同域分布垂穗披碱草和达乌力披碱草遗传多样性和遗传结构分析

披碱草属(Elymus L.)是禾本科(Poaceae)小麦族(Triticeae)中的一个多年生属,该属在青藏高原地区有广泛分布,多数物种是草原和草甸的组成成分,许多种类为品质优良的牧草.垂穗披碱草(E.nutans)和达乌力披碱草(E.dahuricus)同为禾本科小麦族披碱草属异源六倍体物种,染色体组组成皆为St...     

鹅观草属与披碱草属属界划分的酯酶和过氧化物酶同工酶比较研究

本文采用聚丙烯酰胺凝胶电泳的方法对鹅观草属6种2变种、披碱草属6种以及作为对照的冰草属5种植物的酯酶和过氧化物酶同工酶进行了比较研宄,并根据酶谱的相似性指标,用数量分类中常用的排列方法对所分析的植物进行了二维排序。实验结果表明,尽管鹅观草属与披碱草属表现出具有较冰草属更近的亲缘关系,但二者之间仍存在着明显的界限。因此,本文资料支持将该二属分别作为独立的属对待。本文还讨论了同工酶资料与上述三属植物属下组的划分以及将排序的方法应用于同工酶谱定量分析的分类学意义。     

木犀科系统研究中过氧化物同工酶的应用

应用聚丙烯酰胺凝电泳分析了木犀科７属５１种（亚种,变种及某些被归并的种）植物叶片过氧化物同工酶。研究结果表明,尽管个别种的种内酶谱有变化,但各个种都有能与其他种相区别的酶谱,各属也具有其特征酶谱,过氧化物同工酶适宜的作为木犀科分类的一个重要指标。根据酶谱认为不分亚科,各族独立为宜,酶谱支持雪柳属和连翘属分别从族及丁香族中独立出来单独建族;支持撤消丁香族,将丁香属并入木犀榄族而靠近女贞属,根据酶谱及     

5种樱桃属植物的POD、CAT和SOD同工酶分析

采用聚丙烯酰胺垂直平板凝胶电泳技术对5种樱桃属植物的过氧化物酶(POD)同工酶、过氧化氢酶(CAT)同工酶和超氧化物歧化酶(SOD)同工酶的酶谱特征进行分析,结果表明:5种樱桃属植物共电泳出12条POD同工酶酶带、4条CAT同工酶酶带和8条SOD同工酶酶带;其中,POD同工酶酶谱具有5条共同谱带,CAT同工酶4条,SOD同工酶5条。冬季休眠期的樱桃属植物,POD与SOD同工酶谱带的多样性比较丰富,不同植物之间的谱带差异较大;而CAT同工酶谱带差异不明显。     

小麦、黑麦和小黑麦酯酶同工酶的比较研究

小麦及其亲缘属酯酶同工酶的研究引起许多学者的重视。Bhatia发现普通小麦和某些四倍体小麦的酯酶同工酶酶谱没有差异。Barber等人观察到小黑麦能产生5条快速移动带,在带5(来自黑麦)和带1、2、3(来自小麦)之间出现了1条新的带4。Mitra等人1971年也得到类似的结果,并把这一新形成的酶带假设为杂种带。Sing等人研     

小麦与玉米及鸭茅状摩擦禾远缘杂交的胚发育过程中同工酶和蛋白质的变化

通过比较小麦与玉米及鸭茅状摩擦禾属间杂交获得的胚与小麦正常自交的胚之间在不同发育时期过氧化物酶和酯酶的同工酶谱,发现过氧化物酶同工酶表现出时空顺序的特异性变化。在同一发育时期,远缘杂交的具胚子房和无胚子房之间存在过氧化物酶同工酶谱的差异,这可能涉及到与胚发育相关的同工酶的出现。远缘杂交的具胚子房和正常自交的小麦子房之间也有一定的酶谱差异。同时,同一材料还表现出不同发育时期的过氧化物酶酶谱差别。在远缘杂交后的胚发育期间,酯酶同工酶的时空表达不如过氧化物酶显著。此外,对远缘杂交后的胚中的水溶性蛋白质进行了SD S-PAGE分析,初步的分析结果表明,可能存在与胚发育相关的蛋白质。     

酯酶同工酶多态性及其在昆虫分类学中的应用价值

同工酶 (isozyme)是具有相同或相似的催化功能而分子结构不同的一类酶。自从 Hunter和 Markert[1] 创立了同工酶酶谱 (zymogram)技术以来 ,同工酶的研究得到了很大的发展 ,酶谱的变化已作为鉴定物种、研究分类与进化、遗传与变异的重要指标。酯酶同工酶 (esterase isozyme)是能水解酯键的一组酶 ,在生物体内广泛存在。许多实验证明 :它在种系的鉴定中具有很重要的参考价值。本文旨在对其分类学价值进行探讨。1　酯酶的定义和分类酯酶 (esterase)是催化酯类化合物水解的酶系 ,其作用是水解脂肪族酯 (aliphatic ester)和芳香族酯 (aromatic e…     

披碱草属(Elymus L.)两个物种之订正

披碱草属Elymus L．是小麦族Triticeae Dumort．中最大的属,全世界共有150多个种,广泛分布于 温带地区。我国约有80余种(包括鹅观草属Roegneria C．Koch),是披碱草属的重要分布区和多样性分 化中心。由于披碱草属植物种类繁多、分布广泛、生境多样以及形态变异较为复杂,导致该属在分类上 存在许多问题。同时,由于地域的局限和地区间交流的缺乏,致使同一种披碱草属植物被不同的学者多 次发表及同物异名现象的出现。本文对E．antiquus和E．burchan-buddae这两个曾多次被订名的披碱草 属物种进行了分类订正。     

新疆多年生小麦族植物染色体数的观察

本文对1987年采集于新疆的多年生小麦族(Triticeae Dum. )属种进行了细胞学观察。该地区多年生小麦族各属种的染色体数目变化范围是从2n=14到2n=84,前者主要存在于大麦属(Hordeum)、新麦草属(Psathyrostachys),而后者全部集中于赖草属(Leymus).其中染色体数目为2n=28和2n=42的频率最高,主要存在于鹅冠草属(Roegneria)和披碱草属(Elymus)。Roegneria gobicola, Roegneria kuqaensis, Roegneria tahelacona, Roegneria zhoasuensis的染色体数为首次报道。     

中国几种特殊普通小麦酯酶同工酶研究

采用聚丙烯酰胺凝胶电泳法对中国几种特殊普通小麦的幼芽进行了酯酶同工酶分析。结果表明:同种不同来源的麦酶谱差异不大,较整齐一致,只有个别材料有酶带的增减及沾性强弱有别;对于不同的物种云南铁壳麦与西藏半野生小麦的酶谱很相近似,属同一类群,新疆稻麦慢带较模糊,少第3条酶带归属别一类群。     

Phylogenetic analysis of North American Elymus and the monogenomic Triticeae (Poaceae) using three chloroplast DNA data sets.

Although the monogenomic genera of the Triticeae have been analyzed in numerous biosystematic studies, the allopolyploid genera have not been as extensively studied within a phylogenetic framework. We focus on North American species of Elymus, which, under the current genomic system of classification, are almost all allotetraploid, combining the St genome of Pseudoroegneria with the H genome of Hordeum. We analyze new and previously published chloroplast DNA data from Elymus and from most of the monogenomic genera of the Triticeae in an attempt to identify the maternal genome donor of Elymus. We also present a cpDNA phylogeny for the monogenomic genera that includes more data than, and thus builds on, those previously published. The chloroplast DNA data indicate that Pseudoroegneria is the maternal genome donor to all but one of the Elymus individuals. There is little divergence among the Elymus and Pseudoroegneria chloroplast genomes, and as a group, they show little divergence from the rest of the Triticeae. Within the monogenomic Triticeae, the problematic group Thinopyrum is resolved as monophyletic on the chloroplast DNA tree. At the intergeneric level, the data reveal several deeper-level relationships that were not resolved by previous cpDNA trees.     

Phylogenetic relationships in Leymus (Poaceae: Triticeae) revealed by the nuclear ribosomal internal transcribed spacer and chloroplast trnL-F sequences

Using the nuclear ribosomal internal transcribed spacer (ITS) sequences and the chloroplasttrnL-F sequence, phylogeneic analysis was performed on 57 accessions of species in the tribe Triticeae including 13 Leymus species (N(s)) with different ploidy levels and 40 diploid species from 18 genera. The ITS sequences revealed that ployploid Leymus has close phylogentic relationships with Psathyrostachys and an undefined genus in Triticeae. The trnL-F tree demonstrated close relationships between certain Leymus species and Psathyrostachys, and other Leymus species distributed in North America were far from Psathyrostachys. Based on these results, it is unlikely that the unknown genome in Leymus species originated from one of the sampled diploid species in the present study. The maternal donor of all the Leymus species with a natural distribution in Eurasia were N(s) genome. Furthermore, Elymus californicus should be transferred from the genus Elymus to Leymus.     

Molecular phylogeny revealed complex evolutionary process in Elymus species

Recent molecular phylogenetic studies on Elymus have added to our understanding of the origination of Elymus species. However, evolutionary dynamics and speciation of most species in Elymus are unclear. Molecular phylogeny has demonstrated that reticulate evolution has occurred extensively in the genus, as an example, the largest subunit of RNA polymerase II (rpb2) and phosphoenolpyruvate carboxylase (pepC) data revealed two versions of the St genome, St1 and St2contributing to speciation of E. caninus. Phylogenetic analyses of E. pendulinus uncovered additional genome-level complexity. Our data indicated that both chloroplast and nuclear gene introgression have occurred in the evolutionary process of E. pendulinus. Non-donor species genomes have been detected in severalElymus species, such as in allohexaploid E. repens (StStStStHH), a Taeniatherum-like (Ta genome in Triticeae) GBSSI sequence, Bromus- (Bromeae) and Panicum-like (Paniceae) ITS sequences have been detected. The chloroplast DNA data indicated that Pseudoroegneria is the maternal genome donor to Elymus species, but whether different Elymus species originated from different St donors remains an open question. The origin of the Y genome in Elymus is puzzling. It is clear that the Ygenome is distinct from the St genome, but unclear on the relationships of Y to other genomes in Triticeae. Introgressive hybridization may be an important factor complicating the evolutionary history of the species in Elymus. The extent of introgression and its role in creating diversity in Elymus species should be the objective of further investigations.     

A study of 28 Elymus species using repetitive DNA sequences.

Four repetitive DNA sequences cloned from the barley (Hordeum vulgare) genome and common for different Triticeae species were used for a molecular study of phylogenetic relationships among 28 Elymus species. Two wild Hordeum species (H genome), two Pseudoroegneria species (S genome), Agropyron cristatum (P genome), and Australopyrum velutinum (W genome) were included as genomic representatives for the genomes that supposedly were involved in the evolution of the genus Elymus. Our results are essentially congruent with the genomic classification system. This study demonstrates that Elymus is not a monophyletic genus. Based on an analysis of Southern blot hybridization we could discriminate between SY and SH species owing to the strong specific hybridization pattern of the H genome. Hexaploid SYH species gave a hybridization pattern similar to SH species for the same reason. The results support the genomic composition of Elymus batalinii as SYP and also indicated the presence of at least one H genome in Elymus enysii with a hitherto unknown genomic constitution. Elymus erianthus had a hybridization pattern distinctly different from all other species in the investigation. Key words : Elymus, RFLP, phylogeny, repetitive DNA.     

禾本科植物内生真菌研究 5.中国产部分epichloё内生真菌的遗传多样性

Epichloё内生真菌(epichloё endophytes)是禾本科植物的共生真菌,开展其多样性研究对菌株的生物学特性和进化规律的了解以及开发利用都有着十分重要的意义。本研究筛选了12条随机引物对24株epichloё内生真菌进行RAPD扩增,探讨真菌种类、宿主种类、采集地和菌株间的遗传多样性。结果表明,宿主为拂子茅Calamagrostis sp.、雀麦Bromus sp.、披碱草Elymus sp.、小颖羊茅Festuca parvigluma Steud.的菌株分别独立聚为一个分枝;而宿主为鹅观草Roegneria spp.的Neotyphodium属菌株聚类情况较为复杂;宿主为早熟禾Poas pp.的菌株分别在三个不同的分枝,表现出丰富的遗传多样性。以上结果反应了我国具有丰富的epichloё内生真菌资源,它们和其宿主之间有着比较明显的相互关系。本研究还显示,采集于南京的拂子茅与其内生真菌共生可能发生在较久远的年代。     

披碱草属及其近源属植物种子胚乳细胞多样性研究

披碱草属不仅是小麦、大麦等作物的重要基因库,也是优良牧草的重要组成部分。胚乳是麦类作物种子的重要组成部分,其重量占籽粒重量在90%以上。胚乳特性是一个相对稳定的遗传性状,可以将胚乳特性作为植物分类和系统关系的一个指标。胚乳细胞特征作为植物的一类微形态特征,在麦类植物系统分类与进化研究中具有一定的价值。该研究对小麦族的6个披碱草属(Elymus)物种、2个拟鹅观草属(Pseudoroegneria)物种、1个大麦属(Hordeum)物种和2个冰草属(Agropyron)物种,共4属11份材料的胚乳细胞特征进行解剖观察并测量相关指标。结果表明:(1)不同属、种的植物种子胚乳细胞之间存在丰富的多样性,属间差异大于属内种间差异;(2)同样具有P染色体组的Agropyron cristatum和A.mongolicum与同样具有St染色体组的Pseudoroegneria libanotica和P.spicata各自在细胞形状和大小上的差异很小;(3)不同物种的胚乳细胞在大小、形状和数量上均表现出差异,但不能很好地反映属以及基因组间的差异,研究结果为揭示披碱草属植物的系统关系提供了胚乳细胞方面的证据,同时也为利用该属植物改良麦类作物品质积累资料。     

利用RAPD分析披碱草属、鹅观草属和猬草属模式种的亲缘关系

利用随机扩增多态性DNA（RAPD）技术对小麦族披碱草属、鹅观草属和猬草属3个属的模式种进行了基因组DNA多态性分析。42个引物产物的290条谱带中,257条（88.62%)表现出多态性,说明披碱草属、鹅观草属和猬草属3个属的模式种间具有丰富的遗传多样性。利用290个RAPD标记,计算材料间Nei氏遗传相似性系和遗传距离,在NTSYS程序中利用UPGMA进行聚类。结果表明,Elymus sibiricus种不同居群间的遗传差异较小,遗传距离在0.097-0.180之间。E.sibiricus,Roegneria caucasica和Hystrix patula的种间遗传差异明显,遗传距离在0.458-0.605之间。H.patula与E.sibiricus的亲缘关系较近。R.caucasica与E.sibiricus的亲缘关系较远。     

Molecular phylogeny of RPB2 gene reveals multiple origin, geographic differentiation of H genome, and the relationship of the Y genome to other genomes in Elymus species

It has been hypothesized from isozymic and cytological studies of Elymus species that the Old and New World taxa may be of separate origin of the H genome in the StH genome species. To test this hypothesis, and estimate the phylogenetic relationships of polyploid Elymus species within the Triticeae, the second largest subunit of RNA polymerase II (RPB2) sequence of 36 Elymus accessions containing StH or StY genomes was analyzed with those of Pseudoroegneria (St), Hordeum (H), Agropyron (P), Australopyrum (W), Lophopyrum(Ee), Thinopyrum(Eb) and Dasypyrum (V). Our data indicated that the H genome in Elymus species is differentiated in accordance with geographical origin, and that the Eurasian and American StH genome species have independent alloploid origins with different H-genome donors. Phylogenetic analysis of Y genome sequences with other genome donors (St, H, P, W) of Elymus revealed that W and P genomes are sister to Y genome with a 87% bootstrap support, and that StY and StH species group might have acquired their RPB2 St sequences from distinct Pseudoroegneria gene pools. Our data did not support the suggestion that the St and Y genomes have the same origin as put forward in a previous study using ITS data. Our result provides some insight on the origin of Y genome and its relationship to other genomes in Elymus.     

Origin of the H genome in StH-genomic Elymus species based on the single-copy nuclear gene DMC1

Previous studies have suggested that the H haplome in Elymus could originate from different diploid Hordeum species, however, which diploid species best represent the parental species remains unanswered. The focus of this study seeks to pinpoint the origin of the H genome in Elymus. Allopolyploid Elymus species that contain the StH genome were analyzed together with diploid Hordeum species and a broad sample of diploid genera in the tribe Triticeae using DMC1 sequences. Both parsimony and maximum likelihood analyses well separated the American Hordeum species, except Hordeum brachyantherum subsp. californicum, from the H genome of polyploid Elymus species. The Elymus H-genomic sequences were formed into different groups. Our data suggested that the American Horedeum species, except H. brachyantherum subsp. californicum, are not the H-genomic donor to the Elymus species. Hordeum brevisubulatum subsp. violaceum was the progenitor species to Elymus virescens, Elymus confusus, Elymus lanceolatus, Elymus wawawaiensis, and Elymus caninus. Furthermore, North American H. brachyantherum subsp. californicum was a progenitor of the H genome to Elymus hystrix and Elymus cordilleranus. The H genomes in Elymus canadensis, Elymus sibiricus, and Elymus multisetus were highly differentiated from the H genome in Hordeum and other Elymus species. The H genome in both North American and Eurasian Elymus species was contributed by different Hordeum species.     

披碱草属与大麦属系统关系的研究

禾本科中,披碱草属Elymus L.为多倍体属,约含150余种;大麦属Hordeum L.具二倍体和多倍体,约有40余种,该两属均广泛地分布于全球温带地区。该两属,尤其是披碱草属的系统分类较为困难。基于形态学的传统研究认为这两个属的系统关系较远,而细胞学研究的资料却表明,披碱草属的H染色体组起源于大麦属。笔者对来源不同的披碱草属和大麦属的物种进行了远缘杂交,并对其属间杂种F1的减数分裂中期I染色体配对行为进行了分析。结果表明,若以披碱草属作母本,该两属有相对较高的杂交亲合力,通过对杂种幼胚进行分割和离体培养,也能获得杂种F1植株。属间杂种植株的形态介于双亲之间,但更接近于披碱草属,杂种的生殖器官发育不健全,而且所有的杂种F1均完全不育。细胞学的观察结果表明,这两个属间的杂种F1通常具有较低的减数分裂中期I染色体配对数,但有较大的变异。通过笔者的工作及掌握的形态学和细胞学的资料分析认为：披碱草属和大麦属的亲缘关系较为复杂,不能一概而论。含H染色体组的披碱草属和大麦属物种有着较近的亲缘关系,但这两个属中所含的H染色体组已产生了程度不同的分化;不含H染色体组的披碱草属及大麦属的物种具有较远的亲缘关系。