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大果大戟中的一个对映-贝壳杉烷型二萜 总被引:1,自引:0,他引:1
从大果大戟的根部首次分离得到一个对映-贝壳杉烷型二萜,利用波谱方法鉴定为ent-16α,17-dihydrox-ykauran-3-one(1)。首次对化合物1在甲醇中的碳谱和氢谱数据进行了全归属。 相似文献
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从云南中甸产细叶香茶菜(Isodon tenuifolia (W. W. Smith) Kudo)的地上部分分离得到6个化合物, 它们的结构通过波谱方法得到鉴定。其中化合物1和2为新的对映-贝壳杉烷二萜化合物, 即细叶香茶菜甲素(3β,6α,15β-trihydroxy-1α,7β-diacetoxy-11β,16β-epoxy-ent-kaurane) (1) 和细叶香茶菜乙素(1α,6α,11β-trihydroxy-3β,7β-diacetoxy-ent-kaur-16-en-15-one) (2)。 相似文献
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从云南中甸产细叶香茶菜 (Isodontenuifolia (W .W .Smith)Kudo)的地上部分分离得到 6个化合物 ,它们的结构通过波谱方法得到鉴定。其中化合物 1和 2为新的对映_贝壳杉烷二萜化合物 ,即细叶香茶菜甲素 (3β ,6α ,15 β_trihydroxy_1α ,7β_diacetoxy_11β ,16 β_epoxy_ent_kaurane) (1)和细叶香茶菜乙素 (1α,6α ,11β_trihydroxy_3β,7β_diacetoxy_ent_kaur_16_en_15_one) (2 )。 相似文献
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从昆明产腺花香茶菜(Isodon adenanthus (Diels) Kudo)的地上部分分离到8个化合物,通过波谱分析鉴定,化合物1-3为新的对映-贝壳杉烯类二萜化合物,命名为腺花香茶菜素N、0和P;4个已知二萜为白叶香茶菜戊素(4)、无毛狭叶香茶菜素C(5)、腺花香茶菜甲素(6)和白叶香茶菜乙素(7),同时得到一个高度不饱和脂肪酸9,16-二羰基-10,12,14-三烯-十八碳酸(8)。根据ROESY波谱,对化合物4的结构进行了修正。化合物1对K562细胞显示出明显的细胞毒活性(IC50=0.45μg/mL)。 相似文献
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双扇蕨科是一个自然的类群,为单型科,有8种。中国产3种:中华双扇蕨Dipteris chinensisChrist、双扇蕨D.conjugata(Kaulf.)Reinw.和喜马拉雅双扇蕨D.wallichii(R.Br.)T.Moore。云南产2种:中华双扇蕨和喜马拉雅双扇蕨。其中,喜马拉雅双扇蕨为云南分布新纪录。文中列出了国产种类的分类检索表,并均附有彩色图片。 相似文献
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中华青荚叶的一个新果糖酯 总被引:1,自引:0,他引:1
从山茱萸科中华青荚叶( Helwingia chinensis )的乙醇提取物中分离得到一个新果糖酯和十个已知化合物.通过现代波谱技术分别鉴定为:2- O -(E)-咖啡酰-3- O -(3, 5-二甲氧基香豆酰)-α-D-呋喃果糖甙(1),2- O -β-D-呋喃果糖基α-D-异吡喃糖酯(2),甘草甜素(3),4′-羟基-7- O -葡萄糖-2, 3-二羟黄酮甙(4),黄豆甙(5),5-葡萄糖芹菜甙(6),7- O -葡萄糖芹菜甙(7),4- O -葡萄糖香豆酸(8), 葡萄糖咖啡酸(9), 3β-赤杨醇(10), 薯蓣皂甙3- O -{α-L-鼠李糖吡喃糖基(1→2)-[α-L-阿拉伯呋喃糖基(1→3)]-β-D-葡萄糖吡喃糖} (11). 相似文献
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《Palaeoworld》2016,25(2):263-286
The extant family Dipteridaceae is a remarkable leptosporangiate fern because it includes only one genus with a restricted distribution to tropical regions. The fossil record of this family has been widely reported from the Mesozoic strata in Eurasia, America, Australia, and Greenland. In China, numerous fossils of the Dipteridaceae have been documented, in total, about 74 species of 6 genera. Geographically, they are distributed both in the Southern and Northern Floristic Provinces, and were particularly well developed in the Southern Floristic Province during the Late Triassic and the Early Jurassic intervals. Fossil diversity of Dipteridaceae varies in the different episodes of the Mesozoic in China. It is shown that Dipteridaceae has undergone a diversity development process and a distinct turnover during the Mesozoic. They appear to have diversified in the warm and humid Late Triassic–Early Jurassic, but declined sharply as aridity developed in the Middle Jurassic, and became extinct at the end of the Early Cretaceous. The diversity variation and tempo-spatial distribution pattern is suggested to be linked with paleoclimatic variations during the Mesozoic. 相似文献
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《植物学报(英文版)》2005,47(11)
A new isoflavonoid, 5, 6, 7, 3'-terahydroxy-8, 4', 5'-trimethoxyisoflavone (1), along with 10 known isoflavonoids, namely 5, 6, 7, 4'-tetrahydroxy-8-methoxyisoflavone (2), irilone (3), genistein (4), tectorigenin (5), irigenin (6), irisflorentin (7), dichotomitin (8), dimethyltectorigenin (9), iridin (10), and tectoridin (11), was isolated from the alcohol extract of the rhizomes of Belamcanda chinensis (L.) DC. The structures of these compounds were elucidated on the basis of results of spectroscopic analysis. 相似文献
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Yuan LI Dong-Ming ZHANG Shi-Shan YU 《植物学报(英文版)》2005,47(8):1021-1024
To study new natural products, we used ODS (YMC, Kyoto, Japan) and silica gel column chromatography to separate compounds in Cercis chinensis Bunge (Leguminosae). A new stilbene, trans- 3, 5, 3', 4'-tetrahydroxy-4-methylstilbene (1), along with 10 known compounds, namely piceatannol (2), dihydromyricetin (3), catechin (4), dihydrorobinetin (5), menisdaurin (6), lithospermoside (7), teatannin (8), dasycarponin (9), β-sitosterol (10), and daucosterin (11), was isolated from C. chinensis. Their structures were elucidated on the basis of spectroscopic evidence. Compounds 2-6 and 9 were isolated from the genus Cercis Linn. for the first time. 相似文献