四种旱生藓类植物的比较结构学观察

对新疆产的4种藓类植物茎、叶的表面及内部结构进行了观察,结果表明：尖叶大帽藓(Encalypta rhabdocarpa Schwaegr.)茎的中部结构类似于种子植物(单子叶)根的内皮层,其茎表皮也有类似于种子植物表皮毛(腺毛)的腺体。在阔叶紫萼藓(Grimmia laevigata (Brid.) Brid.)茎的中轴部,厚角组织发达,数层皮部厚壁组织也很发达。小石藓(Weisia controversa Hedw.)叶中肋之中有小形厚壁细胞。弯叶墙藓(Tortula reflexa Li)的茎呈多棱形,表皮层具很厚的“树皮状”老皮,其叶表皮细胞密被马蹄形及叉状粗疣。这些特征反映了该类群植物由低等向高等演化的趋势,并可作为分类学依据之一。     

慈溪麦冬甙A和B的结构

从浙江慈溪产中药麦冬（Ｏｐｈｉｏｐｏｇｏｎ ｊａｐｏｎｉｃｕｍ）中分离得到２个新的Ｃ２７甾体甙－－慈溪麦冬甙Ａ（２）和Ｂ（３）以及已知甙ｏｐｈｉｏｇｅｎｉｎ３－氧－α－Ｌ－鼠李糖吡喃基（１→２）「β－Ｄ－木糖吡喃基（１→３）」－β－Ｄ－葡萄糖吡喃甙（２）和ｏｐｈｉｏｇｅｎｉｎ ３－氧－α－Ｌ－鼠李糖吡喃基（１→２）「β－Ｄ－木糖吡喃基（１→３）」「β－Ｄ－葡萄糖吡喃基（１→４）」－β－Ｄ－葡萄糖吡     

Triterpenoid Saponins from Pulsatilla cernua (Thunb.)

To investigate saponins from the roots of Pulsatilla cernua (Thunb.) Bercht. et Opiz., two new compounds together with five known triterpenoid saponins were isolated. The structures of the two new triterpenoid saponins, named cernuasides A and B, were elucidated as 3-O-[β-D-xylopyranosyl(1→2)]-[α-L-rhamnopyranosyl(1→4)]-α-Larabinopyranosyl hederagenin 28-O-β-D-glucopyranosyl ester (compound 1) and 3-O-[α-L-arabinopyranosyl(1→3)]-[α-L-rhamnopyranosyl (1→2)]-α-L-arabinopyranosyl hederagenin 28-O-β-D-glucopyranosyl ester (compound 2) by 1D, 2D-NMR techniques, ESIMS analysis, as well as chemical methods.     

Triterpenoid Saponins from Pulsatilla cernua (Thunb.)Bercht. et Opiz.

To investigate saponins from the roots of Pulsatilla cernua (Thunb.) Bercht. et Opiz., two new compounds together with five known triterpenoid saponins were isolated. The structures of the two new triterpenoid saponins, named cernuasides A and B, were elucidated as 3-O-[β-D-xylopyranosyl(1→2)]-[α-L-rhamnopyranosyl(1→4)]-α-Larabinopyranosyl hederagenin 28-O-β-D-glucopyranosyl ester (compound 1) and 3-O-[α-L-arabinopyranosyl(1→3)]-[α-L-rhamnopyranosyl (1→2)]-α-L-arabinopyranosyl hederagenin 28-O-β-D-glucopyranosyl ester (compound 2) by 1D, 2D-NMR techniques, ESIMS analysis, as well as chemical methods.     

A New Steroidal Glycoside from Ophiopogon japonicus (Thunb.) Ker-Gawl.

To study the chemical constituents from traditional Chinese herb Ophiopogon japonicus(Thunb.) Ker-Gawl., a new steroidal glycoside, named ophiopojaponin C (1), together with two known ones,was isolated by column chromatography. Spectroscopic and chemical evidence revealed the structures to be ophiopogenin 3-O-[α-L-rhamnopyranosyl(1→2)]-β-D-xylopyranosyl(1→4)-β-D-glucopyranoside (1),diosgenin 3-O-[2-O-acetyl-α-L-rhamnopyranosyl( 1 →2)] -β-D-xylopyranosyl( 1 →3)-β-D-glucopyranoside (2),and ruscogenin 1-O-[2-O-acetyl-α-L-rhamnopyranosyl(1→2)]-β-D-xylopyranosyl(1→3)-β-D-fucopyranoside(3).     

大叶吊兰中一个新的甾体皂甙

从百合科植物大叶吊兰（Ｃｈｌｏｍｐｈｙｔｕｍ ｍａｌａｙｅｎｓｅ）根茎中分离得到１个新的呋甾烷型甾体皂甙,命名为大叶吊兰甙Ｅ（ｃｈｌｏｒｏｍａｌｏｓｉｄｅ Ｅ）。经波谱和化学方法证明明其结构为：２６－０－β－Ｄ－ｇｌｕｃｏｐｙｒａｎｏｓｙｌ－２２－ｈｙｄｒｏｘｙ－２５（Ｓ）－５ａ－ｆｕｒｏｓｔａｎ－１２－ｏｘｏ－３β,２６－ｄｉｏｌ－３－β－Ｄ－ｘｙｌｏｐｙｒａｎｏｓｙｌ（１→３）〖α－Ｌ－ａｒａ     

The Chemical Constituents of Anemone rivulari

A new triterpenoid saponin, anemoside A. was isolated from Anemone rivularis Buch.-Ham. ex DC. Its structure was elucidated as 3-O-[β-D-ribopyranosyl (1→3)-α-L- rhamnopyranosyl (1 -→ 2) -α-L-arabinopyranosyl]-oleanolic acid-E8-O-α-L-rhamnopyranosyl (1→ 4)-β-D-glucopyranoside by means of chemical methods and 1H-NMR. 13C-NMR, DEPT, MS spectral analyses.     

天山棱子芹化学成分的研究

从天山棱子芹中首次分离得到15个已知化合物,通过NMR、MS及IR等波谱数据,分别鉴定为6,7-二羟基香豆素(1),( )-marmesin(2),marmesinin(3),5,7,4'-三羟基黄酮(4),莰非醇3-O-α-L-吡喃鼠李糖甙(5),藤黄菌素3'-O-β-D-吡喃葡萄糖甙(6),(R)-6-hydroxy-3-(2-hydroxypropan-2-yl)-6-methylcyclohex-2-enone(7),4-羟基苯甲酸(8),3-甲氧基4羟基苯甲酸(9),3-甲氧基-4,5-亚甲二氧基苯甲酸(10),丁香酸甲酯(11),丁香酸甲酯4-O-β-D-吡喃葡萄糖甙(12),姜油酮4’-O-β-D-吡喃葡萄糖甙(13),2-(4-羟基苯基)-乙醇(14)和正二十八醇(15)。其中化合物7为一新的天然产物。     

古蔺雪胆中的新三萜皂苷

从采自四川汉源县的古蔺雪胆(Hemsleya penxianensis var.gulinensiks)中分到9个三萜皂苷化合物,通过化学反应和光谱方法鉴定了它们的结构。其中7个为已知化合物,分别为齐墩果酸-28-O-β-D-比喃葡萄糖苷(1),3-O-β-D-吡喃葡萄糖醛基齐墩果酸苷(3),3-O-β-D-吡喃葡萄糖醛基—齐墩果酸—28-O-α-L-吡喃阿拉伯糖苷(4),3-O-β-D-吡喃葡萄糖醛基—齐墩果酸—28-O-β-D-吡喃葡萄糖苷(5),3-O-α-L-阿拉伯糖基—(1→3)—β—D-吡喃葡萄糖醛基—齐墩果酸—28—O—β—D—吡喃葡萄糖苷(6),3—O—(6′—丁酯)—β-D-吡喃葡萄糖醛基—齐墩果酸—28-O-α-L-阿拉伯糖苷(7),3-O-(6′-丁酯)—β—D吡喃葡萄糖醛基—齐墩果酸—28-O-β-D-吡喃葡萄糖苷(8)。两个新化合物,即雪胆皂苷A(2)和雪胆皂苷B(9)。     

怒茶素--怒江山茶的一个新黄酮甙

用葡聚糖凝胶和树脂层析技术从云南省昆明地区产怒江山茶（Ｃａｍｅｌｌｉａ ｓａｌｕｅｎｅｎｓｉｓ Ｓｔａｐｆ ｅｘ Ｂｅａｎ）的鲜叶中分离到１１个酚类化合物,其中１０个分别鉴定为已知的槲皮素类黄酮化合物及原花色素类化合物。另１个为新的黄酮甙,经光谱与化学方法测定,其化学结构为槲皮素－３－Ｏ－β－Ｄ－木吡喃糖基（１→２）－α－Ｌ－鼠李吡喃糖基（１→６）－β－Ｄ－葡萄吡喃糖甙,命名为怒茶素。     

Phenolic derivatives from Ruprechtia polystachya and their inhibitory activities on the glucose-6-phosphatase system

Two new compounds, 5-methyl-2-(2-methylbutanoyl)phloroglucinol 1-O-(6-O-β-D-apiofuranosyl)-β-D-glucopyranoside (1) and trans-2,3-dihydrokaempferol 3-O-(4-O-sulfo)-α-L-arabinopyranoside (2), together with 14 known flavonoids, trans-dihydrokaempferol 3-O-α-L-arabinopyranoside (3), trans-taxifolin 3-O-α-L-arabinofuranoside (4), quercetin 3-O-α-L-rhamnopyranoside (5), quercetin 3'-O-α-L-arabinofuranoside (6), catechin 3-O-α-L-rhamnopyranoside (7), trans-taxifolin 3-O-α-L-arabinopyranoside (8), cis-dihydrokaempferol 3-O-α-L-arabinopyranoside (9), catechin (10), myricetin 3-O-α-L-rhamnopyranoside (11), quercetin 3-O-α-L-arabinopyranoside (12), quercetin 3-O-α-L-arabinofuranoside (13), quercetin 3-O-(3″-galloyl)-α-L-rhamnopyranoside (14), quercetin 3-O-(2″-galloyl)-α-L-rhamnopyranoside (15), and epicatechin 3-O-gallate (16), were isolated from the leaves of Ruprechtia polystachya Griseb. (Polygonaceae). Their structures were established on the basis of extensive 1D- and 2D-NMR experiments as well as MS analyses. All compounds, except 1, showed inhibition of the enzyme glucose-6-phosphatase in intact microsomes.     

羽叶鬼灯檠中的单萜二糖苷

从羽叶鬼灯檠 (RodgersiapinnataFranch .)的根茎中分离得到 6个单萜二糖苷 ,它们的结构通过波谱方法分别鉴定为 :(E ) 3,7 dimethyl 1 O [α L rhamnopyranosyl (1→ 6 ) β D glu copyranosyl] oct 2 en 7 ol (1) ,(E ) 3,7 dimethyl 1 O [α L arabinofuranosyl (1→ 6 ) β D glucopy ranosyl] oct 2 en 7 ol (2 ) ,geranyl 1 O α L arabinofuranosyl (1→ 6 ) β D glucopyranoside (3) ,gera nyl 1 O α L rhamnopyranosyl (1→ 6 ) β D glucopyranoside (4 ) ,geranyl 1 O β D xylopyranosyl (1→6 ) β D glucopyranoside (5 ) ,geranyl 1 O α L arabinopyranosyl (1→ 6 ) β D glucopyranoside (6 )。其中化合物 1为新化合物 ,单萜二糖苷类化合物系首次在该属中发现。     

杜鹃属植物区系的研究

已知世界杜鹃属(Rhododendron)植物约967种（种下分类等级未计算在内）。本文基于植物区系学的观点,讨论了属内8个亚属：常绿杜鹃亚属、杜鹃亚属、马银花亚属、映山红亚属、羊踯躅亚属、云间杜鹃亚属、纯白杜鹃亚属、异蕊杜鹃亚属的系统位置、分布式样。分析了系统发育和地理分布上的时间、空间关系。认为常绿杜鹃亚属和杜鹃亚属是在本属植物起源后的早期阶段就沿不同途径迁徙、繁衍的两个演化枝。自第三纪以来,它们的性状发展多样,种系高度分化。在现存类群中最具原始性状的亚属是常绿杜鹃亚属,这个亚属的云锦杜鹃亚组Subsect.Fortunea,耳叶杜鹃亚组Subsect.Auriculata 保持较多原始性状。种的分布遍及欧洲、北美洲、亚洲、大洋洲(有1种),东亚种类最多,马来西亚次之。中国-喜马拉雅地区既是多度中心又是多样化中心,马来西亚仅是多度中心。大多数种为地方特有性分布,特有现象十分突出,东亚和马来西亚的特有种共约862种,占种总数的89%以上中国有6个亚属(Candidastrum,Mumeazalea不产)约562种,其中特有种约405种。分析第三纪的化石记录,杜鹃属在全球分布的时间、地点,杜鹃属保持原始或古老性状的类群的现代适生地,认为中国西南至中国中部最有可能是杜鹃属植物的起源地,始祖类群起源的时间会是在晚白垩纪至早第三纪。讨论了杜鹃属在第三纪至第四纪向北半球北部的传布,向亚洲西南、亚洲东南和向东亚的传布以及向大洋洲的传布。从杜鹃属在全球传布的现象和途径,看来现代分布格局形成的原因取决于三方面的因素：时间和窨历史对植物繁衍、传播有着重要制约作用,并受制于植物种系自身具有的遗传性和对环境强烈变化的反应能力。     

Sesquiterpenoids and lignans from the roots of Valeriana officinalis L

Two new guaiane-type sesquiterpenoids, valerol A (1) and kessyl 3-acetate (2), together with nine known compounds, valeracetate (3), anismol A (4), orientalol C (5), spatulenol (6), 4α,10α-epoxyaromadendrane (7), (+)-8-hydroxypinoresinol (8), pinorespiol (9), pinoresinol 4-O-β-D-glucopyranoside (10), and 8-hydroxypinoresinol 4'-O-β-D-glucopyranoside (11) were isolated from the roots of Valeriana officinalis. The structures and relative configurations of 1 and 2 were elucidated on the basis of spectroscopic methods (1D- and 2D-NMR, MS, UV, and IR). These compounds were evaluated for inhibitory activity on acetylcholinesterase (AChE) and enhancing activity on nerve growth factor (NGF)-mediated neurite outgrowth in PC12 cells.     

半卧狗娃花中的黄酮类化合物

从半卧狗娃花(Heteropappus semiprost Griers)全草的乙醇提取物中分离并鉴定了7个黄酮类化合物,通过波谱分析及化学方法鉴定其结构为:3′,4′,5,7-四羟基黄酮(1),3′-甲氧基槲皮素(2),槲皮素-3-O-α-L-吡喃鼠李糖甙(3),槲皮素-3-O-β-D-吡喃半乳糖甙(4),异鼠李亭-3-O-β-D-吡喃半乳糖甙(5),槲皮素-3-O-α-L-吡喃鼠李糖(1→6)-β-D-吡喃葡萄糖甙(6),异鼠李亭-3-O-α-L-吡喃鼠李糖(1→6)-β-D-吡喃葡萄糖甙(7),其中化合物1~5为首次从本属植物中分离得到。     

桂火绳中化学成分的研究

从梧桐科火绳属桂火绳中提取分离到22个化合物,经结构鉴定为:羽扇豆醇(1),白桦脂酸(2),齐墩果酸(3),丁香脂素(4),(+)-异落叶松树脂醇(5),东莨菪内酯(6),对羟基肉桂酸(7),二十七碳酸单甘油酯(8),2-十八烯酸单甘油酯(9),sitoindosideⅡ(10),儿茶素(11),表儿茶素(12),表儿茶素3-O-β-D-吡喃木糖甙(13),山奈酚3-O-β-D-吡喃葡萄糖甙(14),5,7,4'-三羟基异黄酮(15),4'-O-methylgallocatechin(16),反式-二氢槲皮素-3-O-α-阿拉伯糖甙(17),顺式-二氢槲皮素-3-O-α-阿拉伯糖甙(18),反式-二氢槲皮素-3-O-β-吡喃葡萄糖甙(19),3,5,7,3',5'-五羟基-4'-甲氧基异黄酮(20),山奈酚-3-O-β-D-吡喃葡萄糖(6→1)-α-L-吡喃鼠李糖甙(21),以及槲皮素3-O-β-D-吡喃葡萄糖(6→1)-β-D-吡喃葡萄糖甙(22),这些化学成分首次从该属植物中分离出来。     

黄花远志的新齐墩果烷型三萜皂甙

从云南产远志科药用植物黄花远志(PolygalaarillataBuchHamexDDon)茎皮的乙醇提取物中分离得到4个新的齐墩果烷型三萜皂甙,命名为黄花远志皂甙(arillatanoside)A～D。同时还分离得到1个已知的三萜皂甙远志甙(polygalasaponin)XXXV。它们的结构通过波谱方法推定。     

云南马铃薯地方彩色品种“剑川红”和“转心乌”的花色苷主成分分析

彩色马铃薯富含花色苷,是一种天然抗氧化食品.本研究采用高效液相色谱质谱联用技术以引进品种“黑美人”为对照分析了云南马铃薯地方特色品种“剑川红”和“转心乌”花色苷的主要成分.结果表明:“剑川红”色素主要为酰化天竺葵色素类花色苷,其主要成分为天竺葵素3-[ 6-O-( 4-O-E-p-香豆酰-O-α-吡喃鼠李糖苷)-β-D-吡喃葡萄糖苷]-5-O-β-D-毗喃葡萄糖苷.“转心乌”和“黑美人”所含色素相似,主要为酰化矮牵牛色索、锦葵色素、芍药色素类衍生物,主要成分均为矮牵牛花色素3-[ 6-O-( 4-O-E-p-香豆酰-O-α-吡喃鼠李糖苷)-β-D-毗喃葡萄糖苷]-5-O-β-D-毗喃葡萄糖苷.     

Glycosylation of capsaicinoids with Panax ginseng stimulated by salicylic acid

The efficient production of β-glycosides of capsaicin and 8-nordihydrocapsaicin by cultured cells of Panax ginseng is reported. Capsaicin 4-O-(6-O-β-D-xylopyranosyl)-β-D-glucopyranoside (β-primeveroside, 12%) together with capsaicin 4-O-β-D-glucoside (6%) was isolated from the cell suspension of P. ginseng after one week of incubation with capsaicin. On the other hand, 8-nordihydrocapsaicin was glycosylated to 8-nordihydrocapsaicin 4-O-β-D-glucoside (5%) and 8-nordihydrocapsaicin 4-O-β-primeveroside (9%) by P. ginseng. Pretreatment of the cultured cells with salicylic acid greatly enhanced the glucosylation activity toward capsaicinoids. When 500 μM of salicylic acid was added to the cultures prior to the addition of substrate, capsaicin was converted into capsaicin 4-O-β-D-glucoside (17%) and capsaicin β-primeveroside (21%) and 8-nordihydrocapsaicin was glycosylated to 8-nordihydrocapsaicin 4-O-β-D-glucoside (16%) and 8-nordihydrocapsaicin β-primeveroside (15%).     

Tea catechins and flavonoids from the leaves of Camellia sinensis inhibit yeast alcohol dehydrogenase

Four new quercetin acylglycosides, designated camelliquercetisides A-D, quercetin 3-O-[α-L-arabinopyranosyl(1→3)][2-O″-(E)-p-coumaroyl][β-D-glucopyranosyl(1→3)-α-L-rhamnopyranosyl(1→6)]-β-D-glucoside (17), quercetin 3-O-[2-O″-(E)-p-coumaroyl][β-D-glucopyranosyl(1→3)-α-L-rhamnopyranosyl(1→6)]-β-D-glucoside (18), quercetin 3-O-[α-L-arabinopyranosyl(1→3)][2-O″-(E)-p-coumaroyl][α-L-rhamnopyranosyl(1→6)]-β-d-glucoside (19), and quercetin 3-O-[2-O″-(E)-p-coumaroyl][α-L-rhamnopyranosyl(1→6)]-β-D-glucoside (20), together with caffeine and known catechins, and flavonoids (1-16) were isolated from the leaves of Camellia sinensis. Their structures were determined by spectroscopic (1D and 2D NMR, IR, and HR-TOF-MS) and chemical methods. The catechins and flavonoidal glycosides exhibited yeast alcohol dehydrogenase (ADH) inhibitory activities in the range of IC(50) 8.0-70.3μM, and radical scavenging activities in the range of IC(50) 1.5-43.8 μM, measured by using the 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical.