大戟属植物亲缘关系的ISSR分析

利用ISSR标记对9种大戟属植物的亲缘关系进行了分析.结果表明:筛选出的24条ISSR引物共扩增251条带,其中多态性条带248条,多态率为98.8%.9种大戟属材料的遗传相似系数在0.51～0.69之间,平均为0.62.利用UPGMA法将9种大戟属植物分别聚为3个类群,第一类群包含地锦亚属与一品红亚属的5个种及大戟亚属的绿玉树,第二、第三类群分别包含大戟亚属中的3个种.ISSR标记获得的聚类结果与根据形态特征获得的分类结果有很大的差异.     

利用RAPD和ISSR标记分析青麻种质遗传多样性

利用RAPD和ISSR分子标记检测来自全国11个省(市)的48份青麻种质资源的遗传多样性,为青麻资源利用和育种提供分子生物学依据.在48份青麻种质资源中,17条RAPD引物扩增出191条带,多态条带比率为87.43%;9条ISSR引物扩增出82条带,多态条带比率为88.89%,扩增产物片段大小都在0.1～3.0kb之间.两种分子标记的结果呈显著正相关(r=0.80).基于UPGMA聚类,野生种和栽培种各自聚为相应的类别.     

大明竹属遗传多样性ISSR分析及DNA指纹图谱研究

利用对竹类有较好多态性的18条引物及已优化的ISSR反应体系和扩增程序,分析大明竹属25种竹的遗传多样性。研究结果：共扩增出重复性好的多态位点高达88.3%,平均每个引物扩增8.61个,DNA分子量在160-3000 bp,此25种竹类的平均遗传距离为0.5006,变异幅度为0.1486-0.7191,说明大明竹属具有高的遗传多样性,种间遗传相对复杂。ISSR结果聚类分析,在遗传距离0.5396处将25种竹划分为3类,与形态分类结果大致一致,说明ISSR技术能精确检测大明竹属部分植物的遗传多样性及亲缘关系,有助于该属的分类。试验用U807、U815、U835、U836、U840、U841、U844 7条引物构建大明竹属25种竹的数字指纹识别码,为大明竹属部分植物的分类及种质鉴定提供参考。     

兰属14种植物遗传多样性RAPD及AFLP分析

用RAPD和AFIJP技术分析了14种兰属植物的遗传多样性。RAPD筛选出12个随机引物和AFLP3对选择性引物组合均扩增出了丰富的多态性片段。分析结果按UPGMA类平均法进行聚类,所得到的RAPD和AFLP聚类结果基本一致,显示建兰与墨兰,寒兰与峨眉春蕙以及大雪兰与独占春之间的亲缘关系最近。     

兰属14种植物遗传多样性RAPD及AFLP分析

用RAPD和AFLP技术分析了14种兰属植物的遗传多样性.RAPD筛选出12个随机引物和AFLP 3对选择性引物组合均扩增出了丰富的多态性片段.分析结果按UPGMA类平均法进行聚类,所得到的RAPD和AFLP聚类结果基本一致,显示建兰与墨兰,寒兰与峨眉春蕙以及大雪兰与独占春之间的亲缘关系最近.     

不同龙眼资源遗传多样性的SCoT和ISSR 比较分析

应用SCoT和ISSR标记对36份龙眼资源和1份近缘种龙荔的遗传多样性进行分析。结果表明:12对SCoT引物共扩增出127条带,平均每条引物扩增10.58条带;15条ISSR引物共扩增出117个条带,平均扩增7.8条带。UPGMA聚类结果表明:SCoT标记和ISSR标记分别在相似系数0.672和0.685水平上,均可将37份材料分成6大类群,SCoT和ISSR标记均适用于龙眼材料的遗传多样性分析,如果将两种标记的数据进行综合分析,可以缩小单一标记的误差。研究结果为龙眼种质资源的保存和利用提供了重要的依据。     

中国斑茅种质资源分子多态性分析

采用ISSR分子标记技术,对采自我国8省区的30个斑茅[Erianthus arundinaceus (Retz.) Jesw.]无性系的分子多态性进行了分析, 共扩增出87条多态带, 平均每个引物扩增的多态带数为 5.1条, 多态性条带比率(PPB)为 64.89%,多态信息量(PIC)为0.58,说明我国斑茅具有较丰富的遗传多样性.根据研究结果进行聚类和主成分分析,可将30个斑茅无性系归为4大类,同一地区的斑茅无性系基本聚在同一类,呈现出一定的地域性分布规律.     

五种缘毛类纤毛虫遗传关系的ISSR研究

应用ISSR分子标记揭示了5种缘毛类纤毛虫(Carchesium polypinum,Epistylis chrysemydis,E.plicatilis,E.urceolata和Vorticella campanula)的遗传关系.从34个引物中筛选到13个多态性高的引物进行研究.得到的遗传距离(0.666 7～1.000 0)显示ISSR技术具有较高的分辨率.依据构建的UPGMA聚类树,V.campanula首先和其他种类分开;C.polypinum和E.chrysemydis聚在了一起;在3种Epistylis纤毛虫中,E.plicatilis和E.urceolata聚在了一起.对比由核糖体小亚基RNA基因序列构建的系统发育树,发现:1)ISSR引物在缘毛类纤毛虫基因组中可以得到多态扩增;2)C.polypinum与Epistylis的关系近于V.campanula,在缘毛类纤毛虫分类中,单生或群居是重要的系统发育特征;3)E.plicatilis和E.urceolata的关系近于E.chrysemydis.在Epistylis属纤毛虫中,柄的中空与否是一个有用的系统发育和分类特征.本研究表明ISSR方法在纤毛虫相近和相似种遗传关系研究中是一种新的有用方法.     

青岛市19个樱花品种的RAPD分析

采用改良的CTAB法提取19个樱花品种的基因组DNA.利用RAPD技术对19个樱花品种进行亲缘关系鉴定和品种分类研究.从60条10 bp随机引物中筛选出32条扩增效果较好的引物进行扩增,共扩增出533条带,其中多态性带为406条,多态率达76.17%.根据扩增结果进行UPGMA聚类分析,聚类结果将19个品种分为2大类群,第1类群主要为杂交樱系;第2类群为日本晚樱系,根据樱花的重瓣性、枝姿和花色又可分为不同的亚类群、类和亚类.结果表明应用RAPD技术对樱花分子水平的分类结果与传统分类学的结果基本一致,进一步证明种源、重瓣性、枝姿和花色都可作为樱花品种分类的重要指标.     

SRAP、ISSR技术的优化及在甘蓝类植物种子鉴别中的应用

将SRAP与ISSR 2种分子标记技术应用于8种甘蓝类植物（Brassica oleracea L.）的种子鉴别中。先以甘蓝（Brassica oleracea var. capitata）基因组DNA为模板,通过对SRAP、ISSR反应体系中各影响因素的逐一筛选,优化了甘蓝类植物SRAP、ISSR反应体系。进而采用30个SRAP引物组合和15个ISSR引物对白甘蓝、皱叶甘蓝、红甘蓝、羽衣甘蓝、花椰菜、青花菜、抱子甘蓝、球茎甘蓝的基因组DNA进行了PCR扩增,结果表明：M3E5与M4E5两个SRAP引物组合可以在8种甘蓝类植物之间显示较高的多态性;844和888两个ISSR引物也可在8种甘蓝类植物之间产生很好的多态,特别是844引物单独应用即可区分所有材料。     

江西主要山脉春兰野生居群遗传结构与分化

利用ISSR分子标记对江西省主要山脉的21个春兰(Cymbidium goeringii(Rchb.f.)Rchb.f.)居群进行居群遗传结构研究。结果显示,利用14个筛选的引物共扩增出139条条带,其中多态性条带118条,多态性条带百分率(PPL)为84.89%。21个居群的Nei s基因多样性(He)为0.2292,Shannon指数(I)为0.3613。AMOVA分析表明,春兰居群间变异占50.79%,居群内变异占49.21%,居群间的遗传分化大于居群内的分化。STRUCTURE群体遗传结构和UPGMA聚类分析均表明,江西主要山脉的春兰居群存在地理隔离和生境片断化。推测江西春兰曾广泛分布于罗霄山脉和武夷山脉,受第四纪冰期影响,春兰群体因气候剧烈变化而骤减,仅在山脉间适宜的环境中得以保存并繁衍至今,罗霄山脉和武夷山脉是春兰最主要的两个冰期避难所。综合遗传多样性与居群遗传结构特点,建议在遗传多样性较高的石城(SC)、宜丰(YF)、贵溪(GX)居群设点进行就地保护;对资源破坏严重的大余(DY)和井冈山(JGS)居群实行迁地保护。     

兰属(Cymbidium)5种植物叶结构特征

采用光学显微镜和体视镜,对兰属5种植物（春兰、蕙兰、建兰、寒兰、墨兰）的叶结构特征（叶脉结构、叶表皮结构、解剖结构）进行了观察和测量。结果显示,兰属5种植物的叶脉结构相似,叶表皮结构和解剖结构存在较大差异,其中最主要的差异是皮下纤维束的多少和边缘角质层锯齿形态。依据叶结构特征聚类分析结果,5种兰可分为春兰组、建兰组和墨兰组3组。本研究表明叶结构特征对兰属5种植物的分类具有重要意义。     

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.     

国产七种和一变种兰属植物的核型研究

对国产7种和1变种兰属植物,即邱北冬蕙兰Cymbidium qiubeiense、春兰C. goeringii、春剑 C．longibracteatum、线叶春兰C．serratum、蕙兰C.faberi、送春C.fabri var．szechuanicum、寒兰C．kanran、莎 叶兰C．cyperifolium 的核型进行了研究。具体结果如下：邱北冬蕙兰为2n=40=24m+12sm+4st;蕙兰为2n=40=30m+8sm+2st;送春为2n=40=26m+l0sm+4st;寒兰为2n=40=26m+12sm+2st;莎叶兰为2n=40=24m+12sm+4st;春兰为2n=40=24m+l0sm+4st+2t;春剑为2n=40=24m+l0sm+6st。线叶春兰为2n=40=28m+l0sm+2st。线叶春兰中偶尔发现染色体数有2n=41,43,60,80。     

分子标记鉴定常山胡柚优良基因型的初步研究

本研究利用RAPD和ISSR分子标记对常山胡柚的优良基因型进行鉴定,并探讨常山胡柚的起源。从100个RAPD引物中筛选出12个多态性引物用于正式扩增,共得到117条DNA带,其中多态性DNA带64条,占扩增片段的54．7%;从105个ISSR引物中筛选出11个多态性引物用于正式扩增,共得到94条DNA带,其中多态性DNA带58条,占扩增片段的61．7%。RAPD和ISSR分析揭示了常山胡柚及其近缘种的一些特异性条带。ISSR共产生了15条特异条带,RAPD共产生12特异性条带。实验数据用AMOVA软件计算遗传距离,用NTSYS-pc软件构建UPGMA聚类树状图。结果显示,所有的基因型及不同种之间均能够彼此区分,分析得到的指纹图谱对常山胡柚种和基因型的鉴定具有潜在的应用价值,可用于优良基因型的鉴定。聚类分析结果显示常山胡柚和甜柚聚为一枝,确定了甜柚是杂交亲本之一,但是常山胡柚和柚的遗传距离较远,说明常山胡柚可能是甜橙、柚和柑桔属其他种的多重自然杂交的结果。     

六种国产兰属植物的核型研究

首次研究了6种国产兰届植物的染色体形态和核型。果香兰(Cymbidium suavissimum)核型为2n＝40＝30m 10sm;碧玉兰(C．lowianum)为2n=40=26m 12sm 2st;文山红柱兰(C．wenshanense)为2n＝40=28m 10sm 2st;虎头兰(C．hookerianum)为2n＝40＝30m 8sm 2st;独占春(C．eburneum)为2n＝40＝36m 4sm莎草兰(C.elegans)为2n＝40＝28m 8sm 4st。结合形态学特征和已有的核型资料,对兰属植物的核型进化进行了初步的讨论。     

应用RMAPD分子标记技术研究兰属植物间的亲缘关系(简报)

兰属是兰科兰族萼足兰亚族的一个属。全世界约有兰属植物70种,主要分布于亚洲热带与亚热带地区,向南到澳大利亚北部。根据Du Puv＆Cribb分类系统,我国有49种兰属植物和一些变种,产于秦岭以南各省。我国兰花的市场交易额巨大。这是由于兰属植物不仅具较高的观赏价值。还具重要的药用价值。     

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。     

Anther Wall of Cymbidium Goeringii with Special Reference to the Tapetum

The structure of the anther wall in Cymhidum goeringii (Rchb. f.)Rchb.f, was followed through two developmental stages using light and electron microscope: The peculiar anatomical pattern of the anther wall and the cytological characteristics of its tissues are described. Tapetum is the most notable feature in the anther wall. The specialized characteristics of the tapetal cells may be summerized as followings: (1) The tapetum may be distinguished into outer and inner tapetum, but they constitute the continuous layers surrounding the pollinium. The inner tapetum is derived from the connective tissue. (2) The outer and inner tapetum are composed of 2--3 cell layers. They have the same ultrastructural features and functions. (3) There are many lipid-containg plastids in the tapetal cells during their developmental stage. This is the main source of lipid bodies in the tapetal cells during their final developmental stage. The lipid-containing plasmids are derived from the extension of the nuclear membrane. (4) After the formation of tetrads, the secretion and the autolysates from of the tapetal cells not only deposition the surface of the pollinium to form the film, but also flow into the inner region of the polinia between the retrads contributing to their adhesion. The results of this study provide some new data of the tapetal structure and function in the angiosperms.