万年青Ls-RRNA 5′端核苷酸序列及进化意义

本工作准确测定了万年青Rohdea japonica(Thunb．)Roth Ls-rRNA 5'端347个核苷酸序列。以该序列与其他五种被子植物及一种红藻已发表的序列为基础构造的系统树与一般所接受的植物分类系统十分吻合,而且说明这一方法对被子植物不同科、属之间的差异有良好的分辨率。我们的分析结果还表明,万年青与禾本科之间的差异很大,它们的分歧可能发生在单子叶植物起源的早期。     

中国东北中生代安纽蝎蛉总科研究进展

安纽蝎蛉总科由长翅目中3个灭绝的科组成.它们的共同的特征是具有长管状吸收式口器,推测其与裸子植物的授粉有密切关系.目前在我国东北中生代共发现安纽蝎蛉总科化石5属11种,对它们进行了简单地综述并提供了相应的检索表,探讨了当时这类具有“长口器”的长翅目昆虫与裸子植物之间的取食和授粉过程,以及二者之间协同进化模式,并对早期被子植物传粉模式做了初步推测.     

古生代种子的新分类系统

本文概述了上世纪中叶以来有关古生代种子分类问题的沿革,并在总结近年来国内外有关整体 化石裸子植物和离体种子研究新成果的基础上,指出当前在古生代种子分类方面的问题。 为使古生代种子的分类同当代古植物学研究协调,把对离体种子的研究同整体化石裸子植物结合 起来,作者建议以Seward的分类系统为基础,设立五个科：瓶籽科Lagenostomaceae肥籽科 Pachytestaceae、靓籽科Callospermariaceae隐羊齿籽科Cryptospermaceae和心籽科Cardiocarpaceae, 并把三棱籽目Trigonocarpales改名为肥籽目Pachytestales。上述五个科既可看作三个古生代种子目： 瓶籽目Lagenostomales、肥籽目和心籽目Cardiocarpales下设的一级分类单位,也可分别当作古生代整 体化石裸子植物：皱羊齿目Lygonopteridales、髓木目Medullosales、靓羊齿目Callistophytales、大羽羊 齿目Gigantopteridales和科达目Cordaitales的雌性生殖器官。由于这个分类系统同整体化石植物的分类一致,因此,有助于对离体种子的系统学研究。     

黄酮类化合物在药用植物中的分布

将蕨类植物、裸子植物、被子植物的32个科的50种植物所含的黄酮类化合物列举出来,可以作为进一步开发药用价值以及进行植物分类的依据。     

中国种子植物内生真菌资源及菌植协同进化

综述了中国种子植物内生真菌资源研究概况,比较了裸子植物和被子植物内生真菌种类,它们都具有肉座菌目(Hypocreales),粪壳菌目(Sordariales),散囊菌目(Eurotiales),毛霉目(Mucorales)及不产孢类(Myceliasterilia)内生真菌。裸子植物内生真菌涉及52个属,既包括高等的子囊菌和担子菌,也包括低等的卵菌(Oomycetes)和接合菌(Zygomycetes)类。被子植物涉及60个属,主要为高等的子囊菌(Ascomycetes)和担子菌(Basidiomycetes),低等的卵菌和接合菌报道很少。双子叶植物涉及40个属,单子叶植物内生真菌涉及30个属,两类被子植物所报道的内生真菌只有11个属相同。裸子植物与双子叶植物内生真菌相似程度较高,都具有炭角菌目(Xylariales)、格孢腔菌目(Pleosporales)、柔膜菌目(Helotiales)和白粉菌目(Erysiphales),刺盘孢菌属(Colletotrichum)、拟茎点霉属(Phomopsis)、枝孢霉属(Cladosporium)、地霉属(Geotrichum)等内真菌,共20个属相同。各类种子植物具有自己独特的一些内生真菌。还对植物与其内生真菌的协同进化关系进行了分析。     

基于核rDNA的ITS序列在种子植物系统发育研究中的应用

种子植物核rDNA是高度重复的串联序列,由于同步进化的力量．大多数物种中这些重复单位间已发生纯合或接近纯合。5．8S rDNA把核rDNA的内转录间隔区分为ITS1和ITS2两部分．在被子植物中ITS1的长度为165～298bp,ITS2的长度为177～266bp,而在裸子植物中ITS片段较长。且其长度变化主要由ITS1的长度变异所致。可对这两个片段PCR产物进行直接测序或克隆测序。由于ITS序列变异较快．能够提供较丰富的变异位点和信息位点,已成为被子植物较低分类阶元的系统发育和分类研究中的重要分子标记,为探讨多倍体复合体网状进化关系,异源多倍体的起源提供了重要的系统学信息．但它一般不适合科以上水平的系统学研究。裸子植物中ITS片段较长,重复序列间的纯合程度不同,测序比较困难．因此对探讨裸子植物系统发育和分类受到了一定的限制,但近年来有所发展。     

毛乌素沙地植物多样性保护防沙治沙示范

以榆林红石峡沙地植物群落为研究对象,采用群落生态学的调查方法,对群落结构特征、植物生活型、植物多样性分析研究,为毛乌素沙地植物多样性保护防沙治沙提供科学依据.结果表明:榆林红石峡沙地植物种类丰富,包括3门5纲29目62科168属252种,其中蕨类植物门1纲1目1科1属2种;裸子植物门2纲2目3科5属14种;被子植物门2...     

基于5 993个核基因的被子植物系统发育关系研究

系统发育关系的构建对被子植物分类及进化研究非常重要。长期以来,被子植物系统发育的研究,大多使用质体基因、线粒体基因或少数保守的单拷贝核基因。该研究从已注释基因组或转录组中搜集88种被子植物(包含58目)的核基因集;通过对其进行同源基因聚类及去旁系同源基因,获得了5 993个一对一的直系同源基因家族(即对于每个基因家族,每种植物最多一条序列,最少包含50个物种);使用截取各种不同数目基因集的DNA或氨基酸序列,采用串联法(concatenation)和溯祖法(coalescence),共构建了20棵进化树。比较这些进化树,虽然大部分结果支持APG IV中描述的被子植物主要支系之间的关系[(真双子叶植物,单子叶植物),木兰类植物],但真双子叶植物内部各目分支的演化关系与APG IV有一个很大的不同,即认为檀香目和石竹目是蔷薇类植物的姊妹群。基于这些进化树,估算了被子植物各目分支的分化时间,结果表明被子植物的起源时间为237.78百万年前(95%置信区间为202.6～278.08),与主流观点认为的225百万年至240百万年前一致。以上结果为构建进化树提供了一种可行性策略,这种方法允许使用基因数目更多而计算速度更快。     

被子植物APG分类系统评论

随着植物分子系统学的兴起,被子植物系统发育研究取得了举世瞩目的进展。被子植物系统发育组提出了基于DNA证据的被子植物在目、科分类阶元上的分类系统,简称APG系统。本文简要概括了APG系统的主要成就:(1)验证了被子植物分类系统的可重复性和可预言性;(2)解决了一些依据形态学性状未能确定的类群的系统位置;(3)证明了将被子植物一级分类分为双子叶植物和单子叶植物的不自然性;(4)证实了单沟花粉和三沟花粉在被子植物高级分类单元划分中的重要性;(5)发现雄蕊的向心发育和离心发育在多雄蕊类群中是多次发生的,不应作为划分纲或亚纲的重要依据;(6)支持基于形态学(广义)性状划分的大多数科是自然的;(7)将一些长期认为自然的科四分五裂。同时,我们指出了尚需深入研究的几个问题:(1)如何将以分子数据建立的系统和以综合形态学证据建立的系统相协调;(2)依据APG系统的研究结果需要创立新的形态演化理论;(3)只以"单系群"作为划分科、目的依据值得商榷;(4)APG系统中一些目的分类没有可信的形态学共衍征;(5)依据APG系统需要做出一个自然系统的目、科检索表和目、科的特征集要。此外,我们对以亚洲,特别是东亚为分布中心的一些类群的系统关系或分类等级提出建议,包括八角科、芒苞草科、水青树科、火筒树科、马尾树科、七叶树科、槭树科、伯乐树科应独立为科,山茱萸科(广义)应分为山茱萸科(狭义)和蓝果树科(广义)。     

被子植物系统发育深层关系研究: 进展与挑战

被子植物系统发育学是研究被子植物及其各类群间亲缘关系与进化历史的学科。从20世纪90年代起, 核苷酸和氨基酸序列等分子数据开始被广泛运用于被子植物系统发育研究, 经过20多年的发展, 从使用单个或联合少数几个细胞器基因, 到近期应用整个叶绿体基因组来重建被子植物的系统发育关系, 目、科水平上的被子植物系统发育框架已被广泛接受。在这个框架中, 基部类群、主要的5个分支(即真双子叶植物、单子叶植物、木兰类、金粟兰目和金鱼藻目)、每个分支所包含的目以及几个大分支包括的核心类群等都具有高度支持。与此同时, 细胞器基因还存在一些固有的问题, 例如单亲遗传、系统发育信息量有限等, 因此近年来双亲遗传的核基因在被子植物系统发育研究中的重要性逐渐得到关注, 并在不同分类阶元的研究中都取得了一定进展。但是, 被子植物系统发育中仍然存在一些难以确定的关系, 例如被子植物5个分支之间的关系、真双子叶植物内部某些类群的位置等。本文简述了20多年来被子植物系统发育深层关系的主要研究进展, 讨论了被子植物系统发育学常用的细胞器基因和核基因的选用, 已经确定和尚未确定系统发育位置的主要类群, 以及研究中尚存在的问题和可能的解决方法。     

Noncoding sequences from the slowly evolving chloroplast inverted repeat in addition to rbcL data do not support gnetalean affinities of angiosperms

We developed PCR primers against highly conserved regions of the rRNA operon located within the inverted repeat of the chloroplast genome and used these to amplify the region spanning from the 3' terminus of the 23S rRNA gene to the 5' terminus of the 5S rRNA gene. The sequence of this roughly 500-bp region, which includes the 4.5S rRNA gene and two chloroplast intergenic transcribed spacer regions (cpITS2 and cpITS3), was determined from 20 angiosperms, 7 gymnosperms, and 16 ferns (21,700 bp). Sequences for the large subunit of ribulose bisphosphate carboxylase/oxygenase (rbcL) from the same or confamilial genera were analyzed in both separate and combined data sets. Due to the low substitution rate in the inverted repeat region, noncoding sequences in the cpITS region are not saturated with substitutions, in contrast to synonymous sites in rbcL, which are shown to evolve roughly six times faster than noncoding cpITS sequences. Several length polymorphisms with very clear phylogenetic distributions were detected in the data set. Results of phylogenetic analyses provide very strong bootstrap support for monophyly of both spermatophytes and angiosperms. No support for a sister group relationship between Gnetales and angiosperms in either cpITS or rbcL data was found. Rather, weak bootstrap support for monophyly of gymnosperms studied and for a basal position for the aquatic angiosperm Nymphaea among angiosperms studied was observed. Noncoding sequences from the inverted repeat region of chloroplast DNA appear suitable for study of land plant evolution.      

Evolution of green plants and their relationship with other photosynthetic eukaryotes as deduced from 5S ribosomal RNA sequences

The nucleotide sequence of cytoplasmic 5S ribosomal RNAs from three gymnosperms,Pinus contorta, Taxus baccata andJuniperus media and from one fern,Pteridium aquilinum, have been determined. These sequences were aligned with all hitherto known cytoplasmic 5S ribosomal RNA sequences of photosynthetic eukaryotes. A dendrogram based on that set of sequences was constructed by a distance matrix method and the resulting tree compared with established views concerning plant and algal evolution. The following monophyletic groups of photosynthetic eukaryotes are recognizable: theRhodophyta, a group consisting ofPhaeophyta, Bacillariophyta andChrysophyta, and the green plants, the latter comprising green algae,Bryophyta, Pteridophyta andSpermatophyta. According to our 5S ribosomal RNA tree, green plants may have originated from some type of a green flagellated organism such asChlamydomonas. The land plants seem to have originated from some form of charophyte such asNitella. 5S ribosomal RNA seems to be less appropriate to estimate dissimilarities between species which have diverged relatively recently, like the angiosperms. Therefore, a precise evolutionary process is difficult to reconstruct for members of this group.     

裸子植物5S rRNA基因序列变异及二级结构特征

在高等植物中,5SrRNA基因一级结构是高度保守的,二级结构也相当一致。通过比较18种裸子植物5SrRNA基因序列和二级结构变异,发现55％的核苷酸位点是可变的,这种变异有68％发生在干区（双链区）,其中一些变异,如双链的互补性核苷酸替代,GU配对等能够维系5SrRNA二级结构的稳定性。环区相对保守,这与5SrRNA三级结构折叠或在转录翻译过程中蛋白质、RNA的结合相关。另外,首次报道了松属环E区核苷酸的变异性,这可能与其他区域的变异一样,是假基因造成的结果。5SrRNA基因信息可反映大分类群的系统进化关系,但由于基因长度短,信息量小,其在近缘种系统分类的应用受到限制。     

The phylogenetic positions of the conifer genera Amentotaxus,Phyllocladus, and Nageia inferred from 18s rRNA sequences

To determine the evolutionary positions of the conifer genera Amentotaxus, Phyllocladus, and Nageia, we obtained 18S rRNA sequences from 11 new taxa representing the major living orders and families of gymnosperms. With the published Chlamydomonas as an outgroup, phylogenetic analyses of our new data and available sequences indicate that (1) the Gnetales form a monophyletic group, which is an outgroup to the conifers, (2) the conifers are monophyletic, (3) Taxaceae, Cephalotaxaceae, Cupressaceae, and Taxodiaceae form a monophyletic group, (4) Amentotaxus is closer to Torreya than to Cephalotaxus, suggesting that Amentotaxus is better to be classified as a member of Taxaceae, (5) Phyllocladus, Dacrycarpus, Podocarpus, and Nageia form a monophyletic group, and (6) Pinaceae is an outgroup to the other families of conifers. Our finding that Phyllocladus is a sister group of the Podocarpaceae disagrees with the suggestion that the phylloclade of the genus is an ancient structure and that the genus is a terminal taxon within the Podocarpaceae. The genus Nageia is more closely related to Podocarpus than to Dacrycarpus and was derived from within the Podocarpaceae. In conclusion, our data indicate that in conifers, the uniovulate cone occurred independently in Taxacaeae and Cephalotaxaceae, and in Podocarpaceae after the three families separated from Pinaceae, and support the hypothesis that the uniovulate cone is derived from reduction of a multiovulate cone.Correspondence to: S.-M. Chaw     

我国水稻条纹病毒一个强致病性分离物的RNA4序列测定与分析

对我国水稻条纹病毒(Rice Stripe Virus,RSV)一个强致病性分离物(辽宁PJ分离物)的RNA4区段进行扩增、克隆和测序,其核苷酸序列全长2157bp。与已报道的日本T和M分离物及我国云南CX分离物的RNA4序列进行比较分析,结果表明,这4个分离物可分为两组,其中,PJ、T和M分离物为一组,组内分离物之间,RNA4的毒义链(vRNA4)及RNA4的毒义互补链(vcRNA4)上的ORF的核苷酸一致性分别为970%和970%～975%,5′末端和3′末端非编码区的序列则完全一致。但PJ分离物与T分离物的亲缘关系更为密切,其基因间隔区(IR)与T分离物的等长,核苷酸一致性为930%,比M分离物的IR多了一段长19bp的插入序列,核苷酸一致性仅为850%。另一组为我国CX分离物,组与组之间,vRNA4及vcRNA4上的ORF的核苷酸一致性分别为940%和925%～935%,但在氨基酸水平上则没有明显的差异。CX分离物的IR与PJ分离物相比有一段长84bp的插入序列,组间,IR的核苷酸一致性仅为720%～750%,5′末端非编码区的序列完全一致,但3′末端非编码区有两个碱基的差异。这些结果表明,RSV在自然界的分子变异与其地理分布具有密切的关系。此外,非编码区序列的高度保守性暗示着它们在病毒基因转录和复制的调控方面具有重要的功能。本文还讨论了RSV的分子流行学。     

水稻条叶枯病毒基因组组分3的克隆与序列分析

利用ＲＴ－ＰＣＲ技术,合成并扩增了水稻条叶枯病毒（ＲＳｔＶ）中国云南分离 物基因组组分３的全长ｃＤＮＡ。将ＰＣＲ产物克隆在载体ｐＣＲⅡ上,进行全序列测定。将所得核苷酸序列及其所推导的氨基酸序列与日本分离物Ｔ进行同源性比较,结果表明,在核苷酸水平上,两分离物的５’端非编码区序列相同,ｖＯＲＦ、ｖｃＯＲＦ及基因间非编码区序列的同源性分别为９７．６％、９６．８％及８７．６％,而３’端非编码区同源性为９８     

Morphological and molecular data on the origin of angiosperms: on a way to a synthesis

Molecular phylogenetic data have drastically changed the views on the phylogeny of higher plants. All the extant gymnosperms were asserted as a monophyletic group opposed to the highly isolated angiosperms. The 'Anthophyte Theory' was thus rejected. The identification and analysis of gymnosperm orthologues of genes regulating flower development in angiosperms resulted in the formulation of the 'Mostly Male Theory' of the evolutionary origin of flower; this theory does not contradict the concept of monophyly of all the extant gymnosperms. The Mostly Male Theory assumes that the origin of angiosperms was caused by a loss of the Needle family gene that effected ovuliferous (female) organs and the translocation of the ovules onto the adaxial side of some of the (male) leafy microsporangiophores. Having acquired ovules, the former microsporangiophores started evolving into the carpels. The prerequisite bisexual design of the ancestral fructification thus becomes unnecessary. Indeed, this assumption suggests the deriving of Angiosperms from any gymnosperm plant with leafy microsporangiophores. The problem of carpel origin has subsequently changed to some degree into the problem of the origin of the bitegmic anatropous ovule presumably inherent in ancestral Angiosperms. The Mostly Male Theory consideredeither Corystospermataceae (= Umkomasiaceae) or Caytoniaceae to be the forerunners of such an ovule. Yet the capsules of Corystospermataceae distinctly differ from angiosperm ovules in the locations of their adaxial/abaxial sides, while Caytoniaceae had no leafy microsporangiophores. This inconsistency suggests that functions of the Needle family regulatory genes in Gymnosperms should be much better understood to appraise properly both the possibilities and the consequences of their hypothetical loss by the emerging angiosperms. Moreover, the extant gymnosperm groups are actually held as monophyletic and contrasted to Angiosperms on the basis of analysing the unrepresentative scant remnants of these, mostly extinct, taxa. Therefore, traditional botanical and paleobotanical data should not be rejected. In any case, Meyen's idea angiosperms origin from Bennettitales is worth being retained as a hypothesis to be tested with new results of both paleobotany and molecular biology.     

Molecular Data from the Chloroplast rpoC1 Gene Suggest a Deep and Distinct Dichotomy of Contemporary Spermatophytes into Two Monophyla: Gymnosperms (Including Gnetales) and Angiosperms

Partial sequences of the rpoC1 gene from two species of angiosperms and three species of gymnosperms (8330 base pairs) were determined and compared. The data obtained support the hypothesis that angiosperms and gymnosperms are monophyletic and none of the recent groups of the latter is sister to angiosperms. Received: 20 November 1998 / Accepted: 26 April 1999