显脉獐牙菜的单萜环烯醚甙

近年来,肝炎发病率高,青叶胆(Swertia mileensis)因此被大量采挖,野生青叶胆资源逐年减少。为发掘新药源,我们对云南产狭叶獐牙菜(S.angustifolia)和显脉獐牙菜(S.nervasa)的化学成分进行了研究。本文报道从中分离鉴定的4个单萜环烯醚甙Ⅰ—Ⅳ。Ⅰ、Ⅲ、Ⅳ分别为维哥罗甙(vegeloside)、獐牙菜甙(sweroside)和獐牙菜苦甙(swertiamarin),Ⅱ是Ⅰ的同分异构体,命名为显脉獐牙菜甙(nervoside)。显脉獐牙菜甙(Ⅱ)白色无定形粉末,味极苦。UVλ-_(max)~(EtOH):243nm(log ε-3.89)。IR v_(max)~(KBr) cm~(-1):3400、1700和1610,显示单萜环烯醚的特征吸收峰显脉獐牙菜;显脉獐牙菜甙;单萜环烯醚甙     

龙胆科獐牙菜属新分类纲要

獐牙菜属是龙胆科中的一个大属,广泛分布于亚洲、北美洲、欧洲和非洲.本文报道獐牙菜属下的两个新组(sect.Montana和sect.Echinulata)和七个新系(ser.Repentes,ser.Kilimandscharicae,ser.Coombosae,ser.Japonicae,ser.Swertopsis,ser.Pumilae和ser.Abyssinicae).同时对獐牙菜属中的一些类群进行了分类修订,本分类纲要将被獐牙菜属世界专著采用.     

A New DNA‐Intercalative Cytotoxic Allylic Xanthone from Swertia corymbosa

Phytochemical investigation of the CHCl₃ fraction of Swertia corymbosa resulted in the isolation of a new 3‐allyl‐2,8‐dihydroxy‐1,6‐dimethoxy‐9H‐xanthen‐9‐one ( 1 ), along with four known xanthones, gentiacaulein ( 3 ), norswertianin ( 4 ), 1,3,6,8‐tetrahydroxyxanthone ( 5 ), and 1,3‐dihydroxyxanthone ( 6 ). Structure of compound 1 was elucidated with the aid of IR, UV, NMR, and MS data, and chemical transformation via new allyloxy xanthone derivative ( 2 ). Compounds 1 – 6 exhibited various levels of antioxidant and anti‐α‐glucosidase activities. Absorption and fluorescence spectroscopic studies on 1 – 6 indicated that these compounds could interact with calf thymus DNA (CT‐DNA) through intercalation and with bovine serum albumin (BSA) in a static quenching process. Compound 1 was found to be significantly cytotoxic against human cancer cell lines HeLa, HCT116, and AGS, and weakly active against normal NIH 3T3 cell line.     

獐牙菜小孢子发生及雄配子体发育(英文)

用石蜡切片法对獐牙菜小孢子发生及雄配子体发育过程进行首次观察研究。主要结果如下:花药四室,药壁发育为基本型;绒毡层异型起源,属于腺质型绒毡层,药室内具有的退化绒毡层核是早期该层细胞有丝分裂凸入药室中央并原位退化形成的;中层细胞2层;药室内壁同表皮同时宿存,细胞柱状伸长,纤维状加厚。小孢子母细胞减数分裂为同时型,四分体排列方式主要为四面体形,少数为左右对称形和十字交叉形;成熟花粉多为2-细胞类型,偶见3-细胞型,具三萌发孔。     

2种藏茵陈类植物的引种地繁殖系统研究

通过观察、套袋、人工授粉对引种至低海拔栽培地的2种藏茵陈"类植物——川西獐牙菜(Swertia mus-sotii)和抱茎獐牙菜(S.franchetiana)繁育系统进行研究.结果表明:(1)引种的2种植物均为雌雄同株、自交亲和,但大部分花雌雄异熟(dichogamy)和雌雄异位(herkogamy),雌雄同熟的比例为24%,且雌雄同熟的雄蕊群远离雌蕊,需要靠传粉昆虫等传粉媒介传粉.(2)引种到低海拔的2种藏茵陈"类植物结实率和发芽率均较高,其中川西獐牙菜柱头张开第2天的授粉结实率达76.54%,种子发芽率达84.29%.(3)低海拔栽培的川西獐牙菜的传粉昆虫是家养蜜蜂,抱茎獐牙菜的开花时间较川西獐牙菜晚20 d,有效的传粉昆虫由家养蜜蜂变成一种很小的蜂类.研究表明,川西獐牙菜和抱茎獐牙菜由高海拔引种到低海拔地区后,结实率和种子发芽率均较高,可以用引种栽培的方式进行藏茵陈"药材的繁殖.     

滇龙胆与青叶胆环烯醚萜类物质计量特征分析?

龙胆科龙胆属滇龙胆( Gentiana rigescens)与獐牙菜属青叶胆( Swertia mileensis)为我国特有种。采用高效液相色谱法测定其中马钱苷酸、獐牙菜苦苷、龙胆苦苷和当药苷含量,结合多变量分析研究环烯醚萜类成分含量及其构成比例在龙胆科植物种内和种间的差异。研究结果显示,4种环烯醚萜类成分的计量特征呈现种间差异,依据环烯醚萜类成分含量及其构成比例,所有滇龙胆样品可分为4类。马钱苷酸含量与纬度呈极显著负相关( R＝－0?348, P<0?05),与海拔呈极显著正相关( R＝0?307, P<0?01);獐牙菜苦苷含量与经度呈极显著负相关( R＝－0?592, P<0?01),高海拔有利于植株中当药苷构成比例的增加( R＝0?245, P<0?05);地理因子对植株中龙胆苦苷含量变化影响不显著( P>0?05)。     

LC-ESI/MS determination of xanthone and secoiridoid glycosides from in vitro regenerated and in vivo Swertia chirayita

A rapid analytical method has been developed to determine xanthone and secoiridoid glycoside in in vitro and in vivo Swertia chirayita extracts. Ultra performance liquid chromatography–electrospray ionization mass spectrometry (LC-ESI/MS) was applied and validated for the analysis of xanthone and secoiridoid glycoside a potential active component isolated from methanolic extracts of in vitro and in vivo Swertia chirayita plantlets. Chromatographic separation was achieved on a RP-C18 column using gradient elution. Mangiferin (Xanthone), Amarogentin and Swertiamarin (Secoiridoid glycosides) were identified in both the extracts. In the LC/ESI-MS spectra, major [M + H] ⁺ and [M + Na] ⁺ ions were observed in positive ion mode and provided molecular mass information. An ultra-performance liquid-chromatography in combination with electrospray ionization tandem mass spectrometry involving metal cationisation was successfully utilized for the rapid identification of xanthone and secoiridoid glycosides. This method is suitable for the routine analysis, as well as for the separation and identification of known and novel secoiridoid glycoside and xanthone.     

高速逆流色谱分离制备川西獐牙菜中两种苷类化合物

采用高速逆流色谱从川西獐牙菜中分离制备了两种高纯度苷类化合物.以正丁醇-氯仿-甲醇-水(3.4∶8∶5∶6,v/v)为溶剂系统,主机转速为800 rpm,流速:O～210 min,1.5mL/min;210 ～360m in,2.5 mL/min,检测波长254 nm的条件下进行分离制备,在360 min内从100 mg样品中一步分离制备得到1-O-樱草糖-3,7,8-三甲氧基(口山)酮(Ⅰ,11 mg)和异荭草苷(Ⅱ,24 mg).经HPLC检测,两个化合物的纯度均在99％以上,结构由UV、1H和13C NMR鉴定.