DNA分子系统学在爬行动物中的应用

爬行动物因其在脊椎动物中具有承上启下的作用,对其进行系统学研究,了解它们的进化关系显得尤为重要。本文ＤＮＡ杂交、ＤＮＡ指纹、ＲＦＬＰ、ＲＡＰＤ及测序等五个方面对爬行动物的ＤＮＡ分子系统学研究工作进行了综述,对其中的一些问题进行了讨论。     

古生物学领域的新辟园地──分子古生物研究

分子古生物研究是现代分子生物学、有机地球化学和古生物学等领域相交叉、结合而形成的年轻学科方向,是古生物学领域的一个新兴生长点。与传统古生物学相比,分子古生物研究更依赖于现代化的实验、分析技术,它使古生物研究从宏观深入微观。分子古生物研究应当与传统的形态解剖研究相结合,两者的关系是相互补充的。现提出狭义分子化石和广义分子化石的概念,并指出它们与有机地球化学研究中的生理标志化合物等概念的异同。当今分子     

DNA序列在苔藓分子系统学研究中的应用

DNA是遗传信息的载体,直接对DNA核苷酸排列顺序的分析和比较是研究苔藓分子系统学的最彻底和最理想的方法。本文综述了DNA序列(叶绿体基因组、核基因组和线粒体基因组)在苔藓分子系统学中的应用,探讨了基因片段的选择策略。并提出只有将分子数据和传统分类学取得的研究成果结合起来,构建最合理的系统树,才能更好地推动苔藓分子系统学的发展。     

DNA序列在蕨类分子系统学研究中的应用

在分子系统学研究中,目的基因或者基因片段的选择是最关键的一步,由于进化速率的差异,不同的DNA序列适用于不同分类阶元的系统发育研究.本文综述了目前蕨类分子系统发育研究中常用的DNA序列分析,它们分别来自叶绿体基因组、核基因组和线粒体基因组,着重阐明叶绿体基因在蕨类分子系统学研究中的应用.本文还简要介绍了分子系统学研究中常见的问题及解决方法(如内类群和外类群的选择.适宜DNA片段的选择策略),总结了目前蕨类植物分子系统学研究所取得的进展和研究现状,展望了当今国际蕨类分子系统学的研究趋势.     

蝗虫分子系统学研究进展

本文从遗传多样性、近缘种鉴别以及分子进化和系统发育重建 3个方面综述了蝗虫分子系统学的研究进展。     

线粒体基因在鳞翅目昆虫分子系统学中的研究进展

介绍近年来已测定线粒体DNA全序列的鳞翅目昆虫和其线粒体DNA结构,综述鳞翅目昆虫的分子系统学研究进展.特别对mtDNA在鳞翅目昆虫分类和界定、系统发育关系及种群遗传变异和进化等研究中的意义和存在的问题进行探讨.     

DNA 序列在蕨类分子系统学研究中的应用

在分子系统学研究中, 目的基因或者基因片段的选择是最关键的一步, 由于进化速率的差异, 不同的DNA序列适用于不同分类阶元的系统发育研究。本文综述了目前蕨类分子系统发育研究中常用的DNA序列分析, 它们分别来自叶绿体基因组、核基因组和线粒体基因组, 着重阐明叶绿体基因在蕨类分子系统学研究中的应用。本文还简要介绍了分子系统学研究中常见的问题及解决方法(如内类群和外类群的选择, 适宜DNA片段的选择策略), 总结了目前蕨类植物分子系统学研究所取得的进展和研究现状, 展望了当今国际蕨类分子系统学的研究趋势。     

分子系统学在真菌分类命名中的应用与进展

真菌分子系统学以分子生物学、遗传学和生物信息学为手段,以分子水平对真菌进行种属识别,与传统的表型分类系统相比,更为可靠、高效,极大地推动了真菌分类学的发展。因此,真菌分类学正处于一个划时代的转变时期,即由表型分类向基因型分类的转变,以形态学为基础的种属概念向以分子系统学为基础的种属概念转变。综合论述了分子系统学在真菌分类和命名中的应用,并介绍近年来真菌分类和命名方面的变化和进展,供国内科研和临床工作者参考。     

核酸分子系统学方法在酵母菌分类中的应用进展

阐述了rDNA/rRNA序列分析法、RFLP分析法和RAPD分析法3种核酸分子系统学方法的相关概念及其在酵母菌分类中的应用和进展,并对这些方法作了简要的比较。     

核糖体DNA在黏菌分子系统学研究中的应用与发展

文中综述了核糖体基因在黏菌分子系统学研究中应用现状,并就目前黏菌分子系统中存在的问题及发展方向提出了看法。     

核基因序列在昆虫分子系统学上的应用

核基因中含有更加丰富的生物学信息,运用核基因序列或将核基因序列与线粒体基因序列相结合研究昆虫的系统发育正成为分子系统学领域的一种发展趋势.核糖体基因中18S rDNA、28S rDNA、ITS已在昆虫分子系统学中得到了广泛的应用.与核糖体基因相比,虽然编码蛋白的核基因应用于昆虫分子系统学的种类不少,但大部分都是应用于双翅目和鳞翅目昆虫的分子系统学研究中,能够成功地普遍用于多个目昆虫的系统学研究的核基因并不多.本文简要介绍了应用于昆虫分子系统学的核中核糖体基因和编码蛋白的核基因,并分析了核基因序列在分子系统学应用上的局限性和应用前景.     

画眉科鸟类系统发育及分类地位商榷

原记录在中国有分布的鹛类计142种,占世界鹛类纪录种总数284种的50%.由于该类群的种类繁多,形态和生态习性多样,其分类问题历来受分类学者的关注,且争议较大.本文尝试以分子生物学手段来解决传统分类中遗留的问题.在系统发育分析中共有20属59种鹛类作为内群、14个相关物种作为外群,分子标记分别采用线粒体细胞色素b(Cty 6,846 bp)和核内重组引导基因(RAG-1,870 bp),以最大似然法和贝叶斯法重建系统发育树.结果表明,画眉科鸟类明显被分为2大支系,一支由噪鹛Garrulax、希鹛Minla、薮鹛Liocichla、相思鸟Leiothrix、奇鹛Heterophasia、穗鹛Stachyris、钩嘴鹛Pomatorhinus、凤鹛Yuhina、及部分雀鹛Alcippe等属的种类构成,另一支由鸦雀属Paradoxornis和山鹛Rhopophilus pekinensis、及部分雀鹛属的种类构成,2支都有相当高的支持率;各个属之间的相互关系大致得到解决,传统分类体系中噪鹛属、雀鹛属、鸦雀属、凤鹛属、穗鹛属的单系性不能成立;证实绣眼鸟属Zosteropidae、山鹛和林莺属Sylvia鸟类的亲缘关系较近,而白腹凤鹛Yuhina.zantholeuca、鹏鹛属Pteruthius和文须雀Panurus biarmicus与鹛类的亲缘关系较远;并提出小鳞胸鹪鹛Pnoepyga pusilla有可能不是画眉科种类,其分类地位需要重新认识.     

A MOLECULAR FRAMEWORK FOR THE PHYLOGENY OF CORALLIOPHILA AND RELATED MURICOIDS

Coralliophilid gastropods include a large number of described species,grouped in at least seven to 10 'genera' according to their shellmorphology. They are considered closely related to Muricidaeand ranked as a family on its own or as a subfamily of muricids.Their phylogenetic position and relationships are still notdefined. The little anatomical work so far done on this groupseems to indicate a relatively high level of homogeneity, atleast in the alimentary system. There is a need for an independentphylogenetic framework to understand their position and relationshipwithin the muricoideans, and their internal systematics andphylogeny. We have addressed this problem by means of parsimonyanalysis of 609 aligned positions of the sequences coding forthe 12S rDNA. Four coralliophilid sequences representing thesame number of commonly recognized lineages (Babelomurex, Latiaxis,Coralliophila, Galeropsis = Quoyula) were analysed, along withthree sequences of muricoid genera (Stramonita, Phyllonotus,Nucella) representing as many subfamilies of Muricidae, plusthe sequence of the buccinoidean Fasciolaria as outgroup. Maximum parsimonyand neighbour-joining analysis of the dataset, with increasingweighing of transversions versus transitions, yielded similartopologies. Two major outcomes resulted from the analyses: first,the coralliophilid sequences included herein are always monophyletic,with very high bootstrap support in all analyses. This is inagreement with the few anatomical data gathered so far that suggestcoralliophilids are relatively homogeneous. Secondly, the sister-groupof the coralliophilids among the analysed sequences is representedby Stramonita, with high bootstrap support in all analyses.This is in a good agreement with previous molecular analyses andwith the morphological evidence that Rapaninae are the closest sistergroup of coralliophilids. According to the present results,the rank of the coralliophilids should be the same as Rapaninae,therefore a subfamilial status (Coralliophilinae) seems reasonable. (Received 14 August 2000; accepted 30 October 2000)     

RNA的二级结构在动物分子系统学研究中的应用

作为一类重要的信息和功能分子,RNA在分子系统学研究中有着特殊的重要作用。RNA除了其一级结构以外,其二级结构亦可用于同源性比较。由于高级结构与功能的关系更为密切,比较的结果可以揭示一些在一级结构比较中难以发现的现象。     

分子生物学技术在昆虫系统学研究中的应用

分子生物学技术应用于昆虫系统学研究,是８０年代末新兴起来的,近几年来发展相当迅速。为了把握这个研究方向,并促进这个研究领域的发展,作者从研究方法、研究内容、研究对象等方面着手,对近１０年来分子生物学技术应用于昆虫系统学中的研究进展进行了概括和总结。介绍了ＤＮＡ序列测定、ＲＦＬＰ,分子杂交技术、ＲＦＰＬ、分子杂交技术、ＲＡＰＤ、ＳＳＣＰ及ＤＳＣＰ等几种主要方法及其应用情况,并从种及种下阶元的分类鉴定     

TAXONOMY AND MOLECULAR PHYLOGENY OF THE RED ALGAL GENUS LENORMANDIA (RHODOMELACEAE,CERAMIALES)1

The genus Lenormandia Sonder is currently composed of nine species from Australia and New Zealand. Some of these are well known, but others are rare and ill defined. Material of all nine species has been examined and found to fall into three discrete morphological groups forming highly supported clades on analysis of 18S rDNA sequences. The first group contains four Australian‐endemic species and includes the type species L. spectabilis Sonder. Plants have a cleft apex that is not inrolled, a distinctive rhombic surface areolation pattern caused by a one‐ to two‐layered medulla of interlocking cells, lack pseudopericentral cells, and produce their reproductive structures on the blade surfaces. The type species of the genus Lenormandiopsis, L. latifolia (Harvey et Greville) Papenfuss, was found to belong to this group and is thus returned to Lenormandia where it was originally placed. Species falling into the other two groups are removed to new genera that are being described separately. One extremely rare species of Lenormandia from southwestern Australia is transferred to the delesseriacean genus Phitymophora.     

BIOCHEMICAL TAXONOMY AND MOLECULAR PHYLOGENY OF THE GENUS CHLORELLA SENSU LATO (CHLOROPHYTA)

A multimethod approach was used to characterize unicellular green algae that were traditionally assigned to the genus Chlorella Beijerinck and to resolve their phylogenetic relationships within the Chlorophyta. Biochemical, physiological, and ultrastructural characters, together with molecular data such as DNA base composition and DNA hybridization values, were compared with a molecular phylogeny based on complete 18S rRNA sequences. Our results show that Chlorella taxa are dispersed over two classes of chlorophytes, the Trebouxiophyceae and the Chlorophyceae. We propose that only four species should be kept in the genus Chlorella (Chlorophyta, Trebouxiophyceae): C. vulgaris Beijerinck, C. lobophora Andreyeva, C. sorokiniana Shih. et Krauss, and C. kessleri Fott et Nováková. Common characteristics of these taxa are glucosamine as a dominant cell wall component and the presence of a double thylakoid bisecting the pyrenoid matrix. Norspermine, norspermidine, and secondary carotenoids are never produced. Other "Chlorella" species belong to different taxa within the Trebouxiophyceae ( "C." protothecoides = Auxenochlorella protothecoides [Krüger] Kalina et Punčochářová, "C." ellipsoidea, "C." mirabilis, "C." saccharophila, and "C." luteoviridis ) and Chlorophyceae ( "C." zofingiensis and "C." homosphaera = Mychonastes homosphaera Kalina et Punčochářová). The latter taxa can easily be recognized by the production of secondary carotenoids under nitrogen-deficient conditions.     

EXPERIMENTAL MOLECULAR EVOLUTION OF BACTERIOPHAGE T7

We present an analysis of molecular evolution in a laboratory-generated phylogeny of the bacteriophage T7, a virus of 40 kilo-base pairs of double-stranded DNA. The known biology of T7 is used in concert with observed changes in restriction sites and in DNA sequences to produce a model of restriction-site convergence and divergence in the experimental lineages. During laboratory propagation in the presence of a mutagen, the phage lineages changed an estimated 0.5%-1.5% in base pairs; most change appears to have been G → A or C → T, presumably because of the mutagen employed. Some classes of restriction-site losses can be explained adequately as simple outcomes of random processes, given the mutation rate and the bias in mutation spectrum. However, some other classes of sites appear to have undergone accelerated rates of loss, as though the losses were selectively favored. Overall, the wealth of knowledge available for T7 biology contributes only modestly to these explanations of restriction-site evolution, but rates of restriction-site gains remain poorly explained, perhaps requiring an even deeper understanding of T7 genetics than was employed here. Having measured these properties of molecular evolution, we programmed computer simulations with the parameter estimates and pseudo-replicated the empirical study, thereby providing a data base for statistical evaluation of phylogeny reconstruction methods. By these criteria, replicates of the experimental phylogeny would be correctly reconstructed over 97% of the time for the three methods tested, but the methods differed significantly both in their ability to recover the correct topology and in their ability to predict branch lengths. More generally, the study illustrates how analyses of experimental evolution in bacteriophage can be exploited to reveal relationships between the basics of molecular evolution and abstract models of evolutionary processes.     

PHYLOGENY OF CARTERIA (CHLOROPHYCEAE) INFERRED FROM MOLECULAR AND ORGANISMAL DATA1

Comparative ultrastructural data have shown that at least two distinct groups exist within Carteria. Similarly, interpretations of variation in gross morphological features have led to the discovery of morphologically distinct groups within the genus. Partial sequences from the nuclear-encoded small- and large-subunit ribosomal RNA molecules of selected Carteria taxa were studied as a means of 1) testing hypotheses that distinct groups of species exist within the genus and 2) assessing monophyly of the genus. Parsimony analysis of the sequence data suggests that three Carteria species, C. lunzensis, C. crucifera, and C. olivieri, form a monophyletic group that is the basal sister group to all other ingroup flagellate taxa (including species of Chlamydomonas, Haematococcus, Stephanosphaera, Volvox, and Eudorina). Two other Carteria taxa, C. radiosa and Carteria sp. (UTEX isolate LB 762), form a clade that is the sister group to a clade that includes Haematococcus spp., Chlamydomonas spp., and Stephanosphaera. Thus, the sequence data support the interpretations of ultrastructural evidence that described two distinct Carteria lineages. Moreover, the sequence data suggest that these two Carteria groups do not form a monophyletic assemblage. Parsimony analysis of a suite of organismal (morphological, ultra-structural, life history, and biochemical) character data also suggest two distinct lineages among the five Carteria taxa; however, the organismal data are ambiguous regarding monophyly of these Carteria taxa. When the two independent data sets are pooled, monophyly of Carteria is not supported; therefore, the weight of available evidence, both molecular and organismal, fails to support the concept of Carteria as a natural genus.     

EVOLUTION OF ALLORECOGNITION IN BOTRYLLID ASCIDIANS INFERRED FROM A MOLECULAR PHYLOGENY

Despite the functional and phyletic ubiquity of highly polymorphic genetic recognition systems, the evolution and maintenance of these remarkable loci remain an empirical and theoretical puzzle. Many clonal invertebrates use polymorphic genetic recognition systems to discriminate kin from unrelated individuals during behavioral interactions that mediate competition for space. Space competition may have been a selective force promoting the evolution of highly polymorphic recognition systems, or preexisting polymorphic loci may have been coopted for the purpose of mediating space competition. Ascidian species in the family Botryllidae have an allorecognition system in which fusion or rejection between neighboring colonies is controlled by allele-sharing at a single, highly polymorphic locus. The behavioral sequence involved in allorecognition varies in a species-specific fashion with some species requiring extensive intercolony tissue integration prior to the allorecognition response, while other species contact opposing colonies at only a few points on the outer surface before resolving space conflicts. Due to an apparent species-specific continuum of behavioral variation in the degree of intercolony tissue integration required for allorecognition, this system lends itself to a phylogenetic analysis of the evolution of an allorecognition system. We constructed a molecular phylogeny of the botryllids based on 18S rDNA sequence and mapped allorecognition behavioral variation onto the phylogeny. Our phylogeny shows the basal allorecognition condition for the group is the most internal form of the recognition reaction. More derived species show progressively more external allorecognition responses, and in some cases loss of some features of internal function. We suggest that external allorecognition appears to be a secondary function of a polymorphic discriminatory system that was already in place due to other selective pressures such as gamete, pathogen, or developmental cell lineage recognition.