火红熊蜂微卫星标记的筛选及种特异性分析

火红熊蜂Bombus pyrosoma是中国特有的熊蜂资源, 在华北地区分布十分丰富, 是众多野生植物和农作物的重要传粉者。为了探究火红熊蜂的遗传结构及其进化关系, 首次开展了该种熊蜂卫星标记的筛选及其种特异性研究。本研究采用生物素-磁珠吸附分离法从火红熊蜂基因组中筛选微卫星标记, 并选取黑熊蜂亚属Melanobombus其他7种熊蜂进行了这些标记的种特异性验证。结果表明： 不同探针与磁珠杂交产生的微卫星标记阳性克隆率存在很大差异, TC探针的微卫星阳性克隆率最高为82%; TG探针次之, 为28%; AT和GC探针分离未获得微卫星标记克隆。根据获得的阳性克隆的序列设计引物进行筛选验证, 共获得31对熊蜂微卫星序列特异性引物。微卫星标记分析发现, 完美型(perfect)18个, 占58.1%; 非完美型(imperfect)10个, 占32.3%; 混合完美型(compound perfect)1个, 占3.2%; 混合非完美型(compound imperfect)2个, 占6.4%。不同探针的微卫星核心序列重复数不同, TC探针和TG探针的微卫星核心序列最高重复数分别为28和15个, 最低重复数分别为7和11个。利用所获得的31对微卫星引物对黑熊蜂亚属其他7种熊蜂进行检测, 有26对引物可以扩增所测试的7种熊蜂, 其他5对引物只能扩增部分熊蜂种类, 其中BPM5是火红熊蜂种特异性引物。本研究从火红熊蜂基因组中筛选的微卫星标记, 不仅可用于火红熊蜂的遗传结构、 分子进化和资源保护等方面的研究, 而且可进一步用于黑熊蜂亚属其他种群的遗传特性分析。     

食用菌SSR序列开发策略研究进展

SSR序列开发策略主要有3大类:传统的基因文库筛选法、GenBank筛选法和富集文库筛选法。文中在对传统的基因文库筛选法、GenBank筛选法的优缺点及在食用菌SSR分子标记的开发应用进行综述的基础上,重点综述了富集文库筛选法,即基于RAPD技术的SSR开发策略、SSR兼并引物法、序列标签法构建SSR富集文库、vectorette PCR染色体步移法分离SSR位点、Suppression PCR染色体步移法分离SSR位点、引物延伸法构建SSR富集文库以及SSR杂交捕获法构建SSR富集文库的具体设计原理和步骤,并提出食用菌中SSR分子标识的开发现状和展望。     

New polymorphic microsatellite loci,cross‐species amplification and PCR multiplexing in the black aphid,Aphis fabae Scopoli

Aphis fabae includes four morphological cryptic subspecies, which are mostly identified by their partially distinct secondary host range. To determine the extent of gene flow and isolation between these four taxa, we isolated and characterized 12 microsatellite loci from Aphis fabae fabae and tested cross‐species amplification of eight loci from the closely related species Aphis gossypii. Using eight previously described microsatellite loci, we have developed the polymerase chain reaction (PCR) multiplexing of 24 loci, which were separated in tree sets and five PCRs. These sets of microsatellite loci provide high throughput capacity for large‐scale population genetic studies at a minimum cost.     

Vectorette PCR isolation of microsatellite repeat sequences using anchored dinucleotide repeat primers.

We have developed a vectorette PCR approach to provide an improved method for isolation of microsatellite repeats. The modified procedure relies on PCR amplification using a vectorette-specific primer in combination with one of a panel of anchored dinucleotide repeat primers. The target DNA to be screened for microsatellite sequences can be from YAC, P1, cosmid, bacteriophage or plasmid clones. We have used this technique to isolate novel, polymorphic microsatellite repeats from clones containing the amelogenin gene (AMGX) located on human chromosome Xp22.3.     

Characterization of the genome of Saccharomyces yeasts from red berry wines

Using restriction analysis of noncoding rDNA regions, multiplex PCR, and molecular karyotyping, we have examined Saccharomyces strains isolated from red berry wine materials in Russia, Belarus, and Ukraine. According to the molecular analysis, all strains belong to the species S. cerevisiae. A correlation was revealed between microsatellite fingerprints of the strains and the source of their isolation. The strains isolated from juices and from the surface of different berries showed distinct PCR profiles. The genome compositions of interspecific Saccharomyces hybrids of natural and laboratory origin were studied.     

Rapid and cost-effective screening of newly identified microsatellite loci by high-resolution melting analysis

This study describes a new method for identifying microsatellite loci that will reliably amplify and show high degree of polymorphism in a given species. Microsatellites are the most powerful codominant markers available today, but the development of novel loci remains a labour-intensive and expensive process. In de novo isolation, approaches using next generation sequencing (NGS) are gradually replacing ones using Escherichia coli libraries, resulting in unparalleled numbers of candidate loci available. We present a systematic review of published microsatellite primer notes and show that, on average, about half of all candidate loci are lost due to insufficient PCR amplification, monomorphism or multicopy status in the genome, no matter what isolation strategy is used. Thus, the screening of candidate loci remains a major step in marker development. Re-assessing capillary-electrophoresis genotyped loci via high-resolution melting analysis (HRM), we evaluate the usefulness of HRM for this step. We demonstrate its applicability in a genotyping case study and introduce a fast, HRM-based workflow for the screening of microsatellite loci. This workflow may readily be applied to NGS-based marker development and has the potential to cut the costs of traditional testing by half to three quarters.     

Six new polymorphic microsatellite loci isolated and characterized from the African savannah elephant genome

The African savannah elephant (Loxodonta africana) is a ‘keystone’ species that plays a vital role in regulating the dynamics of both plant and animal communities and yet it is endangered and its numbers have been reduced to approximately 500 000 across their entire continental range. Molecular genetic markers are important tools for providing genetic information useful in formulating effective management and conservation strategies for the surviving elephant populations. We describe the isolation and characterization of six new polymorphic microsatellite markers in the African savannah elephant and demonstrate that these loci can be PCR (polymerase chain reaction)‐multiplexed, a desirable attribute that saves costs in large‐scale microsatellite screening.     

商城肥鲵二碱基重复和四碱基重复微卫星DNA的结构特征及对筛选效率的影响

两栖类有尾目物种的微卫星分离中的筛选成功率常常较低。为探索微卫星结构对筛选效率的影响,本研究通过AFLP快速分离法(fast isolation by AFLP of sequences containing repeats,FIASCO)对商城肥鲵(Pachyhynobius shangchengensis)二碱基重复类型和四碱基重复类型微卫星进行分离,并对微卫星序列进行了分析。研究中发现二碱基微卫星位点多以微卫星DNA家族形式存在,并因此导致了微卫星位点分离较低的筛选率;在四碱基重复的微卫星位点中未发现微卫星DNA家族的存在。对研究中得到的3个微卫星DNA家族的分析发现,同一家族的上、下游侧翼序列变异程度存在差异;毗邻微卫星重复单元区的侧翼序列碱基变异程度较高,而较远处的区段则相对保守。这些结构特征可能反映出微卫星DNA家族在演化中的复杂性。本文的研究结果提示在两栖动物的一些类群中,微卫星的筛选必须考虑微卫星DNA家族的影响,选取适宜的碱基重复类型将是决定筛选效率的关键。     

Development of novel polymerase chain reaction (PCR) based microsatellite markers in Armillaria gallica by cross‐species amplification and species‐specific cloning

Cross‐species PCR amplification of Armillaria mellea group taxa with previously reported A. ostoyae microsatellite markers, indicative of flanking sequence conservation, was exploited for the species‐specific isolation of simple sequence repeat (SSR) motifs from A. gallica. Six SSR motifs were sequence characterized from cloned PCR fragments generated with primers previously developed from A. ostoyae. Five novel primer pairs, designed from motif flanking regions, allowed for improved, efficient amplification in this species. One original A. ostoyae primer pair was used directly. Polymorphims were observed at wide geographical levels only. Relative cross‐species amplification intensities generally supported the currently accepted molecular phylogeny of this group.     

文蛤微卫星DNA的筛选及其特性分析

采用磁珠富集分离法从文蛤(Meretrix meretrix)的基因组中筛选得到49条微卫星DNA序列,其中两碱基重复有3种类型36个序列,四碱基重复有14种类型26个序列.重复次数在5～30之间的序列占75.6%,30次以上重复的序列占24.4%,最高重复次数为100.根据重复单元的排列特点,完美型、非完美型及混合型序列所占比例分别为61.2%、14.5%和24.5%.本研究中构建的文蛤微卫星文库将在文蛤种质资源评价及分子遗传学研究中发挥作用.     

Reproductive versus floral isolation among morphologically similar Serapias L. species (Orchidaceae)

Flowers of the Mediterranean orchid genus Serapias L. form small, dark tubes that vary among taxa in diameter and depth. Visiting insects use the floral tube as shelter and act as pollinators if they touch the sticky viscidium at the rear of the tube and remove the pollinarium. It has been assumed that floral tube size and shape limit access to the flowers and thus may act as a barrier to gene flow between different Serapias species. Here we investigated floral characters and nuclear microsatellite markers in populations belonging to three morphologically similar Serapias species to test whether these species show evidence for floral or reproductive isolation. We found strong overlap of floral traits between two species, suggesting that floral isolation is nonexistent between them. Microsatellite markers applied to the same populations were highly polymorphic and revealed clear genetic differentiation among all three species. These results suggest that reproductive isolation exists, despite the lack of floral isolation between two of the species. In contrast to morphological characters, diagnostic microsatellite alleles were found for all Serapias species. The microsatellite markers could thus provide a useful tool to identify Serapias species and further investigate evolutionary relationships in this fascinating orchid lineage.     

Isolation of polymorphic microsatellite loci in Plantago major and P. intermedia

Plantago major and P. intermedia are two closely related inbreeding species. The isolation of polymorphic codominant microsatellite markers will provide valuable tools to investigate the reproductive isolation and the evolution of the two species. The isolation of microsatellite loci was achieved using a membrane enrichment method. Primers were designed to microsatellite flanking sequences and were analysed using fluorescent labels. Results indicated that nine out of the 10 loci amplified in both species, and that all the loci were polymorphic. The amplification of the loci was tested in a variety of Plantago species and was shown to be limited.     

Microsatellite primers for Australian and New Guinean pythons isolated with an efficient marker development method for related species

Microsatellites are powerful molecular genetic markers for many evolutionary and biotechnological investigations, however, development of sufficient microsatellite markers is time‐consuming and expensive especially considering the vast numbers of species for which they could be used. In light of the conservative nature of microsatellite loci between related species we describe an alternative approach to microsatellite development. A single round of microsatellite isolation enabled the characterization of sufficient loci for a large number of related python species. From 21 loci isolated in the focal species, an average of 86.2% were conserved within the other species while an average of 60.5% were polymorphic in all 13 python species analysed. Our approach will decrease significantly the expense and time required for microsatellite development for large numbers of related species.     

Design and implementation of degenerate microsatellite primers for the mammalian clade

Microsatellites are popular genetic markers in molecular ecology, genetic mapping and forensics. Unfortunately, despite recent advances, the isolation of de novo polymorphic microsatellite loci often requires expensive and intensive groundwork. Primers developed for a focal species are commonly tested in a related, non-focal species of interest for the amplification of orthologous polymorphic loci; when successful, this approach significantly reduces cost and time of microsatellite development. However, transferability of polymorphic microsatellite loci decreases rapidly with increasing evolutionary distance, and this approach has shown its limits. Whole genome sequences represent an under-exploited resource to develop cross-species primers for microsatellites. Here we describe a three-step method that combines a novel in silico pipeline that we use to (1) identify conserved microsatellite loci from a multiple genome alignments, (2) design degenerate primer pairs, with (3) a simple PCR protocol used to implement these primers across species. Using this approach we developed a set of primers for the mammalian clade. We found 126,306 human microsatellites conserved in mammalian aligned sequences, and isolated 5,596 loci using criteria based on wide conservation. From a random subset of ~1000 dinucleotide repeats, we designed degenerate primer pairs for 19 loci, of which five produced polymorphic fragments in up to 18 mammalian species, including the distinctly related marsupials and monotremes, groups that diverged from other mammals 120-160 million years ago. Using our method, many more cross-clade microsatellite loci can be harvested from the currently available genomic data, and this ability is set to improve exponentially as further genomes are sequenced.     

Microsatellite variation in Drosophila melanogaster and Drosophila simulans: a reciprocal test of the ascertainment bias hypothesis

Interspecific comparisons of microsatellite loci have repeatedly shown that the loci are longer and more variable in the species from which they are derived (the focal species) than are homologous loci in other (nonfocal) species. There is debate as to whether this is due to directional evolution or to an ascertainment bias during the cloning and locus selection processes. This study tests these hypotheses by performing a reciprocal study. Eighteen perfect dinucleotide microsatellite loci identified from a Drosophila simulans library screen and 18 previously identified in an identical Drosophila melanogaster library screen were used to survey natural populations of each species. No difference between focal and nonfocal species was observed for mean PCR fragment length. However, heterozygosity and number of alleles were significantly higher in the focal species than in the nonfocal species. The most common allele in the Zimbabwe population of both species was sequenced for 31 of the 36 loci. The length of the longest stretch of perfect repeat units is, on average, longer in the focal species than in the non-focal species. There is a positive correlation between the length of the longest stretch of perfect repeats and heterozygosity. The difference in heterozygosity can thus be explained by a reduction in the length of the longest stretch of perfect repeats in the nonfocal species. Furthermore, flanking-sequence length difference was noted between the two species at 58% of the loci sequenced. These data do not support the predictions of the directional-evolution hypothesis; however, consistent with the ascertainment bias hypothesis, the lower variability in nonfocal species is an artifact of the microsatellite cloning and isolation process. Our results also suggest that the magnitude of ascertainment bias for repeat unit length is a function of the microsatellite size distribution in the genomes of different species.      

Microsatellite cross-amplification in coccolithophores: application in population diversity studies

The development and isolation of microsatellites entails a significant input of time and money. Therefore there is an interest in using existing microsatellites on species from which markers have not yet been developed. Conservation of six previously identified microsatellite loci in the marine coccolithophorid species Emiliana huxleyi was found in a survey of two bloom forming coccolithophorid species--Gephyrocapsa oceanica and Coccolithus pelagicus. The number of alleles per locus varied from 1 to 8, and half of the microsatellite loci tested showed 4 or more alleles. The microsatellite markers used in this study may be applied to other coccolithophorid species for population analysis, eliminating the time-consuming, costly development of microsatellite markers for other coccolithophorid species.     

Targeted development of microsatellite markers from the defined region of bovine Chromosome 6q21-31

A methodical strategy for the isolation of microsatellite markers specific for targeted regions of bovine chromosomes is presented. The procedure involves directed microdissection of one defined subchromosomal area, its DOP-PCR-amplification and cloning. With this approach, a library specific to the BTA 6q21-31 chromosomal region was constructed. Eleven unique microsatellite-containing sequences were isolated, converted into sequence-tagged microsatellite sites, and characterized concerning their species-specific origin. Seven primer pairs generated bovine-specific PCR products and provided a set of microsatellite markers that generally revealed high informativity in the HF breed. Linkage analysis assigned six of them to their predefined subchromosomal origin on BTA 6 corresponding to the specific rehybridization signal of the DOP-PCR product generated from the microdissected chromosome area 6q21-31. The results underline the usefulness of the BTA 6q21-31 library for targeted isolation of unique sequences that are specific for the dissected chromosomal region as demonstrated here by the isolation of microsatellite markers. Received: 27 March 1997 / Accepted: 14 July 1997     

Development and use of simple sequence repeat SSR markers in Rubus species

The isolation of polymorphic codominant microsatellite markers in Rubus and in particular red raspberry will provide a tool to investigate gene flow between cultivated and wild raspberries. Microsatellite loci were isolated by screening a PstI size selected genomic library with AC₍₁₃₎ and AG₍₁₃₎. Positive clones were sequenced and primer pairs designed to the sequences flanking identified SSRs. One primer of each pair was fluorescently labelled to facilitate polymerase chain reaction (PCR) product identification on an automated DNA sequencer. We describe 10 polymorphic microsatellite loci developed and demonstrate their usefulness in different Rubus species.     

Characterization of the genome of <Emphasis Type="Italic">Saccharomyces</Emphasis> yeasts from red berry wines

Using restriction analysis of noncoding rDNA regions, multiplex PCR, and molecular karyotyping, we have examined Saccharomyces strains isolated from red berry wine materials in Russia, Belarus, and Ukraine. According to the molecular analysis, all strains belong to the species S. cerevisiae. A correlation was revealed between microsatellite fingerprints of the strains and the source of their isolation. The strains isolated from juices and from the surface of different berries showed distinct PCR profiles. The genome compositions of interspecific Saccharomyces hybrids of natural and laboratory origin were studied.     

A novel set of microsatellite marker loci linkage-mapped in the house musk shrew, Suncus murinus.

Ten microsatellite DNA loci developed for the white-toothed shrew (Crocidura russula) were tested for PCR amplification and for utility in linkage studies in the house musk shrew, Suncus murinus. Four primer pairs successfully yielded PCR amplicons and showed polymorphism between two mutant strains, BAN-kc,oeb and WZ. Cloning and sequencing of the PCR amplicons of all the four loci confirmed the presence of microsatellite sequences. Alleles segregating in an F2 resource population constructed from the two strains ranged between two and five. Linkage analysis of the four loci together with 18 other polymorphic markers and three mutant loci resulted in five linkage groups containing three newly mapped microsatellite loci. This study reports the first microsatellite markers being registered in this species.