春兰ב寒香梅’试管开花诱导及其生理基础

以春兰×寒香梅杂交种(Cymbidium goeringii×Cymbidium ‘Han Xiang Mei’)为材料,MS+琼脂4 g·L-1+蔗糖20 g·L-1+椰汁100 mL·L-1为基础培养基,通过单因素试验,探讨细胞分裂素(TDZ/6-BA)和无机盐浓度(P、K)对其试管花诱导的影响,测定花芽诱导的蛋白质、可溶性总糖含量与超氧化物歧化酶(SOD)活性及激素水平(IAA、ABA)。结果表明,添加0.2 mg·L-1 TDZ和2 mg·L-1 6-BA的花芽诱导率最高,分别为14.33%和14.00%;无机盐浓度3P/3K和3P/5K的培养基花芽诱导率较高,分别达16.67%和11.33%;花芽诱导最佳培养基为MS(3P, 3K)+TDZ 0.2 mg·L-1+椰汁100 mL·L-1+琼脂 4 g·L-1+蔗糖20 g·L-1,花芽诱导率可达34%左右。生理生化指标检测显示,可溶性蛋白、可溶性总糖含量及SOD活性与花芽诱导率呈正相关;稳定的内源激素IAA和ABA含量对花芽诱导有一定的积极作用,含量过高对花芽诱导有抑制作用。     

51个春兰(Cymbidium goeringii)品种的AFLP遗传多样性分析

为了揭示春兰品种的遗传多样性和亲缘关系,为春兰种质资源的有效利用和开发提供依据,采用AFLP技术对51个春兰品种进行了遗传多样性分析,经筛选得到了8对条带清晰、多态性高的引物,共扩增出1315条DNA片段,其中多态性条带为1217条,平均1对引物扩增条带164条,多态性带152条,多态性位点频率为92.5%,表明春兰品种具有丰富的遗传多态性。49个品种含有特有带。51个品种间遗传相似系数变化范围为0.501~0.716,聚类分析表明,51个春兰品种共分为5个类群,来自同一地区的品种并没有聚在一起,表明春兰品种的遗传背景混乱。AFLP分子标记技术能有效地分析春兰品种的遗传多样性和亲缘关系。     

春兰内生真菌的分离及其抑菌活性的初步研究

采用平板分离法从皖西大别山野生兰花的根、茎、叶中分离内生真菌32株,用琼脂块法对获取的菌株进行抑菌活性筛选,其中有4种兰花内生真菌对供试菌株有抑菌作用,占总分离菌株的12.50%,对抑菌活性较强的一株内生真菌进行形态学鉴定,结果表明它属于无孢类群。     

春兰根中可分泌吲哚乙酸的内生细菌多样性

植物内生细菌可通过分泌吲哚乙酸(Indole-3-aceticacid,IAA)等方式促进植物生长。本研究以温室盆栽春兰(Cymbidium goeringii)为材料,采用分离培养方法对春兰根中可分泌IAA的内生细菌多样性进行了研究。从春兰根组织中共分离纯化得到了256株内生细菌,其中57株具有分泌IAA的能力,占总菌数的22.3%。根据ARDRA(amplified ribosomal DNA restriction analysis)及16SrDNA系统发育分析结果,将57株内生细菌划分为25个组,分属于6大类群,分别为变形菌门的α-变形菌纲(35.1%)、γ-变形菌纲(14.0%)和β-变形菌纲(8.8%)、厚壁菌门(33.3%)、放线菌门(7.0%)及拟杆菌门(1.8%)。其中变形菌门的α-变形菌纲和厚壁菌门为优势类群,类芽孢杆菌属(Paenibacillus)为优势菌属,且为高产IAA的主体菌属。另外,测序结果显示有4个菌株的序列与已知细菌的最高序列相似性低于97.0%,可能为潜在的新种或新属。研究结果表明春兰根中分泌IAA的内生细菌具有丰富的多样性。这一结果可为研究和开发植物促生细菌提供基础资料...     

不同消毒和培养基条件对兰花菌根真菌分离的影响

研究了不同的消毒时间和培养基类型对兰花菌根真菌分离效果的影响,以期获得兰花菌根真菌的最佳分离方法.采用了次氯酸钠和酒精作为消毒试剂,发现依次浸没于75 %酒精60 s、2 %次氯酸钠60 和75 %酒精30 s的组合消毒条件下分离效果最佳;选择了3种培养基（PDA、CZA和MEA）,结果表明MEA培养基的分离效果最为稳定.通过组织分离法分离兰花菌根真菌,筛选得到最佳的分离培养条件,旨在为兰花菌根真菌的多样性以及共生效应研究提供研究基础.     

春兰AGL6-3基因的克隆及实时定量表达分析

该研究以春兰(Cymbidium goeringii)正常花及其2枚侧瓣突变成唇瓣样的花瓣(简称:蝶花)为实验材料,采用RT-PCR结合RACE技术从春兰中分离出AGL6-3基因。序列分析表明,AGL6-3基因在春兰正常花和蝶花中序列相同,该基因含有1个720bp长的开放阅读框(ORF),共编码239个氨基酸。系统进化树进行分析表明,该基因属于MADS-box基因中AP1/AGL9组的AGL6同源基因,命名为CgAGL6-3(基因登录号为KU058679)。实时荧光定量表达分析表明,CgAGL6-3在春兰正常花和蝶花各花器官中表达存在差异。在正常春兰中CgAGL6-3基因在唇瓣中强烈表达,在主萼、侧萼及蕊柱中表达量较低,在侧瓣中则微乎其微;而在蝶花中CgAGL6-3基因在唇瓣中强表达,侧瓣中的表达量次之,在主萼、侧萼和蕊柱中的表达量相近且均较低。研究说明,CgAGL6-3基因可能在春兰蝶花侧瓣唇瓣化的过程中扮演重要角色。     

Pollination biology of Cymbidium goeringii (Orchidaceae) in China

The genus Cymbidium comprises three subgenera with ca. 50 species. Interactions between pollinators and plants have been studied in the two subgenera Cymbidium and Cyperorchis, but only a few studies in the subgenus Jensoa have been reported. Here we report on the reproductive characteristics of C. goeringii (in sub-genus Jensoa) in three populations in the southwest of Hunan Province, China, during the winter from December 2005 to March 2006. Floral phenological and morphological features, behavior of visitors, the breeding system, and fruit sets under natural conditions were studied. The flowers of C. goeringii were strongly fragrant, but did not present any rewards to the visitors. The flowering period of C. goeringii in the studied populations lasted about 40 days, and most flowers (about 60%) opened within 30 days. Flowers opened immediately when temperature increased obviously and reached to about 16 ℃. The flowering time of the pollinated flowers, unpollinated flow-ers and the flowers with pollinarium removed were similar. Two bees of Apidae, Apis cerana cerana (honeybee) and Anthophora melanognatha, were observed visiting flowers of C. goeringii, but only the honeybees performed as pollinators. The honeybees mostly visited the orchid flowers at 10:00–17:00 on sunny days with temperature above 10 ℃. A total of only thirteen visits were observed during 20 days of observation, indicating pollinators were rare. Honeybees directly landed on the upper surface of the labellum and inserted their heads into the flowers between column and labellum, while the hind legs trod on the surface of the curved downward mid-lobe of label-lum. When a honeybee landed on the labellum of a flower, the labellum moved up and down slightly. After the honeybee entered the flower further, its head might touch the foot of the column. At this time, the body of the honeybee was parallel with the upper surface of the labellum. Then the honeybee used its front legs to scratch on the callus ridges on the upper surface of the labellum, and its hind legs hooked the edges of the side lobe of label-lum, trying to exit forcibly from the flower. During exiting process, sometimes the honeybee’s body was arched owing to tension. In this case, the surface of the scutellum came into close contact with the viscidium and then pollinaria, together with the anther cap, were removed. When this honeybee visited next flower, the pollinaria would be adhered to the stigma when it arched its body during the exiting process. Three plant species flowered synchronously with C. goeringii in the studied areas, but their flowers were different with C. goeringii in color or shape. Because C. goeringii is rewardless to pollinators, the flowers probably attract visitors by olfactory stimu-lus. Breeding system experiments showed no spontaneous autogamy and pollination success relying on pollinators in C. goeringii. Artificial pollination resulted in 90% fruit set by induced autogamy, 100% by pollinating within clone, and 100% by xenogamous pollination, respectively. These results indicate that C. goeringii is highly self-compatible and the fruit production is pollen limited. Because pollinators are essential for fruit set of C. goeringii in natural habitats, protection of wild honeybee populations or apiculture is likely a simple but effective strategy to maintain the orchid populations.     

湖北野生春兰资源遗传多样性的ISSR分析

近年来,由于过度采挖和生境片断化,湖北野生春兰(Cymbidiumgoeringii)资源正面临着灭绝的危险。本文采用ISSR分子标记技术对湖北省内的11个春兰野生居群共325个个体的遗传多样性水平及居群遗传结构进行了研究。11个引物共检测到127个位点,其中112个为多态位点,占88.19%。POPGENE分析结果表明:与其他兰科植物相比,春兰具有丰富的遗传变异(在物种水平上,He=0.2628,Ho=0.4037;在居群水平上,PPL=63.06%,He=0.1945,Ho=0.2958)。Nei's遗传多样性分析和AMOVA分析表明,各居群间产生了一定程度的遗传分化(GST=0.2440,FST=0.2207)。居群间一定程度的遗传分化可能是由生境破坏和基因流障碍(Nm=0.8828)引起。UPGMA聚类分析可知,与其他居群相比,恩施地区的5个居群,即巴东(BD)、福宝山(FBS)、宣恩(XE)、毛坝(MB)、来凤(LF)优先聚成一支,而大悟(DW)居群单独聚为一支。同时本研究也表明,虽然春兰自交亲和,但在自然界中其繁育系统还是以异交为主。鉴于春兰资源的遗传多样性现状和其相应的居群遗传结构,我们建议在遗传多样性较高的来凤(LF)、京山(JS)、大悟(DW)居群设立保护点进行就地保护;而对资源破坏最为严重的毛坝(MB)和宣恩(XE)居群要实行迁地保护。     

Allozyme Diversity and Population Structure in Korean Populations of Cymbidium goeringii (Orchidaceae)

Cymbidium goeringii (Orchidaceae). Mean observed population heterozygosity (H _op=0.181), expected heterozygosity (H _eP=0.240), and total genetic diversity (H _T =0.351) were all higher than average values for species with similar life-history characteristics. A considerable deficit of heterozygotes relative to Hardy–Weinberg expectations was detected (77% of fixation indices were positive) with a mean F _IS of 0.278. On average, 90% of the total genetic diversity was found within populations (mean G _ST = 0.098). An indirect estimate of the number of migrants per generation (Nm=2.30, calculated from G _ST , Nm=8.48, calculated from the frequencies of unique alleles) indicated that gene flow has been extensive in C. goeringii. Results of a spatial autocorrelation analysis based on allele frequencies of 16 populations revealed a trend with respect to the distance classes (0<63 km, six significant positive values; beyond that distance, 12 significant negative values). It is highly probable that C. goeringii has a history of relative large, continuous populations that had greater chance for gene movement among adjacent populations via large numbers of small seeds, following the last Ice Age. Factors contributing to the high levels of genetic diversity found within populations of C. goeringii include its large and continuous populations, its long-lived perennial habit, its widespread geographical distribution, and its ability for relatively long distance seed movement by wind. Received 18 June 1998/ Accepted in revised form 18 November 1998     

Genetic diversity of wild Cymbidium goeringii (Orchidaceae) populations from Hubei based on Inter-simple sequence repeats analysis

Cymbidium goeringii is a diploid and nonrewarding,bumblebee-pollinated species,which is distributed in China,Japan and Korea Peninsula.This species is now highly endangered due to the mass collection and forest clearance in China.In the present study,we investigated the distribution of genetic variation within and between eleven populations of Cymbidium goeringii in central China by using Inter-simple sequence repeats (ISSR) markers.Eleven primers produced a total of 127 clear and reproducible bands of which 112 were polymorphic.High genetic diversity was detected in Cymbidium goeringii for both population level (P = 63.1%;He = 0.194 5) and species level (P = 88.2%;He = 0.262 8).A higher level of genetic differentiation was detected among populations (GST = 0.244 0,FST = 0.220 7)with Nei's Gsr analysis and analysis of molecular variance (AMOVA),and no correlation was found between geographical and genetic distance.Genetic drift rather than gene flow played an important role in forming the present population structure of Cymbidium goeringii.Limited gene flow among populations and gene drift increase the extinction risk of local populations.Some conservation concerns are therefore discussed together with possible strategies for implementing in situ and ex situ conservation.