谱分析,质谱学报,1995,16(1):1-8
[40]蒋可等. 糖复合物中糖链部分质谱测定,化学通报,1990(6):30-38
[41]丁侃等. 多糖类药物的毛细管电泳分析方法及其应用,色谱,1999,17(7):346-350
[42]诸葛健、赵振峰、芳慧英. 功能性多糖的构效关系,无锡轻工大学学报2002,21(2):209-212
[43] John A. Bohn R. (1→3)-β-Glucans as biological response modiers: a review of structure-functional activity relationships, Carbohydrates Polymers,1995,28: 3-14
[44] Danisefsky SJ. Meclur KF. et al. A stuategy for the solid-phase synthesis of oligosaccharides, Science,1993,260:1370
[45] Corinne G. Maud B. Structural of the extracellular β-D-glucans from Phytophthora parasitica Dastur,Carbohydrate
Research,1998,313: 259-263
[46]梁忠岩、张翼伸、张丽萍. 植物多糖的结构研究,吉林医药杂志,2001,20(2):47-48
[47]陈惠黎、王克夷. 糖复合物的结构和功能,上海医科大学出版社,1997,第一版,84-103,
[48]罗廷彬等.肉苁蓉研究进展,干旱区研究2002,19(4):56-58
[49]曾群力等,肉苁蓉多糖的免疫活性作用机制,浙江大学学报,2002,31(4);284-287
[50]樊文颖,肉苁蓉开发利用研究的进展与问题,内蒙古林业调查设计,2001,24(1)45-47
[51]朱永华,罗泽民.肉苁蓉的研究进展及前景分析,湖南林业科技,2000,27(4)19-22
[52]孙萍,肉苁蓉多糖的微波提取及含量测定,数理医药学杂志,2002,15(2)56-59
[53]周志锦.肉苁蓉的研究进展,中医药信息,1995,5 28-30
[54]石德成、张翼伸等. 碳水化合物的气相色谱分析,分析化学,1983,11(3):193-196
[55]石德成、张翼伸等. 碳水化合物的气相色谱分析,东北师大学报,1982,(3):43-49
[56]张翼伸. 有关糖复合物的分级纯化、结构确定、生物活性的几个问题,生命的化学,1994,14(6):42-44
[57]张翼伸、李治平等. 云芝多糖的分离与鉴定,吉林师大学报(自然科学版),1978(2):105-108
[58] Dubois M. Gillfs KA. et al. Colorimetric method for determination of sugars and related substances,Analchem,1956,28:350
[59]梁忠岩、谭日红等. 树舌多糖Fb、Fc的研究,生物化学杂志,1994,10(4):407-411
[60]梁忠岩、张翼伸等. 人参果胶中多糖与蛋白质关系的研究,植物学报,1988,30(4): 396-402
[61]魏民、张丽萍等. 草苁蓉根、茎水溶性多糖BRT的结构特征,中国生
物化学与分子生物学学报,2002,18(3):388-390
[62]陈玉香、张丽萍等. 沙棘果皮水溶性多糖Hn的结构研究,分子科学学报,2000,16(1):19-22
[63]梁忠岩、张翼伸、苗春艳. 树舌水溶色素多糖CF2的结构确定,生物化学杂志,1992,8(4):497-499
[64]梁忠岩、张翼伸等. 松杉灵芝水溶多糖的结构研究,生物化学与生物物理学报,1993,25(1):59-62
[65]张翼伸. 人参根茎叶果中多糖的研究,人参研究,1989(3):24-26
[66]姜瑞芝. 多糖甲基化方法的研究,长白山中医药研究与开发,1994,3(2): 39-42
[67] Ciucanu I. Kerek F. A simple and rapid method for permethylation of carbohydrate,Carbohydrate Research,1984,131: 209-217
[68] Lindberg B. Methods in Enzymology,New York:Academic press,1972,28: 178-195
[2] Watson K, Gooderham N J, Davies D S, et al. Interaction of the transactivating protein HIV-1 Tat with sulphated polysaccharide. [J]. Biochem Pharmaco, 1999,57:775
[3] Kiho T, Ookubo K, U sui S, et al. Structrual features and hypoglycem ic activity of a polysaccharide (CS-F10) from the cultured mycelium of Cordyceps sinensis.[J]. Bio l Pharm Bull, 1999, 22(9):966
[4] Varki, A. Glycobiology, 1993,3(2);97-130
[5] Varki, A. et al. Essential of glycobiology, Cold Spring Harbor Laboratory Press,1999
[6]向道斌,李晓玉. 多糖的免疫调节作用. 国外医药——合成药、生化药制剂分册, 1991, 12(5):261~268
[7]盛剑秋,杨淑英. 香菇多糖的免疫调节作用研究进展.胃肠病学和肝病学杂志, 1998, 7(1):92~96
[8]魏平,郭桂芹,王以庆. 多糖类中药免疫药理研究进展.长春中医学院学报, 1997, 13(64):66~67
[9]陆琮明,孙桂菊,张小强等. 香菇和黄芪混合多糖抑制S-180肉瘤生长和增强免疫作用的研究.JPreMedInf, 1998, 14(4):210~213
[10]曹广文. 生药活性多糖对淋巴细胞/细胞素的调节与抗肿瘤作用. 免疫学杂志, 1992,8(4):273~275
[11]王玉明,王玉芬,王浴生. 肿瘤防治中的多糖研究. 国外医药抗生素分册, 1993, 14(2):127~130
[12]程培元. 抗肿瘤多糖研究的某些进展,江苏医药, 1980,12:25~27
张惟杰,糖复合物生化研究技术,杭州;浙江大学出版社,1999
[13]李泽浩. 甲壳质的利用前景,生物学通报, 1995, 09
[14]沈萍萍等. 真菌多糖研究进展,南京大学学报 , 1991 ,27(3):528
[15]胡继飞. 甲壳质及其衍生物的开发与利用 生物技术, 1994 04
[16]李家增,包承鑫,陈关珍等. 刺参酸性粘多糖抗凝血酶活性及诱导血小板聚集的作用. 中国药理学报, 1985,6(2):10
[17]邵传森等.浙江中医学院学报 1991;(6):29
[18]Usui, T., Asari K.and Mizuno. T. Isolation of highly purified “fucoidan” from Eisebnia biocyclis and its anticoagulant and antithrombin activities Agric. Biol. Chem. 1980;44: 1965-1966
[19]Mori. II., Kamei, h., Nishide. E. and Nishizawa. K. Sugar constituents of some sulfated polysaccharides from the sporophyus of wakame (Undaria pinatifida) and their biological activities Mar. Algae. Pharm. Sci.1982;2: 109-121
[20]Nishino. T., Yokoyam. G., Dobashi. K., Fujihara M, and Nagumo. T. Isolation, purification and characterization of fucose containing sulfated polysaccharides from the brown/ seaweed Ecklonia Kurome and their blood-anticoagulant activities Carbohydr. Res. 1989;186:119-129
[21]方积年. 硫酸酯化多糖的研究进展,中国药学杂志,1993, (28)7:393(395
[22]汪东风. 茶多糖的组分及理化性质,茶叶科学, 1996,16(1 ):1~8
[23]熊学敏,叶士玲,许春波等. 南瓜多糖对四氧嘧啶糖尿病大鼠的降糖作用, 江西中医学院学报, 1998; 10(4):174~175
[24]姜委莲. 银耳多糖对四氧嘧啶糖尿病小鼠的降血糖作用, 长白山中医药研究与开发, 1995,4(2):48
[25]许建明,丁长海,李连德等. 冬虫夏草多糖保护小鼠免疫性肝损伤的筛选研究, 安徽医科大学学报, 1995, 34(3):173~175
[26]马雄,邱德凯,徐军等. 冬虫夏草多糖治疗慢性丙型肝炎患者的临床研究.华人消化杂志, 1998,6(7):582~584
[27]邱德凯,曾民德,沈敏等. 冬虫夏草多糖治疗慢性乙型肝炎的研究.中华消化杂志, 1991, 11(2):69~72
[28]张丽萍等. 刺五加果水溶性多糖的研究, AS2的分离纯化与结构探讨,生物化学杂志 , 1993, 9(1):1
[29]阎家麒等. 中华猕猴桃多糖的提取及其对自由基的清除作用,中国生化药物杂志, 1995, 16(1) :12~14
[30]魏文树. 灵芝多糖对小鼠超氧化物歧化酶活力的影响. 中国药理学报 1996,17(2):174
[31]李荣芷. 灵芝抗衰老机理与活性成分灵芝多糖的化学与构效研究.北京医科大学学报, 1991, 23(6):473
[32]王蓉等. 多糖生物活性的研究进展,国外医药抗生素分册,2001;22(3):97-100
[33]周鹏、谢明勇等. 多糖的结构研究,南昌大学学报(理科版),2001,25(2):197-203
[34]林雨露. 多糖化学结构及构效关系的研究,武汉教育学院学报,2000,19(6):34-37
[35]邱龙新. 真菌多糖化学研究,龙岩师专学报,1999,17(3):55-57
[36]吴东儒. 糖类生物化学,高等教育出版社,1987,第一版,517-530,
[37]张惟杰主编. 糖复合物生化研究技术,浙江大学出版社, 1999,第二版
[38]李悦等. 质谱离子化技术及其发展,中国医药工业杂志,1998,29(11):524-528
[39]方一苇. 糖结构与质谱分析,质谱学报,1995,16(1):1-8
[40]蒋可等. 糖复合物中糖链部分质谱测定,化学通报,1990(6):30-38
[41]丁侃等. 多糖类药物的毛细管电泳分析方法及其应用,色谱,1999,17(7):346-350
[42]诸葛健、赵振峰、芳慧英. 功能性多糖的构效关系,无锡轻工大学学报2002,21(2):209-212
[43] John A. Bohn R. (1→3)-β-Glucans as biological response modiers: a review of structure-functional activity relationships, Carbohydrates Polymers,1995,28: 3-14
[44] Danisefsky SJ. Meclur KF. et al. A stuategy for the solid-phase synthesis of oligosaccharides, Science,1993,260:1370
[45] Corinne G. Maud B. Structural of the extracellular β-D-glucans from Phytophthora parasitica Dastur,Carbohydrate
Research,1998,313: 259-263
[46]梁忠岩、张翼伸、张丽萍. 植物多糖的结构研究,吉林医药杂志,2001,20(2):47-48
[47]陈惠黎、王克夷. 糖复合物的结构和功能,上海医科大学出版社,1997,第一版,84-103,
[48]罗廷彬等.肉苁蓉研究进展,干旱区研究2002,19(4):56-58
[49]曾群力等,肉苁蓉多糖的免疫活性作用机制,浙江大学学报,2002,31(4);284-287
[50]樊文颖,肉苁蓉开发利用研究的进展与问题,内蒙古林业调查设计,2001,24(1)45-47
[51]朱永华,罗泽民.肉苁蓉的研究进展及前景分析,湖南林业科技,2000,27(4)19-22
[52]孙萍,肉苁蓉多糖的微波提取及含量测定,数理医药学杂志,2002,15(2)56-59
[53]周志锦.肉苁蓉的研究进展,中医药信息,1995,5 28-30
[54]石德成、张翼伸等. 碳水化合物的气相色谱分析,分析化学,1983,11(3):193-196
[55]石德成、张翼伸等. 碳水化合物的气相色谱分析,东北师大学报,1982,(3):43-49
[56]张翼伸. 有关糖复合物的分级纯化、结构确定、生物活性的几个问题,生命的化学,1994,14(6):42-44
[57]张翼伸、李治平等. 云芝多糖的分离与鉴定,吉林师大学报(自然科学版),1978(2):105-108
[58] Dubois M. Gillfs KA. et al. Colorimetric method for determination of sugars and related substances,Analchem,1956,28:350
[59]梁忠岩、谭日红等. 树舌多糖Fb、Fc的研究,生物化学杂志,1994,10(4):407-411
[60]梁忠岩、张翼伸等. 人参果胶中多糖与蛋白质关系的研究,植物学报,1988,30(4): 396-402
[61]魏民、张丽萍等. 草苁蓉根、茎水溶性多糖BRT的结构特征,中国生
物化学与分子生物学学报,2002,18(3):388-390
[62]陈玉香、张丽萍等. 沙棘果皮水溶性多糖Hn的结构研究,分子科学学报,2000,16(1):19-22
[63]梁忠岩、张翼伸、苗春艳. 树舌水溶色素多糖CF2的结构确定,生物化学杂志,1992,8(4):497-499
[64]梁忠岩、张翼伸等. 松杉灵芝水溶多糖的结构研究,生物化学与生物物理学报,1993,25(1):59-62
[65]张翼伸. 人参根茎叶果中多糖的研究,人参研究,1989(3):24-26
[66]姜瑞芝. 多糖甲基化方法的研究,长白山中医药研究与开发,1994,3(2): 39-42
[67] Ciucanu I. Kerek F. A simple and rapid method for permethylation of carbohydrate,Carbohydrate Research,1984,131: 209-217
[68] Lindberg B. Methods in Enzymology,New York:Academic press,1972,28: 178-195