植物遗传多样性和系统学研究中的等位酶分析

本文对“等位酶”的概念、等位酶分析方法在植物遗传多样性和系统学研究中应用的范围（包括种上和种下）进行了介绍和讨论,并对其优点和缺点进行了评论。认为等位酶分析是研究生物遗传多样性的重要方法,并为系统学和进化研究进入分子水平开辟了广阔而实用的前景,但使用分子资料并不意味着可以抛弃形态、细胞等其他方面的资料,它们的关系是互相补充,而决不是互相代替。     

等位酶分析的遗传学基础

在等位酶分析中,对酶谱的正确解释是获取遗传学资料的基础,酶谱作为酶基因的表现型,是由该种酶蛋白质的四级结构情况（亚基的数目）、在亚细胞分室中的分布（位点的数目）以及所分析样品的倍性和基因型的情况所决定的。术语“酶型”被建议用来记录和描述各种情况下的酶谱的不同。在进行生物多样性和分子系统学研究中,如果直接把酶谱上带的数目的多少作为遗传多样性大小的指标,或把带的多少及迁移率的大小作为数量性状进行聚类和分枝分析将会得出非常错误的结论。     

遗传多样性概述

遗传多样性作为生物多样性的重要组成部分,是物种多样性、生态系统多样性和景观多样性的基础。随着研究方法和实验技术的发展,遗传多样性研究从形态学水平、细胞学（染色体）水平、生理生化水平逐渐发展到分子水平。形态标记、细胞学标记、等位酶分析、DNA多态性分析等方法,为我们研究遗传多样性提供了有效的工具。特别是DNA多态性分析是一种更为直接而有效的方法。     

等位酶分析的遗传学基础（续）

在等位酶分析中,对酶谱的正确解释是获取遗传学资料的基础,酶谱作为酶基因的表现型,是由该种酶蛋白质的四级结构情况（亚基的数目）、在亚细胞分室中的分布（位点的数目）以及所分析样品的倍性和基因型的情况所决定的。术语“酶型”被建议用来记录和描述各种情况下酶谱的不同。在进行分子系统学研究中,如果直接把酶谱上带的数目的多少作为遗传多样性大小的指标,或把带的多少及迁移率的大小作为数量性状进行聚类和分枝分析将会得出非常错误的结论。     

中华水韭(Isoetes sinensis)等位酶分析的初步研究

采用超薄平板聚丙烯酰胺等电聚焦技术对珍稀涉危植物中华水韭（Isoetes sinensis Palmer）72个样品的等位酶遗传变异进行了初步研究。从24种酶筛选,得到了13种酶系统可用于该植物的遗传变异分析,其中7种酶系统在中华水韭的迁地保护区群中检测出16个位点,共27个等位基因,12个位点表现出多态性。遗传多样性初步分析表明：中华水韭具较低的等位酶遗传多样性。研究结果为中华水韭的综合保育及居群恢复、重建提供了初步的依据。中华水韭遗传变异的全面研究将在进一步改善等位酶方法的基础上,采用其它更为灵敏的分子标记方法做深入检测。     

分子系统学研究进展

分子系统学 ( molecular systematics)是近 30年发展起来的一门综合性前沿学科 ,它在分子水平上对生物进行遗传多样性、分类、系统发育和进化等方面的研究 ,其研究结果对于保护生物多样性 (尤其是遗传多样性 ) ,揭示生物进化历程及机理具有十分重要的意义。1　分子系统学的定义及发展简史分子系统学是通过检测生物大分子包含的遗传信息 ,定量描述、分析这些信息在分类、系统发育和进化上的意义 ,从而在分子水平上解释生物的多样性、系统发育及进化规律的一门学科。它以分子生物学、系统学、遗传学、分类学和进化论为理论基础 ,以分子生物学…     

红菇属研究进展

红菇属Russula是一类具有较高经济和研究价值的食药用真菌,部分种类有毒。从红菇属的资源和分类、分子系统学、遗传多样性与应用研究等方面,本文对近年的研究进展进行了综述。红菇属研究存在的主要问题是形态特征记述误差较大导致的鉴定不准确,现有分子系统学研究和遗传多样性研究只涉及了少数种类的单基因片段,我国已报道的大量原初描述于欧洲和北美洲的种名是否在我国有分布尚存在争议,解决上述问题是今后红菇属研究的主要方向。     

分子水平的遗传多样性及其测量方法

遗传多样性水平是一项很重要的数据。目前从分子水平量化遗传多样性的方法以等位酶分析、ＲＦＬＰ分析和ＲＡＰＤ分析为代表。遗传变异在基因组中并非随机分布,所以取样方式对分析结果的影响不容忽视。本文叙述了遗传变异的产生和分布,并以此为基础比较了上述３种分析方法的理论与实践。     

几种常用分子标记遗传多样性参数的统计分析

对235篇文献中314种野生种子植物的遗传多样性参数进行了统计分析.结果表明,目前常用的五种分子标记中,ISSR、等位酶和SSR的参数值间差异显著,彼此不宜直接比较,且与RAPD和AFLP的参数也不宜直接比较;显性标记RAPD和AFLP的参数之间可以直接比较.基于Hardy-Weinberg平衡的遗传分化指数GR值明显低于基于AMOVA分析的ΦR值,两者亦不宜直接比较.对基于RAPD和AFLP标记的179种植物的遗传多样性参数进行联合分析,结果表明:在种群水平上,裸子植物的遗传多样性比双子叶植物和单子叶植物都要高,而其遗传分化值较低;乔木的遗传多样性比草本和灌木高,而分化值更低;克隆植物具有比有性生殖更高的遗传多样性,在有性生殖植物中,异交植物最高,而自交植物最低;广布种的遗传多样性明显高于濒危和狭域分布种.     

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。     

Assessment of three mitochondrial loci variability for the crown-of-thorns starfish: a first insight into Acanthaster phylogeography

Acanthaster planci (L.) is one of the major threats to coral reefs, whose genetic diversity has been mainly studied with allozymes. Allozymes revealed the low genetic differentiation between A. planci populations in the Indo-Pacific area. We obtained sequences of A. planci from Kenya, Mayotte and Madagascar at the three loci cytochrome oxydase subunit I (COI), 16S rDNA (16S) and five tRNAs, analysed together with available sequences of Acanthaster from the Pacific Ocean. The level of genetic diversity varied among the three loci, tRNAs being on average three times less divergent than COI and 16S genes. The genus Acanthaster appeared monophyletic, the two species A. brevispinus (Fisher) and A. planci forming distinct clades in agreement with data from morphology and systematics. The A. planci clade split into a West Indian Ocean group and a Pacific group, in agreement with allozyme data on population differentiation. To cite this article: K. Gérard et al., C. R. Biologies 331 (2008).     

Allozyme Variation and Genetic Relationships among Species of Cimicifuga (Ranunculaceae) from Korea

Allozyme investigation of the five Cimicifuga taxa in Korea was conducted to assess genetic and clonal diversity within populations and genetic divergence among populations and taxa. Levels of allozyme variation maintained in Korean Cimicifuga taxa were comparable to those for most herbaceous perennials. In general, samples excluding copies of the same multilocus genotype maintained higher levels of genetic diversity than the total samples within populations. Copies of homozygous genotypes at several loci resulting from clonal spread lead to decreased levels of genetic diversity within populations, indicating that clonal reproduction found in Cimicifuga affects population genetic structure. In general, more widely distributed species such as C. dahurica and C. japonica harbored higher levels of allozyme diversity than the other taxa examined. Although two varieties of C. heracleifolia are geographically and reproductively isolated, the genetic and clonal structure of var. bifida seems to resemble var. heracleifolia, indicating that the two varieties may have had a similar evolutionary history. However, the allozyme data strongly indicate that the two morphological types (Groups I and II) of C. simplex should be treated as separate species.     

串珠藻目分子系统学研究进展

串珠藻目(Batrachospermales)是淡水红藻中最主要的类群。近年来, 应用DNA序列分析探讨串珠藻目的系统发育, 并与传统的形态学和生态学特征相结合, 为串珠藻目系统学研究拓展了新的思路。本文回顾了串珠藻目的建立及其所含类群的研究历史, 归纳了目前在串珠藻目系统发育与进化研究中常用的分子标记方法, 其中包括核基因组的18S rDNA、26S rDNA和ITS序列, 叶绿体基因组的rbcL序列, 线粒体基因组的cox2-3序列, 以及新兴的ISSR技术, 并对各种分子标记的特点及适用范围做了评述。结果表明, ITS序列多适用于种群分化及相近种间遗传分析, ISSR标记适用于种下分类群间及同一种群不同个体间基因多态性分析, cox2-3序列在一定程度上也可用于同一种群不同个体间的基因多态性分析, 而18S rDNA 与rbcL序列既可用于种间关系分析, 又可用于更高水平分析的构建系统树。这些分子标记已被证明在研究串珠藻目系统地理、物种起源和散布机制方面有着广泛的应用前景。同时, 本文对串珠藻目分子系统学研究的最新进展也进行了概述,并对今后的研究方向做了展望。     

串珠藻目分子系统学研究进展

串珠藻目（Batrachospermales）是淡水红藻中最主要的类群。近年来,应用DNA序列分析探讨串珠藻目的系统发育,并与传统的形态学和生态学特征相结合,为串珠藻目系统学研究拓展了新的思路。本文回顾了串珠藻目的建立及其所含类群的研究历史,归纳了目前在串珠藻目系统发育与进化研究中常用的分子标记方法,其中包括核基因组的18SrDNA、26SrDNA和ITS序列,叶绿体基因组的rbcL序列,线粒体基因组的cox9．-3序列,以及新兴的ISSR技术,并对各种分子标记的特点及适用范围做了评述。结果表明,ITS序列多适用于种群分化及相近种间遗传分析,ISSR标记适用于种下分类群间及同一种群不同个体间基因多态性分析,cox2-3序列在一定程度上也可用于同一种群不同个体间的基因多态性分析,而18SrDNA与rbcLFF列既可用于种问关系分析,又可用于更高水平分析的构建系统树。这些分子枥对己已被证明在研究串珠藻目系统地理、物种起源和散布机制方面有着广泛的应用前景。同时,本文对串珠藻目分子系统学研究的最新进展也进行了概述,并对今后的研究方向做了展望。     

Allozyme polymorphisms of maize populations from southwestern China

Maize (Zea mays L.) is one of the most-important food crops in southwestern China. The diversity of maize populations from southwestern China has been evaluated on the basis of agronomic and morphological data, but not on marker data. Our objectives were to evaluate the allozyme polymorphism of these populations, and group the populations on the basis of allozyme data. We analyzed 27 maize populations from southwestern China and two populations [BS13(S)C2 and Lancaster] from the USA for genetic variation at 18 allozyme loci. We found a total of 69 alleles at 18 allozyme loci with an average of 3.8 alleles per locus. Compared with inbreds, hybrids, and populations from the U.S. Corn Belt, the 27 Chinese populations had a significantly higher (p<0.01) number of allozyme alleles per locus. Maize populations from southwestern China have accumulated abundant genetic diversity, and might be valuable germplasm for broadening the genetic base of U.S. Corn Belt breeding germplasm. The analyses of allele-frequency distributions and the expected heterozygosity also reflected the differences between the Chinese and the U.S. germplasm. The Chinese populations might be valuable germplasm for complementing U.S. Corn Belt breeding germplasm. The analysis of gene diversity showed that 77% of the allozyme variation resided within populations and 23% between populations. This result suggested that breeders should identify one or a few Chinese populations with the best agronomic performance, and exploit the genetic variation within these selected populations. Cluster analysis classified the 29 populations into four main groups. Groupings based on allozyme data could be useful for classifying the populations into different heterotic groups and, consequently, exploiting them in hybrid breeding. Received: 12 October 2000 / Accepted: 13 March 2001     

Variability of allozyme and cpSSR markers in the populations of Siberian spruce

The variability of 21 allozyme and three microsatellite loci of chloroplast DNA (cpDNA) was studied in the populations of Siberian spruce (Picea obovata Ledeb.) from Irkutsk oblast, Magadan oblast, Buryatia, and Mongolia. It was demonstrated that the highest level of genetic diversity among the examined populations at both allozyme and microsatellite loci was observed in the Tulyushka population from Irkutsk oblast. The lowest level of genetic diversity was observed in marginal isolated populations of Bogd Uul and Magadan. In the relict spruce population from Olkhon Island, differing from the other populations in the lowest allelic diversity of both types of markers, no expected decline of expected heterozygosity and haplotype diversity was observed. In this population, the variability parameters mentioned were close to the population mean. The obtained intrapopulation and intraspecific variability parameters of allozyme and microsatellite loci of chloroplast DNA and the data on the population differentiation at these loci indicate that the given markers can be used for the analysis of the population structure of Siberian spruce.     

Genetic diversity and endemism in North American Carex section Ceratocystis (Cyperaceae)

Factors leading to endemism, and the evolutionary implications of endemism, can be explored by studying closely related taxa with variously restricted distributions. Such a model is provided by Carex section Ceratocystis (Cyperaceae); Carex cryptolepis, Carex sp. nov., and C. lutea are North American endemics with broad, restricted, and highly restricted distributions, respectively. The prediction that levels of genetic diversity are a consequence of distribution size was tested within a phylogenetic context using population level genetic variation at 18 allozyme loci. In contrast to expectations, mean proportion of loci polymorphic, number of alleles per polymorphic locus, and expected heterozygosity were significantly greater in C. lutea than either C. cryptolepis or Carex sp. nov. Although the possibility of a shift in breeding system, past introgression, or progenitor-derivative relationships could explain the relatively high levels of variation observed in C. lutea, these were dismissed on the basis of allozyme and nuclear ribosomal sequence data. We conclude that C. lutea maintains levels of genetic diversity typical of caespitose carices despite its narrow endemism and that the low levels of genetic variation in C. cryptolepis and Carex sp. nov. are likely the result of population fluctuations during Pleistocene glacial-interglacial cycles.