芍药属牡丹组基于形态学证据的系统发育关系分析

对芍药属牡丹组Paeonia L.sect.Moutan DC.（全部野生种）40个居群进行了基于形态学证据的系统学分析,试图建立组内种间的系统发育关系。利用PAUP （4.0）计算机程序分别构建了建立在25个形态学性状基础上的所有研究类群的距离树（UPGMA、NJ）和最大简约树（MP）。所得树的拓扑结构基本一致,差异只发生在距离树和简约树之间,在由形态和细胞学关系都很近的5个种（牡丹P.suffruticosa、矮牡丹P.jishanensis、卵叶牡丹P.qiui、紫斑牡丹P.rockii和凤丹P.o     

基于多基因序列和形态性状的牡丹组种间关系

牡丹被认为是中国的国花,具有很高的医学、观赏和经济价值.野生牡丹被认为是栽培牡丹的野生祖先,因此弄清牡丹组的种间亲缘关系具有重要的理论和实践意义.由于受到信息量的限制,根据单基凼数据或形态数据往往无法对牡丹组的种间关系得到明确的结果.本研究用12份样品代表野生牡丹组(Paeonia section Moutan DC.,Paeoniaceae)8个种,利用包括核基因(Adh1A、Adh2和GPAT)和叶绿体基因(trnS-trnG和rps16-trnQ)的DNA序列以及形态性状的多套数据来探讨野牛牡丹的种间关系.合并分析得到具高支持率的牡丹组物种间的系统发育关系.结果表明,芍药属牡丹组8个野生种分为两个亚组,即肉质花盘亚组subseet.Delavayanae和革质花盘亚组subsect.Vaginatae.肉质花盘亚组包括滇牡丹P delavayi和大花黄牡丹P.ludlowii;革质花盘亚组包括其余6个种.革质花盘亚组中,四川牡丹P.decomposita ssp.decomposita和紫斑牡丹P. rockii ssp. rockii关系密切;卵叶牡丹P.qiui和矮牡丹P. jishanenMs关系密切;银屏牡丹P. suffruticosa ssp.yinpingmudan与风丹P. ostii关系 密切,并且后两个分支为姊妹群.     

基于ITS和matK基因对牡丹组序列分析及其亲缘关系的研究

以芍药属牡丹组全部9个野生种、5个紫斑牡丹栽培品种及3个中原牡丹品种为试材,进行核糖体内转录间隔区（ITS）和叶绿体成熟酶K （matK）基因片段测序分析,探讨ITS和matK序列为牡丹组所有野生种种间关系提供分子证据。从GeneBank中选取了1个牡丹及3个外类群芍药、川赤芍和草芍药的ITS及matK序列。对试验样品进行DNA提取、PCR扩增并双向测序得到44条序列,人工校正后将所得44条序列进行比对;计算碱基组成频率、变异位点、简约信息位点数、转换/颠换比率、种内及种间遗传距离,以邻接法进行系统发育分析。结果表明,牡丹组所有个体ITS序列长度在750~800 bp,含有86个多态位点,74个简约信息位点,转换/颠换比率（R）为1.2;而matK序列含有20个简约信息位点,转换/颠换比率（R）为1.7。ITS序列分析将牡丹组野生种分为两大枝,稷山牡丹、紫斑牡丹、卵叶牡丹和杨山牡丹聚为一枝,狭叶牡丹、滇牡丹、黄牡丹和大花黄牡丹聚为另一枝,这两枝分别与革质花盘亚组和肉质花盘亚组相对应,而四川牡丹位于革质花盘亚组最底端,支持前人研究将四川牡丹归为革质花盘亚组。matK序列分析的牡丹组野生种间遗传距离结果不理想,未能清晰的表明野生种之间的亲缘关系。由此说明,ITS序列更适合牡丹组野生种间亲缘关系的研究分析。     

基于系统发育分析的DNA条形码技术在澄清芍药属牡丹组物种问题中的应用

清晰的物种概念是材料正确鉴定的基础,是DNA条形码技术应用的前提.本文通过芍药属牡丹组植物DNA条形码数据的系统发育分析,揭示牡丹组植物的进化谱系及其与分类上“物种”的关系.在此基础上分析DNA条形码技术在牡丹组植物中应用的可能性.同时,以芍药科芍药属牡丹组植物为例,讨论DNA条形码技术在应用中存在的问题与解决方案.研究材料包括牡丹组植物目前已知的几乎所有的变异类型（种或种下分类群）共40份.DNA序列来自叶绿体基因组ndhF,rps16-trnQ,trnL-F和trnS-G4个基因,共有（含插入/缺失）5040个位点,包含96个变异位点,其中信息位点69个;核基因组GPAT基因2093~2197bp,变异位点（含插入/缺失）总数279个,其中信息位点148个.叶绿体基因组与核基因组所揭示的包括四川牡丹、矮牡丹、卵叶牡丹和紫斑牡丹在内的进化线与根据形态所建立的物种限定不吻合：（ⅰ）叶绿体基因分化明显但核基因没有明显分化——四川牡丹和紫斑牡丹的各居群系统;（ⅱ）核基因分化显著而叶绿体基因分化很小——矮牡丹和卵叶牡丹.因为这些居群系统之间存在一定程度的地理隔离,但不存在生殖隔离,出现这种两个基因组数据背离的现象可能是由于不同居群系统在进化历史中捕获了其他居群系统的叶绿体基因组.这些基因作为牡丹组植物DNA条形码的适合性分析显示,叶绿体基因在种间或居群系统之间的变异是种或居群系统内变异的4.82倍,GPAT基因在种间或居群系统之间的变异是种或居群系统内变异的2.21倍,说明这些基因可作为牡丹组植物的DNA条形码.种间或居群系统之间完全分化位点的统计结果表明,这些种或居群系统之间存在相互区别所必需的位点.通过牡丹组植物DNA条形码分析,认为：（ⅰ）物种概念对DNA条形码技术能否成功应用有十分重要的影响,拟应用DNA条形码的类?     

甘薯近缘野生种的抗病性鉴定与新型种间杂种的获得

为了发掘甘薯近缘种抗茎线虫病、病毒病基因资源,改良栽培种抗性,拓宽甘薯遗传基础,本文利用田间自然病圃对30份甘薯近缘野生种进行抗茎线虫病鉴定,利用硝化纤维素膜-酶联免疫(NCM-ELISA)对20份野生种进行了抗病毒病筛选.以筛选到的抗性材料为父本、栽培种徐薯18为母本,采用生长调节剂处理方法进行种间杂交,结果得到8份高抗、10份抗茎线虫病野生种,5份高抗、8份抗病毒病材料;获得4个新型种间杂种.经过染色体计数和ISSR分子标记鉴定,证实了所得杂种的真实性.表明甘薯近缘野生材料中存在着栽培种所需要的抗性基因,通过有性杂交手段可以获得含野生种染色体组的种间杂种新类型,为渐渗野生抗性基因起到"桥梁"作用.     

基于叶绿体 psbA-trnH 序列和 trnL-F序列的牡丹野生种间关系

对牡丹组全部9个野生种15个居群及凤丹的叶绿体psb A-trn H和trn L-F序列进行测序,并采用邻位相连法分别构建了psb A-trn H序列和trn L-F序列的系统发育树。结果显示:1)两段序列的基因树均支持牡丹组划分为两个亚组的分类方法,与前人的研究结果一致。2)psb A-trn H序列基因树表明大花黄牡丹与黄牡丹的亲缘关系最近,这与大花黄牡丹曾被确定为黄牡丹的一个变种的历史一致。3)革质花盘亚组内,基于psb A-trn H和trn L-F序列的研究结果大体一致,分歧主要在四川牡丹的地位问题。4)psb A-trn H序列和trn L-F序列基因树分别表明杨山牡丹与凤丹具有最近或较近的亲缘关系。     

藓类植物DNA条码的初步研究——以蔓藓科部分属为例

选取7个叶绿体基因片段,其中3个编码区基因片段（matK,rps4 and rbcL-a）和4个非编码区基因片段（atpB-rbcL,atpF-H,psbK-Iandtrn H-psbA）,一个线粒体基因片段（nad5）和一个核基因片段（ITS2）,材料包括5个属14个种的74份样品。分析比较了6个基因片段的多样性、种内和种间的遗传距离、鉴别率等。结果显示,在使用单个片段时ITS2的鉴定效果最好,而atpB-rbcL则是叶绿体基因片段中鉴别能力最高的。使用组合片段的结果发现,两个基因片段组合的鉴别效果最好。通过NJ树的方法检验,atpB-rbcL＋trn H-psbA和rbcL-a＋＋trn H-psbA的鉴定成功率是64%,当再增加一个或两个基因片段时其鉴定效果并没有提高。本研究表明在植物中应用DNA条码需要用质体基因和核基因联合。     

基于COⅡ基因序列的斑腿蝗科部分亚科的分子系统学研究

采用PCR产物直接测序法测定了斑腿蝗科10个亚科16属22种的COⅡ基因585 bp的片段, 对序列的碱基组成进行了分析,并评估了数据集的系统发育信号;最后,以癞蝗科的肃南 短鼻蝗作为外群,采用NJ法、MP法、ML法以及贝叶斯推论法构建了系统树,以解决这些物种所代表的亚科之间的系统发育关系。结果表明：22种斑腿蝗科昆虫的COⅡ基因序列碱基组成表现强烈的A+T含量偏向性。对COⅡ基因585 bp序列片段构成的全数据组和根据密码子不同位点划分的密码子第一、第二和第三位点数据组的系统发育信号分析显示,所有数据组都具有一定的系统发育信息。在4种方法得到的合一树中发现： （1）星翅蝗亚科、刺胸蝗亚科、黑背蝗亚科、斑腿蝗亚科的亲缘关系较近;（2）卵翅蝗亚科与稻蝗亚科亲缘关系较近,建议卵翅蝗亚科似乎应归入稻蝗亚科中,板胸蝗亚科与这两个亚科的关系较近;（3）黑蝗亚科和秃蝗亚科似乎应合并为一个亚科;（4）切翅蝗亚科的4个属未聚在一起,表明这些属的区别较大,不是一个单系群;（5）黑蝗亚科和秃蝗亚科关系较近,且与本研究中其他几个亚科的亲缘关系相对较远。研究结果表明COⅡ基因在解决斑腿蝗科的亚科以下属种间的系统发育关系时是一个有效的分子标记。     

RAPD技术在几个苋属植物遗传分类中的应用研究

利用RAPD技术结合聚类分析,研究了亚洲和中南美洲产的苋属植物7种14个品系遗传关系。从80个10碱基长度的随机引物中筛选出8个有效引物,共扩增出103个DNA片段,平均每个引物扩增12.9个片段,其中多态性片段95个,占92．2％,依据8个有效引物扩增的DNA片段对供试材料进行了UPGMA（非加权成组算术平均法）聚类分析,结果分为4类：（1）包括A.deflexus和A.dubius各1品系的杂草苋种;（2）祖先野生种A.hybridus 1个品系;（3）包括A.hypochondriacus6品系、A.caudatus 2品系的籽粒苋种;（4）包括A.tricolor2品系和A.mangostanus 1品系的蔬菜苋种。     

牡丹泛素延伸蛋白基因片段的克隆及序列分析

目的：利用巢式PCR技术克隆牡丹泛素延伸蛋白基因,为泛素蛋白降解系统研究奠定基础,也为牡丹基因表达水平研究提供内参基因。方法：从牡丹（Paeonia suffruticosa）叶片、花瓣、花萼中提取总RNA,反转录得到cDNA,根据已报道的泛素延伸蛋白基因设计巢式引物进行PCR扩增。结果：得到一条389bp的牡丹泛素延伸蛋白基因片段,该片段编码129个氨基酸残基。结论：通过Blastn比对分析表明：牡丹泛素延伸蛋白基因与番茄、水稻、拟南芥等植物的泛素延伸蛋白基因一致性达到100%,编码的氨基酸序列同源性达94%以上。确认该片段即牡丹泛素延伸蛋白基因。     

Molecular evidence for the interspecific relationships in Paeonia sect. Moutan: PCR-RFLP and sequence analysis of glycerol-3-phosphate acyltransferase (GPAT) gene

A portion (the big intron between exon 5 and 6, ca. 2 kb) of glycerol-3-phosphate acyltransferase (GPAT) gene of 15 wild tree peony accessions collected from 15 populations, which represent all the eight wild species in sect. Moutan, was analyzed using PCR-RFLP technique, and this portion of nine accessions, which represent also all the eight wild species, was sequenced for a better understanding of the interspecific relationships in this section. A reduced-median (RM) network of sect. Moutan was constructed with Network 3.0 computer program using the PCR-RFLP data obtained from the digestion experiments of 12 selected restriction enzymes. Both maximum parsimony (MP) and neighbor-joining (NJ) trees of sect. Moutan were constructed with PAUP*4.0 program using the sequences newly obtained in this study and from GenBank. As a result, a well resolved and highly supported gene tree of sect. Moutan (by bootstrap values) was obtained. The tree is basically in accordance with that constructed from morphological data. The phylogenetic relationships among species in sect. Moutan are discussed in detail.     

Phylogenetic analysis of Paeonia sect. Moutan (Paeoniaceae) based on multiple DNA fragments and morphological data

Tree peony, being crowned the title “King of Flowers” in China, is of great medicinal, ornamental, and economic values. In the present study, the phylogeny of the wild tree peony species (section Moutan, Paeonia, Paeoniaceae), represented by twelve accessions collected from all eight species in the section, was investigated based on the DNA sequence in five DNA fragments from both nuclear (Adh1A, Adh2 and GPAT) and chloroplast (trnS-trnG and rps16-trnQ) genomes, as well as morphological characters. Both maximum parsimony (MP) and Bayesian inference of phylogeny (BI) trees were reconstructed based on the combined data of the DNA sequences and morphological data, respectively. The MP and BI trees have the similar topology, and the sect. Moutan clearly branched into two clades. One clade consists of two species, P. delavayi and P. ludlowii, corresponding to the subsect. Delavayanae, and another clade is composed of other six species. Within the second clade, the six species can be divided into three subclades consisting of P. rockii and P. decomposita, P. jishanensis and P. qiui, P. suffruticosa and P. ostii, respectively. Among the three subclades, P. jishanensis/P. qiui is most closely related to P. suffruticosa/P. ostii. These results provide up to date the clearest picture of the phylogeny of wild tree peony species in the sect. Moutan.     

芍药属牡丹组的系统学研究——基于RAPD分析

芍药属牡丹组(Paeonia sect．Moutan DC)是落叶亚灌木,其野生类群为我国特有。长期以来不同 学者根据形态性状对这个组中种的分类处理不断修正,不断有新种描述。我们采用RAPD标记分析了 牡丹组种内与种间遗传关系。从10个RAPD引物获得121个多态位点。用UPGMA方法构建的树系 图表明每个种的所有个体都各自聚为一支,种内的相似性系数为0.60～0.90,因此现有的7个种能很好 地区分开来。P．delavayi与P．ludlowii相似性系数为0.60,聚为一支;P．jishanensis与P．rockii、P. ostii、P．qiui以及P．decomposita之间的相似性系数为0.48,聚为一大支。这两支与肉质花盘亚组和革 质花盘亚组相对应。这些结果与洪德元根据形态性状对该组所做的分类处理基本相符。我们认为RAPD技术用于牡丹基因组分析是灵敏而行之有效的工具。     

Systematic studies on Paeonia sect. Moutan DC. based on RAPD analysis

Plants in Paeonia sect. Moutan DC., whose wild types are endemic to China, are deciduous subshrubs. Taxonomic treatments of most species in this section have long been in dispute. To address this question, both intraspecific and interspecific relationships of the species in this section were analyzed using RAPD markers. The dendrogram constructed by UPGMA showed that the accessions of the same species were always grouped together earlier than those of different species. The intraspecific similarity coefficients ranged from 0.60 to 0.90, grouping precisely those species of the same subsection together. Hence, the seven species under question can be well distinguished from each other. The similarity coefficient between P. delavayi and P. ludlowii was 0.60, and they were clustered in a clade. The similarity coefficients between P. jishanensis and the three species P. rockii, P. ostii, P. qiui, and between P. jishanensis and P. decomposita were both 0.48. These five species were clustered in another clade. These two clades corresponded well to Subsect. Delavayanae and Subsect. Vaginatae. Our results support the taxonomic treatment of Sect. Moutan re- cently proposed by Hong (1998,1997).     

红麻及其近缘种的RAPD分析

利用随机扩增多态性DNA（RAPD）技术分析了木槿属（Hibiscus)Furcaria组中纤维作物红麻（H.cannabinus)及其6个近缘种植物的25份材料,用筛选出的16个引物扩增出192个RAPD条带,它们表现出丰富的多态性。根据得到的RAPD指纹图谱,计算其Nei氏相似系数和遗传距离。并构建了它们的系统树。结果表明,25份材料可划分为7个组。H.penduriformis和H.calyphyllus两个种为一组;红麻种分为两个组,一组为栽培品种,另1组为野生型材料;其余4个种各成为1组。玫瑰麻（H.sabdariffa)和金线吊芙蓉（H.radiatus)的关系较近,而且两者与红麻的亲缘关系也较近,而其它四个种与红麻的关系较远。H.trionum与其它六个种的关系较远。     

Phylogenetic analyses of Paeonia section Moutan（treepeonies，Paeoniaceae）based on morphological data

Cladistic analysis of the morphological relationship of40populations of Paeonia sect.Moutan DC.（including all wild species）was carried out with an attempt to have a better understanding of the phylogeny of tree peonies.Twenty-five morphological characters     

Phylogenetic relationships among Lactuca (Asteraceae) species and related genera based on ITS-1 DNA sequences

Internal transcribed spacer (ITS-1) sequences from 97 accessions representing 23 species of Lactuca and related genera were determined and used to evaluate species relationships of Lactuca sensu lato (s.l.). The ITS-1 phylogenies, calculated using PAUP and PHYLIP, correspond better to the classification of Feráková than to other classifications evaluated, although the inclusion of sect. Lactuca subsect. Cyanicae is not supported. Therefore, exclusion of subsect. Cyanicae from Lactuca sensu Feráková is proposed. The amended genus contains the entire gene pool (sensu Harlan and De Wet) of cultivated lettuce (Lactuca sativa). The position of the species in the amended classification corresponds to their position in the lettuce gene pool. In the ITS-1 phylogenies, a clade with L. sativa, L. serriola, L. dregeana, L. altaica, and L. aculeata represents the primary gene pool. L. virosa and L. saligna, branching off closest to this clade, encompass the secondary gene pool. L. virosa is possibly of hybrid origin. The primary and secondary gene pool species are classified in sect. Lactuca subsect. Lactuca. The species L. quercina, L. viminea, L. sibirica, and L. tatarica, branching off next, represent the tertiary gene pool. They are classified in Lactuca sect. Lactucopsis, sect. Phaenixopus, and sect. Mulgedium, respectively. L. perennis and L. tenerrima, classified in sect. Lactuca subsect. Cyanicae, form clades with species from related genera and are not part of the lettuce gene pool.     

Molecular and Cytogenetic Characterization of Wild Musa Species

The production of bananas is threatened by rapid spreading of various diseases and adverse environmental conditions. The preservation and characterization of banana diversity is essential for the purposes of crop improvement. The world''s largest banana germplasm collection maintained at the Bioversity International Transit Centre (ITC) in Belgium is continuously expanded by new accessions of edible cultivars and wild species. Detailed morphological and molecular characterization of the accessions is necessary for efficient management of the collection and utilization of banana diversity. In this work, nuclear DNA content and genomic distribution of 45S and 5S rDNA were examined in 21 diploid accessions recently added to ITC collection, representing both sections of the genus Musa. 2C DNA content in the section Musa ranged from 1.217 to 1.315 pg. Species belonging to section Callimusa had 2C DNA contents ranging from 1.390 to 1.772 pg. While the number of 45S rDNA loci was conserved in the section Musa, it was highly variable in Callimusa species. 5S rRNA gene clusters were found on two to eight chromosomes per diploid cell. The accessions were genotyped using a set of 19 microsatellite markers to establish their relationships with the remaining accessions held at ITC. Genetic diversity done by SSR genotyping platform was extended by phylogenetic analysis of ITS region. ITS sequence data supported the clustering obtained by SSR analysis for most of the accessions. High level of nucleotide diversity and presence of more than two types of ITS sequences in eight wild diploids pointed to their origin by hybridization of different genotypes. This study significantly expands the number of wild Musa species where nuclear genome size and genomic distribution of rDNA loci is known. SSR genotyping identified Musa species that are closely related to the previously characterized accessions and provided data to aid in their classification. Sequence analysis of ITS region provided further information about evolutionary relationships between individual accessions and suggested that some of analyzed accessions were interspecific hybrids and/or backcross progeny.