Two new diterpenes from Euphorbia kansuensis

Two new lathyrane diterpenes, 3 beta,5 alpha-dihydroxy-15 beta-cinnamonyloxy-14-oxoladiyra-6Z, 12E- diene (1) and 3 beta,5 alpha,20-trihydroxy-15 beta-cinnamoyloxy-14-oxolathyra-6Z, 12E-diene (2), were isolated from the roots of Euphorbia kansuensis. Their structures were determined by spectroscopic methods. (C) 2008 Elsevier B.V. All rights reserved.

An ent-Kaurane Diterpene from Euphorbia wallichii

One known ent- kaurane diterpene, ent- 16α, 17- dihydroxykauran- 3-one, were isolated from the roots of Euphorbia wallichii for the first time. Its structure was elucidated on the basis of spectral methods. And the NMR assignments of the compound in CD3OD were given for the first time.

Diterpenoids from Euphorbia wallichii

Object To study the chemical constituents of Euphorbia wallichii.Methods The constituents were repeatedly separated and purified on silica gel column.They were identified on the basis of spectral methods.Results Nine diterpenoids were obtained from the roots of E. wallichii.Among them jolkinol B(I) is lathyrane type;caudicifolin (Ⅱ),helioscopinolides A(Ⅲ),C(Ⅳ),and E(Ⅴ) belong to abietane type;while ent-atisane-3β,16α,17-triol(Ⅵ),ent-16α,17-dihydroxyatisan-3-one(Ⅶ),ent-3β,(13S)-dihydroxyatis-16-en-14-one(Ⅷ),and ent-2-hydroxy-atis-1,16(17)-dien-3,14-dione(Ⅸ) possess an ent-atisane skeleon.Conclusion All of them are isolated from E. wallichii for the first time.

Chemical constituents from euphorbia wallichii

Eleven known compounds were isolated from the roots of Euphorbia wallichii for the first time. They were elucidated to be three triterpenoids, β-amyrin (1), β-amyrin acetate (2) and 3β-acetoxy-lupenol (3), one nor-triterpene peroxide baccatin (4), two caffeic esters (5a, 5b), palmitic acid-2,3-dihydroxypropanenyl ester (6), palmitic acid (7), scopoletin (8), β-sitosterol (9) and daucosterol (10) on the basis of spectral methods. Among them, compound 5a, 5b were reported firstly in the spurge family. And the NMR assignments of compounds 5a and 5b were given for the first time.

Skeleton-rearranged pentacyclic diterpenoids possessing a cyclobutane ring from Euphorbia wallichii

Two novel rearranged trachylobane diterpenoids, designated as wallichanol A (2) and wallichanol B (3), consisting of an unprecedented pentacyclic skeleton named wallichane with a cyclobutane ring, and a new ent-trachylobane diterpenoid, 3-oxo-ent-trachyloban-17-oic acid (1), were isolated from the roots of Euphorbia wallichii. Their structures were elucidated by comprehensive analysis of 2D-NMR spectroscopic data, with the stereochemistry of 1 confirmed by X-ray crystallographic study. All of these compounds potently block osteoclastogenesis in vitro, suggesting a potential therapeutic application in prevention of osteoporosis.

A new guaiane diterpenoid from Euphorbia wallichi

A new guaiane-type diterpenoid, (1 alpha, 5 alpha, 7 alpha)-3,10(18), 11-dictytriene-19-acid, was obtained from the roots of Euphorbia wallichii. This is the first isolation of guaiane diterpene from this genus of Euphorbia. The structure was elucidated by spectral methods. And the compound was tested for the cytotoxicities on the cancer cell line P-388 and A-549 in vitro.

Three new diterpenoids from Euphorbia wallichii

Three new abietane diterpene lactones, 3alpha-hydroxyjolkinolide A (1), ent-8alpha,14beta-dihydroxy-13(15)-ene-16(12alpha)-abietanolide (2) and ent-8alpha,14alpha-dihydroxy-13(15)-ene-16(12alpha)-abietanolide (3) as well as a known abietane diterpene jolkinolide A (4) were isolated from the roots of Euphorbia wallichii. Their structures were elucidated on the basis of spectroscopic analysis.

Chemical constituents from the whole plant of Euphorbia altotibetic

Four new jatrophane diterpenoids, altotibetin A (1), altotibetin B (2), altotibetin C (3), altotibetin D (4), and nine known compounds, beta-sitosterol, cycloart-23-ene-3beta,25-diol, cycloart-25-ene-3beta,24-diol, lupeol acetate, scopoletin, kaempferol, uracil, uridine, astragalin, and daucosterol have been isolated from the whole plant of Euphorbia altotibetic PAULS. Their structures were established by spectral methods, and the configurations of 1 and 2 were confirmed by X-ray analysis.

横断山区马先蒿属的形态分化与分子进化

半寄生植物马先蒿属（Pedicularis）是列当科（Orobanchaceae）中最大的属，也是北温带被子植物最大的属之一。该属至少有500种植物，主要分布在北半球的高山、亚高山地区或高纬度地区，其中超过一半的种类分布在东喜马拉雅至横断山区，构成该地区高山植物区系的主要成分。马先蒿属花部器官的强烈分化程度在被子植物中极为罕见，导致这种分化发生的机制仍是难解之谜。马先蒿属下系统非常混乱，迄今为止该属属下分类系统不下10个。关于该属的起源时间、地点及迁移散布过程只是基于一些间接证据的推测。针对以上问题，本文通过大量的标本查阅、野外考察、传粉生物学观察以及分子系统学研究，得出了一些初步的结果。 　　1．形态学 通过大量的野外考察及标本观察，发现马先蒿属花部器官变异非常复杂，是区分近缘种的主要性状依据，但是花部器官存在明显的平行进化现象，不适合作为划分群、组等属下高级分类单元的主要依据;而营养性状比较保守，可作为划分群、组的主要依据。通过考证，发现直管群万叶系的德钦马先蒿（P. deqinensis）实属轮枝群纤细系多枝马先蒿（P. ramosissima）的异名。同时发现一个新种，即折喙马先蒿（P. inflexirostris），该种属于直管群的万叶系。 　　2.传粉生物学 对27种马先蒿的昆虫传粉行为进行了初步的观察。发现横断山区的马先蒿主要靠熊蜂进行有效的传粉。昆虫的传粉方式有两种，即背触式（Nototribic）和腹触式（Sternotribic）。不同花冠类型的马先蒿属植物中，昆虫的传粉方式也有所区别。对短管、无喙、无花蜜的马先蒿，昆虫主要以腹触式完成传粉;对短管、无喙、具花蜜的马先蒿，昆虫既可以通过背触式也可以通过腹触式完成传粉;而对短管、具喙和长管、具喙的马先蒿，昆虫都以腹触式完成传粉。没有发现鳞翅目的昆虫访问长管类型的马先蒿。不同花冠类型传粉方式的不同说明马先蒿花部形态结构和传粉媒介的行为之间存在协同进化关系。 3.核rDNA ITS分析 对12个群的42种马先蒿的核rDNA ITS序列进行了分析。基于ITS序列构建的基因树和经典的属下分类系统很不一致，基因树上的大部分分支和经典系统中的高级分类单元不相吻合，原因可能是马先蒿属花部器官发生了平行进化，而经典的分类系统过于权重这些花部形态性状。此外，发现在横断山区这一相对狭小的地域范围内，nrDNA ITS序列在马先蒿种间存在很大差异。造成此差异的原因可能有两个方面：一方面是马先蒿属的起源和分化的时间可能较早，不同的支系从其他地域先后多次迁入横断山区;另一方面可能是由于半寄生植物马先蒿中快速的分子进化造成的。 4.叶绿体基因组trnT-F区序列分析 对8个群的11种马先蒿的trnT-F区序列进行了分析，发现种间存在大量的插入/缺失序列，其中甘肃马先蒿（P. kansuensis）和大王马先蒿（P. rex）分别在trnT-trnL（UAA）和trnL–trnF基因间区发生了长达228bp和303bp碱基序列缺失，说明半寄生植物的叶绿体基因组也可能存在大量基因丢失现象。 5. GLOBOSA-like MADS-box基因的研究 对11种马先蒿属植物（8个群）中控制花瓣发育的GLOBOSA（PGLO）基因的部分片段进行了分离、克隆和测序，发现该基因在种间发生了明显的分化，但是碱基的变异主要发生在非编码区或非结构域，基因的同义突变率远高于非同义突变率，说明PGLO基因的进化受到强烈的功能制约。PGLO基因在马先蒿种间的明显分化表明：在辐射分化类群中，调节基因也可能发生了快速分化。对11种马先蒿属植物的PGLO基因树、nrDNA ITS基因树以及trnT-F基因树的比较发现：三个树图在结构上既有一致、也有相互矛盾之处，推测可能是因为这些基因具有不同的遗传体系或经历了不同的进化历史所致，另一方面说明GLOBOSA基因在探讨近缘类群系统发育关系方面的价值有待进一步验证。

唐古特瑞香和大果大戟的化学成分研究

本学位论文由两部分共3章组成。第一部分分别报道2种藏药唐古特瑞香和大果大戟化学成分的研究成果，从2种药用植物共分离鉴定了60个不同的化合物，其中12个为新结构，特别有意义的是发现了2个具有同一新骨架的二萜化合物。第二部分概述了大戟科植物多环二萜的研究进展。 第一部分包括第1和2章。在这2章中分别报道了唐古特瑞香（Daphne tangutica Maxim）和大果大戟（Euphorbia wallichii Hook. f. Fl）化学成分的分离纯化与结构鉴定。实验采用正、反相硅胶柱层析、薄层制备及HPLC等分离方法，从唐古特瑞香的根皮中共分离出32个化合物，通过红外、质谱及核磁共振等波谱方法鉴定了其中的31个，结构类型分别属于瑞香二萜类、木脂素类、香豆素类、苯丙素类及甾体类，其中有三个新的瑞香二萜型化合物，经波谱分析将它们的结构分别鉴定为1,2a-二氢-20-棕榈酰瑞香毒素、1,2a-二氢-5b-羟基-6a,7a-环氧-树脂大戟醇-14-苯甲酸酯及1,2b-二氢-5b-羟基-6a,7a-环氧-树脂大戟醇-14-苯甲酸酯，另外还有13个已知化合物为首次从该植物中分离得到。从大果大戟的根部共分离出33个化合物，鉴定了其中的30个，其主要成分为种类丰富的二萜，包括巨大戟烷型、续随子烷型、对映－阿替生烷型、对映－贝壳杉烷型、对映－松香烷型、ent-trachylobane型、对映－异海松烷型及一新骨架五环二萜ent-wallichane型，另外还有香豆素、甾体、三萜和一些简单的小分子化合物。其中新化合物有9个，经波谱分析将它们的结构分别鉴定为5-O-(2E,4E,6E)-癸三烯酰基-3,20-O-二乙酰基巨大戟醇、5-O-(2E,4Z)-癸二烯酰基-3-O-乙酰基-20-去氧巨大戟醇、3-O-(2E,4Z)-癸二烯酰基-5b,6b-氧-交京大戟醇、7-苯甲酰氧基-3,5,15-三乙酰基-续随子醇、ent-trachylobane-3-one-17-oic-acid、3α-羟基-对映-阿替斯-16-烯-14-酮、3α,6-二羟基-对映-异海松-7-烯-2,15-二酮、wallichanol A 和 wallichanol B，其中，wallichanol A 和 wallichanol B属于一新骨架类型的五环二萜。除此以外，另有13个已知化合物为首次从该植物中分离得到。 第2部分即第3章，首次概述了大戟属植物中多环二萜的化学和药理研究进展。 This dissertation is composed by two parts. The first part reports the phytochemical investigation of two Tibetan medicine plants, Daphne tangutica Maxim and Euphorbia wallichii Hook. f. Fl. Sixty different compounds including ten new compounds and two novel diterpenoids possessing a new carbon skeleton were isolated and identified. The second part is a review about the progress of studies on the polycyclic diterpeniods of the plant family of Euphorbia. The first part consists two chapters, which expatiate on the isolation and identification of chemical constituents from D. tangutica and E. wallichii. Thirty-one compounds were isolated from the root barks of D. tangutica by methods of column chromatography (silica gel, including reversed phase), preparative TLC and HPLC, and their structure were identified as nine daphnane diterpenes, six lignans, nine cumarin derivatives, five phenylpropanoid derivatives, a steroids and a benzoate on the basis of spectroscopic methods including IR, MS and NMR. Among them, three are new diterpenes with skeleton of daphnane and the structure were determined as 1,a-dihydro-20-palimoyl-daphnetoxin, 1,2a-dihydro-5b- hydroxy-6a,7a-epoxy-resiniferonol-14-benzoate and 1,2b-dihydro-5b-hydroxy- 6a,7a-epoxy-resiniferonol-14-benzoate. In addition, thirteen known ones were isolated from this plant for the first time. Isolation of the roots of E. wallichii yielded thirty compounds, twenty-four of them were elucidated as diterpenoids, which belong to different skeleton types of ingenol, lathyrane, ent-atisane, ent-kaurane, ent-abietane, ent-trachylobane, ent-isopimarane and a new pentacyclic skeleton ent-wallichane respectively. The remains including a cumarine, a triterpenoid, a steroid and three compounds with small molecule. Nine new compounds were characterized as 5-O-deca-2E,4E,6E- trienoyl-3,20-O-diacetylingenol, 5-O-deca-2E,4Z-dienoyl-3-O-acetyl-20- deoxyingenol, 3-O-deca-2E,4Z-dienoyl-jolkinol-5b,6b-oxide, 7-benzoyl-3,5,15- triacetyl-7-hydroxylathyrol, ent-trachylobane-3-one-17-oic-acid, 3α-hydroxy-ent- atis-16-en-14-one, 3α,6-dihydroxy-ent-isopimarane-7-en-2,15-dione, wallichanol A and wallichanol B, respectively, by means of comprehensive spectroscopic analysis. Among them, wallichanol A and wallichanol B were two notable novel pentacyclic diterpenoids processing a new rearranged carbon skeleton. And more, thirteen ones were firstly reported from this plant. The third chapter summarizes the research development on chemistry and pharmacology of polycyclic diterpenes from the plant family of Euphorbia for the first time.

千金子和暖地大叶藓的化学成分研究

本论文由三部分共4 章组成。第一部分阐述了大戟科大戟属传统中药千金子（Euphorbia lathyris L.）化学成分、生物学活性以及千金子化学成分的HPLC、UPLC-MS、GC-MS 分析成果。第二部分介绍了民族药材暖地大叶藓（Rhodobryum giganteum (Schwaegr.) Par.）的化学成分研究和结构鉴定。第三部分概述了大戟属 植物中大环二萜酯的研究进展。 第一章包括1－3 节。在第1, 2 节中报道了千金子（Euphorbia lathyris L.）95% 乙醇提取物的化学成分分离鉴定。我们采用正、反相硅胶柱层析、重结晶等各种分离方法，凭借MS、IR、NMR、X-ray 等现代仪器手段,从中共分离鉴定22 个化合物。其中8 个是高活性化合物前体-续随子烷型大环二萜及3 个巨大戟烷型二萜，还有香豆素、生物碱、甾体等类型，其中完成对5 个大环二萜酯构型的确认，对2 个二萜酯构型进行了修正。第3 节中介绍对千金子化学成分的细胞毒性、α-葡萄糖苷酶抑制活性、P-gp 表达抑制活性的模型筛选结果。 第二章包括3 节，第1 节报道不同产地千金子高效液相色谱定量分析结果。第2 节介绍了各大环二萜酯的HPLC-MS/MS 的分析结果，并且对其质谱裂解规律、UPLC-MS 快速鉴定方法做了进一步讨论。第3 节介绍了千金子挥发油成分分析。采用传统水蒸气蒸馏方法提取千金子中的挥发油，并经气相色谱－质谱联用（GC-MS）技术共分离鉴定出 49 个化合物，占挥发油总量的90.48％。 第三章包括1, 2 两节，第1 节报道了暖地大叶藓化学成分。采用正、反相硅胶，凝胶柱层析等各种分离方法和MS、IR、NMR 等解析手段，共分离鉴定10个化合物，其中一个环肽化合物为新化合物。第2 节介绍了暖地大叶藓挥发油成分分析，共分离鉴定出 52 个化合物，占其挥发油总量的85.67％。 第四章概述了大戟科大戟属植物中大环二萜酯的研究进展。 This dissertation consists of three parts. In the first part, it is elaborated that the phytochemical investigation from the traditional Chinese medicine: seeds of Euphorbia lathyris L.. Biological activity and constituents analysis by HPLC、UPLC-MS、GC-MS were reported. In the second part, it is discussed that the chemical constituents were isolated and identificated from minority nationalitical herb－Rhodobryum giganteum (Schwaegr.) Par.. The third part is a review about the progress of studies on macrocyclic diterpenes from Euphorbia. The first part is composed of 1－3 sections. The section 1and 2 is focused on the isolation and identification of chemical constituents from seeds of E. lathyris. 22 compounds were isolated from the seeds of E. lathyris. by isolation methods of column chromatography (silica gel, including reversed phase) and recrystallisation on the basis of spectroscopic methods including IR, MS, NMR and X-ray. In 8 macrocyclic and 3 ingenane diterpenes, the relative configuration of 5 macrocyclic diterpenes were confirmed, in which 2 were amended. In the third section, cell cytotoxic activity, restraining activity of α-Glucosidase and multidrug resistance (MDR) reversing activity about P-gp were tested. 5 potential revsering reagents were found. The second part is composed of 1－3 sections. In first section it is described that the quality of the chemical constituents of E. lathyris from 5 sources , which were analyzed by high-performance liquid chromatography. In addition, the fractionation rules of some macrocyclic diterpenes were discussed and Ultra Performance Liquid Chromatography/ electrospray ionization mass spectrometry (UPLC-MS) was applied for quick determination of compounds in the second section. In the third section, chemical analysis of the essential oil from seeds of E. lathyris by GC-MS were reported. The essential oil from the seeds of E. lathyris L. in Sichuan was extracted by steam distillation and 49 compounds were isolated and identified from the essential oil by gas chromatography-mass spectrometer (GC-MS). These compounds are accounted for 90.46% of the total essential oil. The second part, including section 4 and 5, is about the phytochemical investigation of R. giganteum. In the former section, ten compounds were isolated and identified. Among them, a new peptide was characterized by spectroscopic analysis including IR, MS and NMR. In the other section, 52 compounds were isolated and identified from the essential oil by gas chromatography-mass spectrometer (GC-MS). These compounds are accounted for 85.67% of the total essential oil. The third part is a review about the progress of studies on macrocyclic diterpenes from Euphorbia.

九寨沟景区旅游活动扰动形成的退化地段植被恢复试验初报

日益增强的旅游活动干扰已成为九寨沟世界自然遗产的有效保护与持续管理不可回避的问题，也已成为当前区域生态保护与经济发展的焦点问题之一。评估乡土植物种的基本特征、质量、种子休眠程度以及萌发能力；筛选适宜的植被恢复乡土物种并选择有效植被恢复技术措施是开展植被恢复试验的重要前提和保障。本文以九寨沟世界自然遗产为例,通过对景区乡土植物种子基本特征的测定以及采用乡土物种作为植被恢复技术试验与恢复技术筛选的试验物种，在景区旅游干扰区的三种生境类型：原始针叶林、混交林和边坡，根据不同的影响因素设计试验，从而探索适宜的恢复措施和植被恢复物种。初步结论如下： 1． 本文研究的28种乡土植物中，17种测定的物种活力较高(>72%)，均具有作为恢复物种的潜力。但28种种子中75%的发芽率为0%。大部分种子存在一定程度的休眠，包括甘肃山楂、称花藤、疏花槭、陇东海棠、球花荚迷、巴东小檗、蔷薇、宝兴栒子、光泽栒子、光枝柳叶忍冬、甘青铁线莲、毛果铁线莲、宽叶旌节花、糙叶五加和独活。因而种子存在深度休眠是乡土物种自然更新和植被恢复的主要障碍，需要根据种子的形态生理特征，寻求打破乡土植物种子休眠的有效方法，提高种子发芽率。 2．低温层积只显著提高了蔷薇、毛果铁线莲、宽叶旌节花和假升麻3种种子的发芽率，也相对较早地提高了陇东海棠、鲜黄小檗和独活的萌发。对于其它物种的种子，低温层积没能有效打破休眠提高发芽率。综合分析结果表明九寨沟28种林下或林缘乡土植物中窄叶鲜卑花、毛果铁线莲、宽叶旌节花、假升麻、陇东海棠、鲜黄小檗和独活等12种可直播或通过低温层积处理后直播用于旅游干扰退化地段的植被恢复中，而其它的种类尚需进一步寻求打破休眠的措施以提高种子发芽能力。 3．在原始林生境下，七筋菇、巴东小檗、耳叶风毛菊、长叶毛花忍冬及独活5种乡土植物种子的出苗能力不高，因此目前急需提出有关提高种子出苗的方法措施。在相同的处理条件下，不同物种出苗数存在着较大的差异，相比而言，巴东小檗、耳叶风毛菊和长叶毛花忍冬种子出苗与幼苗存活较高，对于其环境适应能力较强，因此它们更适宜采用播种的方式应用于九寨沟原始林践踏地段地表的植被恢复实践；而七筋菇和独活在室内和自然气候条件下萌发都很困难，在植被恢复过程中，可考虑采用其它播种方式。而在边坡和混交林生境试验结果表明，供试物种无萌发和出苗现象，这可能跟外界环境条件、干扰和种子命运有关。 4． 本研究中腐殖质、松土和苔藓覆盖处理措施均未能提高物种出苗，且对样方内植被结构以及物种丰富度也无显著影响，其中的影响因素也是多方面的，因此还需进一步研究探索。但腐殖质对幼苗存活能力方面有一定的积极作用。 The increasing tourism disturbance is an unavoidable issue to effective conservation and sustaind tourist management of Jiuzhaigou Nature Reserve. It has become one of the focal problems of regional ecological protect and economic development. Assessing the traits, quality, seed dormancy and germination of native seed and choosing the suitable species and ways for vegetation restoration were the important precondition and guarantee before vegetation restoration. In this paper, as an example to Jiuzhaigou world nature heritage, through the estimation to the basic characteristics of native seeds and the use of native species for the test of vegetation restoration and the choosing of vegetation restoration techniques, in three different habitats being disturbed, including the primitive forest, mixed forest and side slope. According to different factors, designing experiments in order to explore the appropriate measures and species of vegetation restoration . Our results are as follows: 1． There are 77% seeds of the 28 species with high viability(>72%), which had the potential possibility of being restoration species. The germination of 75% of the seed was 0%.Most of the seed was dormant, So dormancy of seed was the barrier for natural regeneration and vegetation restoration, Further research is needed on investigating the other more effective methods to release seed dormancy of these native species in the future. 2． Cold stratification did not release seed dormancy of most species. In our study, there are only 3 species including Clematis peterae var. trichocarpa, Stachyurus chinensis and Aruncus sylvester (P<0.05) with germination percentage increased by cold stratification. By comprehensive analysis, the result shows: In 28 undergrowth native seeds, Sibiraea angustata, Clematis peterae var. trichocarpa, Stachyurus chinensis, Aruncus Sylvester, Malus kansuensis, Berberis diaphana,and Heracleum hemsleyanum could be used to vegetation restoration by sowing directly or sowing after cold stratification in degenerate gland being disturbed by turism, and othes seed of 28 were needed to search other methods to release seed dormancy for advancing the ability of germination. 3．In the habitat of primitive forest, the ability of emergence of the native species Clintonia udensis, Berberis henryana, Saussurea neofranchetii, Lonicera trichosantha var.xerocalyx and Heracleum hemsleyanum was low, so it is urgently needed to search about the methods of advancing emergence. In the sametreatment, the number of emergence of different species was very different. Relatively speaking, the emergence and seedling survival of the species Berberis henryana, Saussurea neofranchetii and Lonicera trichosantha var.xerocalyx was higher, and the adaptability of the species was better, so they were more suitable for vegetation restoration on trampling-induced degraded patches of primitive forest in Jiuzhaigou; But the germination of Clintonia udensis and Heracleum hemsleyanum was both difficult in laboratory and natural conditions, so it could be considered to apply other sowing methods. However, the result showed that: applied species didn’t germinate or emergent in the habitat of side slope and mixed forest, which could be related to external environment conditions, interference and the fate of the seed. 4．In this study, humus, scatification and bryophyte cover measures didn’t advance the emergence of the species or the structure of vegetation and richness in plot significantly, the impact factors of which were many, therefore further research is needed . However, humus had a certain positive effect on the ability of seedling survival.

藏药大果大戟中的巨大戟烷型二萜酯类成分

目的研究藏药大果大戟Euphorbia wallichii丙酮提取物中的化学成分。方法用溶剂提取，常规硅胶柱色谱分离和葡聚糖凝胶Sephadex LH-20纯化，采用化学方法和现代波谱分析技术（包括IR，HRESIMS，HRSIMS，1D和2DNMR等）鉴定其化学结构。结果从青海产大果大戟根的丙酮提取物中分离得到6个化合物，分别鉴定为：羊毛甾醇（lanosterol，Ⅰ）、巨大戟二萜-20-肉豆蔻酸酯（ingenol-20-myristinate，Ⅱ）、巨大戟二萜-3-肉豆蔻酸酯（ingenol-3-myristinate，Ⅲ）、没食子酸（gallicacid，Ⅳ）、1-O-a-L-阿拉伯糖-（1→6）-β-D-葡萄糖苷-3，7-二甲基-2-烯-7-羟基-辛醇（1-O-a-L-arabinofuranosyl-（1→6）-β-D-glucopyranosyl-3，7-dimethyl-oct-2-en-7-ol，Ⅴ）、1-O-没食子酰葡萄糖苷（1-O-galloyl-β-D-glucose，Ⅵ）。结论巨大戟烷型二萜酯类化合物Ⅱ和Ⅲ为新化合物，其他化合物均为首次从该植物中分离得到，单萜二糖苷类化合物Ⅴ系首次在该属中发现。

马先蒿属6个种的核型与进化研究

分析和报道了马先蒿属（Pedicularis Linn.）分布于青藏高原东北部６个特有种的核型，并根据核型及其有关参数，分析和比较了该６种马先蒿核型的不对称性和相对进化程度。６个种的体细胞染色体数目都是２ｎ＝１６。核型分别为：绵德马先蒿P.pilostachya Maxim.，核型公式Ｋ（２ｎ）＝１６＝４ｍ＋１２ｓｍ，染色体相对长度组成２Ｌ＋６Ｍ２＋６Ｍ１＋２Ｓ，核型不对称系数Ａｓ·Ｋ＝６５．２９％，属于２Ａ型；青海马先蒿P.przewalskii Maxim.，Ｋ（２ｎ）＝１６＝８ｍ（ＳＡＴ）＋４ｓｍ＋２ｓ＋２ｔ，２Ｌ＋８Ｍ２＋２Ｍ１＋４Ｓ，Ａｓ·Ｋ＝６５．０２％，２Ｂ型；华马先蒿P.oederi Vahl.var.sinensis(Maxim.)Hurus.，K(2n)=16=12m+4sm，2L+4M2+8M1+2 S，As·K=59.89%，2B型；粗野马先蒿P.rudis Maxim.，K(2n)=16=4m+10sm+2st，4L+4M2+4M1+2 S，As·K=68.10%，2B型；甘肃马先蒿P.kansuensis Maxim. Subsp. kansuensis，K(2n)=16=6m+6sm+2st+2t，2L+6M2+6M1+2 S，As·K=68.92%，2A型；藓生马先蒿P.muscicola Maxim. K(2n)=16=8m(SAT)+8sm，2L=8M2+4M1+2S，As·K=62.64%，2B型。根据这6个种的核型和已有资料，认为该属的染色体基数x=8，极少数种有多倍体。通过对以上6种核型及进化程度的比较，该属核型变异较大，以中部着丝粒染色体为组成基础（较原始的种类，如华马先蒿和绵穗马先蒿），端部或近端部着丝粒染色体存在与否与该属内种的进化程度有关。核型不对称性所表示的进化程度似乎与花冠的演化有联系。