三七连作土壤浸提液对其根腐病菌的化感效应

采用甲醇、乙酸乙酯和水分别按液土比3∶1、6∶1和9∶1对三七连作土壤进行浸提,研究其浸提液对三七根腐病菌生长和种群数量的影响。结果表明: 平板培养72 h后,甲醇、乙酸乙酯和水浸提液对尖镰孢菌和腐皮镰孢菌的菌丝生长均表现为化感促进,其中,甲醇和乙酸乙酯浸提液对尖镰孢菌的化感效应指数为14.0%～19.8%和16.2%～20.2%,高于水浸提液的8.9%～14.2%,且不同浸提比例之间差异不显著;而甲醇浸提液对链格孢菌菌丝生长表现为化感抑制,且抑制效应在浸提比例为3∶1时最强,达到-33.2%～-38.5%,乙酸乙酯和水浸提液对链格孢菌菌丝生长无显著影响。土壤培养4周后,甲醇、乙酸乙酯和水浸提液均能增加土壤中尖镰孢菌的数量,其中,水浸提液的增加效应最强,达到每克干土3.49×10⁶～9.56×10⁶拷贝数,高于甲醇(每克干土1.68×10⁴～6.73×10⁴拷贝数)和乙酸乙酯浸提液(每克干土1.77×10⁴～3.72×10⁴拷贝数),且这种增加效应随浸提比例的增加逐渐减弱;水浸提液和低浸提比例的甲醇提取液均能增加土壤中腐皮镰孢菌的数量,而重茬土壤浸提液对链格孢菌的数量影响不显著。因此,三七连作土壤浸提液对根腐病菌如尖镰孢菌和腐皮镰孢菌均表现出明显的化感促进效应,这可能是再植三七易发生根腐病等土传病害的原因之一。     

三七(Panax notoginseng)根残体化感自毒效应研究

为研究三七(Panax notoginseng(Burk)F.H.Chen)采收过程中残留须根的化感自毒效应,采用土培和水培2种方法,按不同比例添加三七须根粉碎物,检测根残体作用下土培三七土壤中皂苷的动态变化及水培三七根部形态结构变化。结果显示,土培条件下,随着须根粉碎物处理时间的延长,土壤中皂苷成分种类增加、总皂苷含量减少。水培条件下,随着处理时间的延长,添加须根粉碎物处理后的三七根尖细胞壁增厚,细胞中出现菌丝体;随着处理时间及处理浓度的增加,细胞开始皱缩甚至破碎,细胞中无完整细胞器结构,三七根部细胞结构差异明显。研究表明三七采收过程中残留在土壤中的须根腐解释放的化学物质可能是导致三七自毒效应的因素之一。     

三七环二肽成分和人参内酰胺成分

From the roots of Panax notoginseng fourteen cyclodipeptides 1-14 were isolated including one new compound (1),seven new natural compounds (4-10) and six known compounds (2-3,11-14) together with one known other compound 15.The chemical structure of 1 was elucidated as cyclo-(Leu-Thr) based on spectral methods.From the roots of Panax ginseng five known lactams (16-20) includingpyrng lutamic acid were isolated together with butyric diacid,daucosterol and sucrose.The primary binactivity test showed that pyroglutamic acid and its n-butyl derivative have weak Ca^2 antagonistic activity.     

三七植物GAPDH基因克隆及序列分析

采用改进的异硫氰酸胍法提取高质量三七总RNA,运用RT-PCR方法克隆了三七GAPDH基因的部分序列,长度为627 bp,编码209个氨基酸,为半定量RT-PCR以及Real-time RT-PCR等技术在三七植物研究中的应用提供了条件.氨基酸序列比对结果表明,该序列与拟南芥、烟草、人参的GAPDH氨基酸序列的同源性分别为91%、93%、95%;核苷酸序列的同源性分别为82%、84%、85%.     

三七花蕾中黄酮类成分的分离与结构鉴定(英文)

通过硅胶柱层析,制备性薄层色谱分离,从三七花蕾中分离得到2个黄酮化合物,依据理化性质及光谱数据鉴定为山奈酚-3-O-α-L-鼠李糖甙(1)和山奈酚-3-O-(2’’,3’’-二反式对羟基桂皮酰基)-α-L-鼠李糖甙(2)。这两个黄酮均首次从该植物中分离得到。     

Biotransformation of Saponins by Endophytes Isolated from Panax notoginseng

The biotransformation of the major saponins in Panax notoginseng, including the ginsenosides Rg1, Rh1, Rb1, and Re, by endophytes isolated from P. notoginseng was studied. One hundred and thirty‐six endophytes were isolated and screened for their biotransformational abilities. The results showed that five of the tested endophytes were able to transform these saponins. These five strains were identified based on their ITS or 16S rDNA sequences, which revealed that they belonged to the genera Fusarium, Nodulisporium, Brevundimonas, and Bacillus genera. Ten transformed products were isolated and identified, including a new compound 6‐O‐[α‐L ‐rhamnopyranosyl‐(1→2)‐β‐D ‐glucopyranosyl]‐20‐O‐β‐D ‐glucopyranosyldammarane‐3,6,12,20,24,25‐hexaol ( 3 ), and nine known compounds, compound K ( 1 ), ginsenoside F2 ( 2 ), vinaginsenoside R13 ( 4 ), vinaginsenoside R22 ( 5 ), pseudo‐ginsenoside RT4 ( 6 ), (20S)‐protopanaxatriol ( 7 ), ginsenoside Rg1 ( 8 ), vinaginsenoside R15 ( 9 ), and (20S)‐3‐O‐β‐D ‐glucopyranosyl‐6‐O‐β‐D ‐glucopyranosylprotopanaxatriol ( 10 ). This is the first study on the biotransformation of chemical components in P. notoginseng by endophytes isolated from the same plant.     

复合酶解法提取三七皂苷的实验研究

以三七提取液中总皂苷的含量和提取物得率为指标,考察了乙醇回流法、渗漉法、纤维素酶解法、果胶酶解法、复合酶解法的优劣,并采用单因素法和四因素（纤维素酶用量、果胶酶用量、酶解温度、乙醇浓度）三水平正交设计法对复合酶解法提取工艺条件进行优选,得到如下较理想的提取工艺条件：纤维素酶用量为15U／g（生药）、果胶酶用量为140U／g（生药）,酶解pH值为4．5,酶解温度为50℃,乙醇浓度为80％,提取时间为2．5h。所得三七提取液中总皂苷的含量为12．01％,提取物得率为35．82％。     

Studies on Cell Suspension Culture of Panax notoginseng

The optimum period of harvesting in cell suspension culture of Panax notoginseng was 30 days. The time course of sap.nih formation proceeded almost in parallel with the cell growth. An appropriate concentration of oligosaccharms from Panax ginseng, precursor fames.l, mannffol and lysozymum which were added into tbe culture broth 10 days before harvesting, all induced saponin biosynthesis significantly. Oligosaecharins at a concentration of 15ppm(it increased 1 fold of saponin yield, and increased 22.7%(of cell growth rate compared with those of the control) and farnesol at 200ppm(it increased 70.5% of sap.nih yield and stimulated cell growth compared with those of the control) were more effective.     

Studies on Fermentation Culture of Cells of Panax notoginseng

The saponin content of Panax notoginseng cell cultures-was 11.14% of dry weight, the saponin yield was 1513.3mg· L-1, and yield of cell cultures was 13.58g dry wt · L-1 per month in fermentation culture, which were all better than those obtained from in suspension culture. Increasing inoculum quantity could obviously increase growth rate, saponin content and yield of cell cultures. An aeration rate of 0.8vvm was optimal for fermentation culture of the cells. The pH value of the culture broth went down from 5.80 to 3.92 gradually and never returned in fermentation culture of P. notoginseng cells.     

土生曲霉转化三七中药材的研究

从土壤真菌中筛选出直接转化中药材三七化学成分的菌株YM31966,经鉴定该菌株为土生曲霉(Aspergillus terreus).以固态转化方式,结合化学提取分离方法,通过高效液相色谱、核磁共振及质谱等波谱检测,该菌株转化三七产物由三七皂苷nR2 、RX1和人参皂苷Rg1、Rd、Rh1、Rh4构成主体成分,而原三七成分Rb1、Rc、Re和R1、R3,R6等物质被分解.结果表明,土生曲霉是一株能转化中药材三七的微生物,它具有改变原三七化学成分,形成新化合物,以及提高某些原化合物成分含量的作用.     

Dammarane-type triterpene extracts of Panax notoginseng root ameliorates hyperglycemia and insulin sensitivity by enhancing glucose uptake in skeletal muscle

Skeletal muscle is an important organ for controlling the development of type 2 diabetes. We discovered Panax notoginseng roots as a candidate to improve hyperglycemia through in vitro muscle cells screening test. Saponins are considered as the active ingredients of ginseng. However, in the body, saponins are converted to dammarane-type triterpenes, which may account for the anti-hyperglycemic activity. We developed a method for producing a dammarane-type triterpene extract (DTE) from Panax notoginseng roots and investigated the extract’s potential anti-hyperglycemic activity. We found that DTE had stronger suppressive activity on blood glucose levels than the saponin extract (SE) did in KK-A^y mice. Additionally, DTE improved oral glucose tolerance, insulin sensitivity, glucose uptake, and Akt phosphorylation in skeletal muscle. These results suggest that DTE is a promising agent for controlling hyperglycemia by enhancing glucose uptake in skeletal muscle.     

Effects of oligosaccharins on callus growth and saponin content of Panax notoginseng

This work provides some evidences for the saponinproduction of Panax notoginseng callus by using biologi-cally active,wall-related oligosaccharins.In anappropriate concentration,three kinds of oligosaccharinsstimulated saponin formation or callus growth.Theconcentration of DO,GO and CO for saponin productionof Panax notoginseng callus culture were 15ppm,15ppmaud 20ppm respectively by comparing saponin yield.Itwas very obvious for DO to increase saponin contentwhen the concentration was 10ppm,and for GO tostimulate callus growth when the concentration was20ppm.It would be a good way to produce saponin byusing oligosaccharins in large scale culture in thefuture.     

三七生物资源研究与利用进展

三七为五加科人参属植物,因其在抗血栓、抗高血压、保肝、活血化瘀等方面具有显著疗效而闻名中外,是我国独具特色的生物资源,具有十分广阔的产业化前景。本文从三七的植物化学与药理学、基因组学研究和遗传改良等方面综述了目前的研究现状,分析了三七生物资源利用过程中存在的问题,浅谈了未来的研究与利用展望。     

三七叶、人参叶和西洋参叶皂苷类成分的研究(英文)

三七叶、人参叶和西洋参叶其皂苷类成分相近,但专属性成分各异,皂苷类成分的分布比例也各不相同。本文建立了HPLC-UV法测定上述皂苷成分的方法,经过方法学考察,各种皂苷成分精密度好、加样回收率高,方法可靠。11种皂苷成分总含量顺序为:西洋参叶>人参叶>三七叶;二醇组皂苷成分含量:西洋参叶>三七叶>人参叶;三醇组皂苷成分含量:人参叶>西洋参叶>三七叶。西洋参叶中二醇组皂苷和人参叶中三醇组皂苷含量明显高于其他。西洋参叶中人参皂苷Rb3和Rd的含量之和占11种皂苷成分的60%以上。鉴于其中人参皂苷的高含量,三七叶、人参叶和西洋参叶应该作为皂苷来源得到充分利用;不同的皂苷成分有不同的药理活性,应基于它们的皂苷组成和比例选择性进行研究和开发。     

三七叶化学成分的进一步研究

从三七叶乙醇提物中分离到16个化合物,分别鉴定为人参皂甙(ginsenoside)Rh2(1),F2(4),Rg3(5),Rg1(7),Rd(8),Re(11),Rb3(13),Rb1(14),Rc(15),七叶胆皂甙(gypenoside)XIII(2),IX(9),XVII(10),三七皂甙(noto-ginsenoside)R1(12),Fa(16),甘草素(liquiritigenin)(3),以及芹糖甘草甙(liquiritin apioside)(6)。其中化合物1,2,3和6首次分离自该植物中,化合物1~8及10~12首次从三七叶中分离到。研究结果进一步证实,三七叶以含原人参二醇型皂甙为主,同时含有微量的原人参三醇型皂甙和黄酮类化合物。     

三七中三七素的分离纯化与结构分析

以三七(Panaxnotoginseng)为材料,经醇提、水提,得到三七素粗提物,用乙醇沉淀、正丁醇萃取去除皂苷类成分,经阳离子交换树脂柱层析,得到三七素.三七素经初步纯化含量从4.43%提高到13.98%.经过离子交换树脂柱分离后含量提高到96.46%.通过重结晶得到的无色板状晶体三七素的结构经过红外光谱,核磁共振光谱及质谱加以鉴定。     

三七栽培居群遗传多样性的EST-SSR分析

利用EST-SSR标记分析比较6个文山三七居群的遗传多样性和遗传结构,并以2个近缘种为对照进行聚类分析。17对人参属EST-SSR引物在8个居群中共检测到205个多态位点。在居群水平上,6个三七栽培居群的平均多态性信息量为0.729,Ne i′s基因多样性为0.1568,Shannon多样性指数为0.2466,居群间的遗传分化系数为0.2350。研究显示三七具有丰富的遗传多样性,但彼此间具较高的基因交流,居群间遗传分化水平低,遗传差异主要存在于居群内;另外,遗传相似度和聚类分析显示,三七及其近缘种被划分为3个大类群,6个三七栽培居群被分为3个小类群,三七与珠子参有较近的遗传关系,而与屏边三七的遗传距离较远。     

三七地下部分皂甙成分的HPLC比较研究

应用HPLC定量分析方法,对三七(Panax notoginseng)地下部位的皂甙成分进行分析,通过比较人参皂甙Rg1,Rb1,Re,Rd和三七皂甙R1等5种主要皂甙成分和总皂甙的含量变化,探讨不同部位和组织中皂甙成分的分布规律。结果表明在三七药材的不同商品等级中,人参皂甙Rg1和Rb1的含量以主根60头为最高,5个主要皂甙的总含量也明显高于其他的等级;根茎的生物产量只为全根的18%,皂甙含量占25%以上;主根和根茎中韧皮部的生物产量和总皂甙的含量均高于木质部;二年生三七的生物产量及皂甙含量均较三年生三七低得多。不同表型三七的皂甙组成也有区别。     

三七总皂苷原粉和超微粉的理化性质比较研究

通过对药用植物三七总皂苷原粉和超微粉的粉体粒度、电位、显微结构、红外光谱、溶解速度这几项理化性质的研究,判定两种粉体的优劣,为三七总皂苷超微粉的市场推广提供依据。实验结果表明,三七总皂苷原粉经纳米化处理后成为三七总皂苷超微粉,其化学结构没有发生变化,但显微结构从条状的晶体变为由纳米球紧密排列的不规则形态,其粉体平均粒径也从1 122.4 nm缩小到153.4 nm,完成了从微米到纳米的转变,其水溶液也变为稳定的胶体溶液。运用高效液相色谱法,在模拟人体环境的条件下,发现三七总皂苷超微粉比三七总皂苷原粉早1 min完全溶解。说明三七总皂苷超微粉比三七总皂苷原粉颗粒更小,更易溶于水,更易与人体吸收。