红花铁线莲(Clematis coccinea)的组织培养

红花铁线莲为毛茛科铁线莲属藤本植物、具有较高的观赏价值,也是极好的垂直绿化材料。但因其结实少,依靠种子繁殖很困难,而用其它方法繁殖,繁殖系数也很低。由于不能获得大量苗木,所以长期以来,红花铁线莲不能得到广泛栽培应用。随着组织培养技术的发展,通过植物组织离体培养来进行快速繁殖,目前在很多种园林植物上得到了应用。但红花铁线莲的组织培养,尚未见报道。本文简要报道了铁线莲茎、叶     

Somatic embryogenesis in Clematis integrifolia × C. viticella

Nodal sections of Clematis integrifolia × C. viticellawere cultured at 24 °C in darkness on a medium containing the salts and vitamins of Murashige and Skoog (1962) supplemented with sucrose (30 g l⁻¹), 2 μM 6-benzylaminopurine (BAP) and 0.5 μM 4-indole-3-yl-butyric acid (IBA). These explants produced a white friable callus on their surfaces. Somatic embryos were first observed on the surface of the callus after eighteen months in culture. Thereafter, pieces (125 mm³) of the embryogenic mass were subcultured every 4 weeks and continued to produce somatic embryos over the two-year period of observation. A mean (± SE) of 64±4 cotyledonary stage embryos were observed per 125 mm³ callus four weeks after transfer to fresh medium. Comparison of the effect of growth regulators on conversion showed that the highest frequency of unipolar and bipolar conversions occurred on medium containing 10 μM kinetin and 1 μM BAP. Shoots were excised from embryos and inserted in Sorbarods saturated with liquid medium containing 0.05 μM IBA and 0.05 μM 1-naphthalenacetic acid. After four weeks 88% had formed root and survived transfer to compost in a greenhouse. This revised version was published online in June 2006 with corrections to the Cover Date.     

Notes on the genus Clematis (Ranunculaceae) (Ⅱ)

(1) The systematic positions of Clematis potaninii Maxim., C . heynei Rau, C. trichotoma Nakai, C. apiculata Hook. f. & Thoms, C. theobromina Dunn, C. sigensis Engler,C. hedysarifolia DC., and C. dissecta Baker, and the specific status of C. trifida Hook, C.pimpinellifolia Hook., C. oligophylla Hook., and Clematopsis lineariloba Hutch. are discussed; (2) New classifications for Clematis parviloba Gardn. & Champ., C. puberula Hook. f. & Thoms., and sect. Naraveliopsis Hand.-Mazz. are provided; (3) Clematis subsect. Potaninianae M. Johnson, C. heynei M. Johnson, C. petelotii Gagnep. and some other names are reduced to synonymy; (4) Two subsections, 4 series, 4 species, and 4 varieties are described as new; (5)Four new ranks and 4 new combinations are made.     

Notes on the genus Clematis (Ranunculaceae) (Ⅳ)

(1) Clematis taiwaniana Hayata, C. grata Wall. var. ryukiuensis Tamura, C . sikkimensis (Hook. f. & Thoms. ) Drumm. ex Burkill, C. connata DC. var. bipinnata M. Y. Fang, C. kilungensis W. T. Wang & M. Y. Fang etc. are reduced to synonymy. (2) New classifications for sect. Tubulosae Decne., C. siamensis Drumm. & Craib and C. connata DC. are proposed. (3) 3 series, 3 species and 4 varieties are described as new. (4) 6 new combinations and 3 newranks are made.     

Notes on the genus Clematis (Ranunculaceae) (Ⅲ)

(1) The evolutionary trends of sepals and stamens of the genus Clematis are discussed; (2) New classifications for sect. Cheiropsis DC. and sect. Aspidanthera Spach are proposed; (3) One subsection, 13 series, 5 species and 4 varieties are described as new; (4) Six new ranks and2 new combinations are made.     

Notes on the genus Clematis (Ranunculaceae) (Ⅰ)

( 1 ) Some taxonomical problems of the genus Clematis mainly about misidentifications are discussed, and some treatments including the reinstatement of Clematis montana var. brevifoliola Kuntze, C. apiifolia var. biternata Makino, C. subumbellata Kurz, C. goudotiana Planch. & Triana, C. insidiosa Baill., C. kockiana Schneid. and C. longicauda A. Rich., and the reduction of subsect. Africanae M. Johnson, C. umbellifera Gagnep., C. pubescens Benth., C. rhodocarpa Rose, C. edentata Baker, C. stoltzi Engler, C. tibetana ssp. vernayi var. dentata Grey-Wilson, C. clarkeana var. stenophylla Hand.-Mazz., C. subfalcata Pei ex M.Y. Fang, C. angustifoliola W. T. Wang, C. dasyandra var. polyantha Finet & Gagnep. etc are given. (2) The new diagnoses for the two subsections of the sect. Meclatis are provided; C. sericea H.B. K. ex DC. and C. grossa Benth. are treated as two varieties of one species; and a new classification of the infraspecific taxa of C. hirsuta Perr & Guill. is made. (3) one subsection, one series, eight species and one variety are described as new. (4) The new occurrences of C. montana var. brevifoliola Kuntze in southern Xizang, China, Nepal, Bhutan and northern Myanmar, C. burmanica Lace in southwestern Yunnan, C. armandii Franch. in Assam, India and northern Myanmar,and C. yui W. T. Wang in northern Myanmar are reported.     

A revision of Clematis sect. Atragene （Ranunculaceae）

Clematis sect. Atragene is revised in this paper based on the examination of a large number of herbarium specimens, extensive field observations, and morphometric analyses. Brief taxonomic history and geographical distribution of the section are given, the relationships among the species are discussed, and the evolutionary trends of some characters in the section are evaluated. The staminodes of the plants in this section may have evolved from the outer stamens with petaloid filaments and gradually disappearing anthers. Subsequently, they may have evolved in two different ways. One possibility is that the staminodes elongate and become lanceolate, as long as sepals, and their apices turn into attenuate. The other is that the staminodes are spathulate, but not elongating, as long as stamens, and their apices turn into retuse from obtuse and rounded. The evolutionary trend of sepals may be from thin to thick in texture, and the veins from non-prominent to prominent. As a result, five new series are established and nine species, two subspecies and nine varieties （including three new ranks） are recognized in this section. An identification key is provided, and each taxon is described and illustrated. Clematis sibirica and Clematis ochotensis are treated as subspecies of Clematis alpina due to their subtle differences and lack of, or few, overlapping distributions. Clematis fusijamana and Clematisfauriei are recognized as varieties of C. alpina ssp. ochotensis for the continuous variation of the velutinous strips on the sepal margins. Clematis iliensis is treated as variety of C. alpina ssp. sibirica for the continuous variation of leaf division types. Extensive variations in sepal color and basal caruncle size support degrading Clematis chiisanensis as a variety of Clematis koreana. The North American ser. Occientales may be primitive, whereas ser. Macropetalae may be the most advanced taxon in this section. Ser. Alpinae and ser. Koreanae are closely related to each other. However, the systematic position of ser.     

Mandshunosides C–E from the roots and rhizomes of Clematis mandshurica

Three new triterpene saponins, mandshunosides C–E (1–3) together with four known triterpene saponins (4–7) were isolated from the roots and rhizomes of Clematis mandshurica. Their structures were elucidated on the basis of spectroscopic evidence and hydrolysis products. Those compounds showed inhibitory activities against two human colorectal cancer cell lines HCT-116 and HT-29.     

A revision of Clematis sect. Aspidanthera s.l. （ Ranunculaceae ）

对毛茛科铁线莲属Clematis L.的单性铁线莲组sect. Aspidanthera Spach s.l.进行了全面修订,确定此组共含72种和15变种,这些种被归类于6个亚组中,其中包括首次描述的1系、5种和2变种,以及做出的2新等级.对单性铁线莲组的分类学简史和地理分布做了介绍.写出了组、亚组、系的形态特征和地理分布,分亚组检索表及各亚组的分种检索表;以及各种植物的形态描述、地理分布、生长环境等,并附有多幅插图.在研究了此组全部种类的标本之后,观察到此组几个重要形态特征的演化趋势(1)萼片在数目上由4枚演变到8枚,在开展方向上由平展到直上展,在形状上由长圆形到狭条形,在长度上由比雄蕊稍长到2-4倍长于雄蕊,其卷叠式由镊合状到次生的覆瓦状;(2)花药药隔顶端由不具突起到具短或长的突起;(3)雌花退化雄蕊的数目由多数到定数、少数,以至完全消失;(4)花序自当年生枝的叶腋发生演变到与数叶同自老枝的一腋芽中发出.根据上述演化趋势推断本组各亚组间的亲缘关系如下subsect. Dioicae (34种,广布于北美洲和南美洲)的花构造(萼片4,镊合状排列,平展,通常呈长圆形,稍长于雄蕊或近等长,外面边缘被短绒毛;雄蕊花药呈长圆形,药隔顶端无突起;雌花具多数退化雄蕊;花序自当年生枝的叶腋发出)与具两性花的威灵仙组欧洲铁线莲亚组sect. Clematis subsect. Clematis 的花极为相似,区别主要在于本亚组的花为单性,由此判断subsect. Dioicae可能是单性铁线莲组sect. Aspidanthera的原始群,源出于欧洲铁线莲亚组.本组的第二亚组subsect. Lasianthae(2种,分布于北美西南部)与subsect. Dioicae 在亲缘关系上极为相近,区别只在于其花序或具花当年生枝与数叶一同由老枝的一个腋芽中发出,此亚组当是从subsect. Dioicae衍生出的一个小群.第三亚组subsect. Microphyllae(7种,特产澳大利亚)也与subsect. Dioicae相近缘,但此亚组的萼片变狭长,多呈条形或狭条形,常2-4倍长于多少变短的雄蕊,雌花的退化雄蕊数目变少,16-2枚,根据这些进化特征,推测此亚组也源出于subsect. Dioicae.第四亚组subsect. Aristatae (16种,分布于澳大利亚、新几内亚及邻近岛屿)与subsect. Microphyllae 在亲缘关系上相近,但本亚组的花药药隔顶端具短或长的突起而不同,根据此进化特征,推测本亚组系由后者演化而出.第五亚组subsect. Hexapetalae (11种,特产新西兰)的花构造与分布于澳大利亚的subsect. Microphyllae相似,但其萼片为覆瓦状排列,外面边缘不被短绒毛,在多数种多于4枚,为5-8枚而不同.据Godley 的研究,本亚组中的C. afoliata的花有4枚萼片,排成2轮,每轮的2枚萼片均为近镊合状排列;另外,在C. paniculata花的6枚萼片中,4枚为覆瓦状排列,其他2枚有时内向镊合状排列.从上述情况可见此亚组的萼片覆瓦状卷叠式可能是由镊合状卷叠式演变而来的一种次生现象,并由此推测,此亚组可能与subsect. Microphyllae相同,也源自美洲的subsect.Dioicae.最后一个亚组subsect. Insidiosae(2种,特产马达加斯加)的雌花萼片直上展,退化雄蕊完全消失,具有这些进化特征,当是单性铁线莲组的进化群,可能源出自具定数或少数退化雄蕊的subsect. Microphyllae.     

Aethusifolins A–D: Four new components from a traditional Mongolian medicinal herb Clematis aethusifolia Turcz

Four new components named aethusifolins A–D (1–4), together with ten known (5–14) were isolated from the dried aerial parts of a traditional Mongolian medicinal herb Clematis aethusifolia Turcz. The planar structures were established based on extensive spectroscopic analysis (HRMS, 1D and 2D NMR), and the absolute configurations were determined by modified Mosher’s method, hydrolysis method. The cytotoxicities of isolated compounds against a panel of five human solid tumor cell lines were assayed. Compounds 5, 8, and 13 showed moderate cytotoxicity against A-375 with IC₅₀ values of 15–18 μM, while compound 8 also showed cytotoxicity against SH-SY5Y with IC₅₀ values of 20 μM.