Pollen placement and reproductive isolation between two brazilianPolygala species (Polygalaceae)

Polygala vauthieri andP. monticola var.brizoides have secondary pollen presentation from a basket-like structure on the style apex. This basket is loaded after the first visit by a bee. Pollen reception, therefore, can precede the issue of pollen. A sticky stigma secretion glues the pollen from the basket under the head of the bee visitor in an exactly predetermined spot on the left side only. This position mostly forms a kind of safe spot, where the bee can not remove the pollen. The exact position on the bee's head is determined by the species specific distance between style tip and nectary in the visited flower. In this way the two sympatric species deposit the pollen 2 mm apart on the visitor and so can avoid hybridization pollination, while being visited by the same group of bees.     

Chemical constituents isolated from Polygala japonica leaves and their inhibitory effect on nitric oxide production in vitro

A methanolic extract of dried leaves of Polygala japonica Houtt (Polygalaceae) significantly attenuated nitric oxide production in lipopolysaccharide-simulated BV2 microglia. Five anthraquinones chrysophanol (1), emodin (2), aloe-emodin (3), emodin 8-O-β-D-glucopyranoside (4) and trihydroxy anthraquinone (5), and four flavonoids kaempferol (6), chrysoeriol (7), kaempferol 3-gentiobioside (8) and isorhamnetin (9) were isolated from the methanolic extract using bioactivity-guided fractionation. Among them, compounds 1–4, 6 and 7 showed significant inhibitory effect on lipopolysaccharide-induced nitric oxide production in BV2 microglia at the concentrations ranging from 1.0 to 100.0 μM.     

中药远志的研究进展

对近年来远志的资源、商品、鉴别、化学成分、药理活性及栽培方面进行了系统的综述,并就商品远志在市场上存在的问题及发展前景进行了探讨。     

人参总皂苷和远志总苷配伍对小鼠抗抑郁作用

目的确定人参总皂苷（GTS）和远志总苷（PTG）抗抑郁配伍剂量比例,形成参远苷（SGY）制剂,为研制开发抗抑郁新药提供实验数据。方法采用析因设计方法,GTS和PTG均选取25、50、100 mg/kg三个剂量,按照完全随机的两因素3×3实验设计,得到参远苷的9个不同配比组。C57BL/6J小鼠（用于悬尾实验）和ICR小鼠（用于强迫游泳实验）随机分为对照组、阳性药组（10 mg/kg,帕罗西汀用于悬尾实验;阿米替林用于强迫游泳实验）及参远苷的9个不同配比组,共11组。灌胃给药7 d,观察各组对悬尾或强迫游泳实验小鼠不动时间的影响,并通过空场实验观察参远苷各配比对小鼠自主活动的影响。参远苷与单味GTS、PTG的抗抑郁作用比较实验中,C57BL/6J小鼠（用于悬尾实验）和ICR小鼠（用于强迫游泳实验）随机分为对照组、阳性药组（10 mg/kg,帕罗西汀用于悬尾实验;阿米替林用于强迫游泳实验）、参远苷低中高剂量组（37.5、75、150 mg/kg）、GTS和PTG各四个剂量组（均为18.75、37.5、75、150 mg/kg）,共13组。灌胃给药7 d,观察各组对悬尾或强迫游泳实验小鼠不动时间的影响。结果析因设计结果表明,GTS和PTG之间无交互效应。参远苷配比组75 mg/kg（GTS∶PTG为50∶25）及150mg.kg-1（GTS∶PTG为100∶50）显著并稳定缩短悬尾或强迫游泳不动时间（P〈0.05）,得出GTS和PTG的剂量配伍比例为2：1。空场实验结果显示,参远苷各配比对小鼠运动总路程无影响。参远苷与单味GTS、PTG抗抑郁作用比较实验结果显示,GTS 75、150 mg/kg缩短悬尾实验小鼠不动时间（P〈0.01,P〈0.05）,对强迫游泳实验小鼠不动时间无影响。PTG 18.75、37.5 mg/kg缩短强迫游泳实验小鼠不动时间（P〈0.01,P〈0.05）,对悬尾实验小鼠不动时间无影响。参远苷75、150 mg/kg缩短悬尾实验小鼠不动时间（P〈0.05）。同时,参远苷37.5、75 mg/kg缩短强迫游泳实验小鼠不动时间（P〈0.01,P〈0.05）。结论 GTS和PTG以2：1的比例形成的参远苷（SYG）制剂,质量容易控制,作用机制多样,符合抑郁症复杂多样的发病机制,优于单味GTS和PTG,进一步研究之后,有可能成为新型的抗抑郁药物。     

Anti-inflammatory activities of triterpenoid saponins from Polygala japonica

Bioassay-guided investigation was performed to identify the active constituents from a methanol extract of Polygala japonica, a folk medicinal plant widely used in China to treat inflammatory diseases. The n-BuOH and EtOAc fractions of the P. japonica methanol extract, which show significant anti-inflammatory activity in in vivo test, were further subjected to column chromatography to afford six triterpene glycosides, marked here as saponins 1–6. All compounds were evaluated for their anti-inflammatory activity in the carageenan-induced mouse paw edema test, and saponins 1, 4 and 5 showed significantly anti-inflammatory effects on both phases of carageenan-induced acute paw edema in mice. Saponin 5 was also found to significantly inhibit the production of inflammatory mediators – nitric oxide (NO) in LPS-stimulated RAW264.7 macrophages, with no obvious effects on macrophage viability.     

A Taxonomic Study on the Genus Polygala L. in China

The present paper deals with the history of taxonomy, groos morphology, pollen morphology, distribution, system and taxonomic treatment of the genus Polygala L. from China. Three subgenera, 4 sections, 41 species and 8 varieties are recognized in this treatment, of which 2 sections are described as new. The system of Chinese species of Polygala L. is proposed as follow: Subgen. 1. Chamaebuxus (DC.)Duchartre (Typus: Polygala chamaebuxus L.) Sect. 1. Arillus S. K. Chen, sect. nov. (Typus: Polygala arillata Buch.-Ham. ex D. Don). This section consists of about 20 species, distributed in the tropics and subtropics of Asia and Africa, with 7 species found in South China. Subgen. 2. Pseudosemeiocardium (Adema) J. Chetek et B. Krisa( Typus: Polygala furcata Royle). Sect. 1. Villososperma C. Y. Wu et S. K. Chen (Typus: Polygala wattersii Hance ). There are 3 species in this section, distributed in S. China and N. Vietnam. Sect. 2. Saxicola S. K. Chen, sect.nov. (Typus: Polygala saxicola Dunn). This section consists of 8 species, among which P. tricornis Gagnep. and P. saxicola Dunn are distributed in both Vietnam and China, and the other 6 species are endemic to China. Sect. 3. Pseudosemeiocardium ( Typus: Polygala furcata Royle). This section consists of about 7 species, distributed in SW China, extending from Indo-China Peninsula, southward to Malay, the Philippines, Indonesia and New Guinea, westward to the southern slope of the Himalayas and N. India, northward to Japan. Subgen. 3. Polygala (Typus: Polygala vulgaris L. ). 400 species or more belong to this cosmopolitan subgenus. Most species are found in America and Africa, with 18 species discovered in China. Taxonomic evidence: The characters of flowers, fruits and seeds, the indumentum of seeds and presence or absence of caruncles are stable and also correlated with one another. There is a certain combination of the above-mentioned characters in a given group, which provide reliable evidence for the infrageneric division. A good example is the Polygala arillata group, grown under the tropical and subtropical forests, which has large, yellow flowers, with sepals fallen after blossom. The flower has carinas with a cristate appendix, which is of 2-9 long narrow pieces. The seeds are spherical, with a hooded caruncle. Its fruits are of annuloid stripes. (Fig. 1). The Polygala tenuifolia Willd. group, cosmopolitan in distribution, has a middle-sized, purple or yellow flower with persistent sepals. Cristate appendix of carina is usually fimbricate. The seed in the group is oblong or subovoid, with a trilobate caruncle. Carpels of the fruits of this group are without annuloid stripes(Fig. 3). The third group, Polygala saxicola group, is between the two as indicated above. The group has a small, yellow or occasionally purplecolored flower, with sepals fallen after blossom or sometimes with a persistent outer sepal. The cristate appendix of carina is lamellar or cucullate. The seed of the group is sometimes with pubescences and hooded caruncles sometimes with hirtoselike villoses and no caruncle (Fig. 2) pollen morphology and systematic treatments: The pollen morphology of the domestic Polygala seems to support division of Polygala L. into three groups as follows: A. Pollen grains subspheroidal, 10-19-colpate, colpi usually rather wide, relatively psilate in the polar area; B. Pollen grains reniform, 22-26-colpate, sculptural in the polar area; C. Pollen grains long-spheroidal or subspheroidal, 9- 23-colpate, with long and deep colpi, which usually extend to the relatively psilate polar area. The pollen morphology is naturally correlated with the morphology of flowers, fruits and seeds. Based on these, three subgenera and four sections no subdivision in Subgen. Polygala)are recognized.     

Oligosaccharide polyester and triterpenoid saponins from the roots of Polygala japonica

An oligosaccharide polyester, 1-O-(E)-p-coumaroyl-(3-O-benzoyl)-beta-D-fructofuranosyl-(2-->1)-[6-O-(E)-feruloyl-beta-D-glucopyranosyl-(1-->2)]-[6-O-acetyl-beta-D-glucopyranosyl-(1-->3)-(4-O-acetyl)-beta-D-glucopyranosyl-(1-->3)]-4-O-[4-O-alpha-L-rhamnopyranosyl-(E)-p-coumaroyl]-alpha-D-glucopyranoside (polygalajaponicose I), and four triterpenoid saponins, 3beta, 23, 27-trihydroxy-29-O-beta-D-glucopyranosyl-(1-->2)-beta-D-glucopyranosyl-olean-12-en-28-oic acid (polygalasaponin XLVII), 3-O-beta-D-glucopyranosyl presenegenin 28-O-alpha-L-rhamnopyranosyl-(1-->2)-beta-D-fucopyranosyl ester (polygalasaponin XLVIII), 3-O-beta-D-glucopyranosyl presenegenin 28-O-beta-D-galactopyranosyl-(1-->5)-beta-D-apiofuranosyl-(1-->4)-beta-D-xylopyranosyl-(1-->4)-alpha-L-rhamnopyranosyl-(1-->2)-beta-D-glucopyranosyl ester (polygalasaponin XLIX) and 2beta, 27-dihydroxy-3-O-beta-D-glucopyranosyl 11-oxo-olean-12-en-23, 28-dioic acid 28-O-beta-D-galactopyranosyl-(1-->5)-beta-D-apiofuranosyl-(1-->4)-beta-D-xylopyranosyl-(1-->4)-alpha-L-rhamnopyranosyl-(1-->2)-beta-D-fucopyranosyl ester (polygalasaponin L), in addition to five known compounds have been isolated from the roots of Polygala japonica.     

Phytochemical data parallel morpho-colorimetric variation in Polygala flavescens DC.

Abstract

Phytochemical data, integrated with other sources of information, represent a valuable tool helping to solve different kinds of taxonomic problems in plant systematics. In the present study, a comparative investigation, in order to clarify the systematic relationships of the three subspecies currently recognized within the Italian endemic Polygala flavescens, was carried out. Preliminarily, a morphometric and colorimetric analysis, in order to test the degree of morphological distinctiveness among the taxa, was performed. Then, a phytochemical analysis based both on volatile and non-volatile compounds was obtained. Concerning the morpho-colorimetric analysis, our results confirm most of the characters as useful to discriminate the three subspecies. In addition, some volatile and non-volatile compounds are good taxonomic markers. Morpho-colorimetric variation is clearly paralleled by phytochemical results, confirming the value of this kind of data to infer relationships in plant systematics. Based on these results, we support a taxonomic treatment at subspecific level for the involved taxa. Finally, based on the most significant morphological characters, a revision of herbarium specimens allowed to redefine the distribution pattern of the three subspecies. Accordingly, the range of P. flavescens subsp. maremmana is limited to Mt. Argentario (southern Tuscany) only. A key is also reported for the identification of the three subspecies.     

黄花倒水莲内生真菌生物活性评价及HNLF-44菌株鉴定

为充分开发黄花倒水莲(Polygala fallax)的内生真菌资源，获得具有抗植物病原真菌、抗氧化活性的内生真菌，该文以黄花倒水莲内生真菌为研究对象，使用平板对峙法检测内生真菌对6种植物病原真菌的抑菌活性，测定内生真菌发酵液的DPPH清除自由基能力和总还原能力，评价内生真菌的抗氧化活性，并对具有强抑菌活性和抗氧化活性的菌株进行形态和ITS鉴定。结果表明：(1)黄花倒水莲内生真菌中有2株内生真菌对香蕉专化尖孢镰刀菌、柑橘树脂病菌、叶点霉菌、香蕉具条叶斑病菌、茄病镰刀菌、三七根腐病菌具有明显的抑菌活性，抑菌率在50.3%～91.4%之间，其中HNLF-5对柑橘树脂病菌的抑菌率为73.2%,HNLF-44对香蕉专化尖孢镰刀菌抑菌率为91.4%。(2)内生真菌发酵液具有良好的抗氧化活性，DPPH清除率均在80%以上，总还原能力吸光值范围为0.279 2～0.748 8。(3)HNLF-44菌株为链格孢属真菌。该研究表明，药用植物黄花倒水莲内生真菌具有较好的生物活性，为后续从黄花倒水莲内生真菌中挖掘潜在新型抑菌活性和抗氧化活性物质奠定了基础。