RAPD identification of microsatellites in Daphnia

Simple sequence repeats (SSRs, or microsatellites) have been constantly gaining importance as single-locus DNA markers in population genetics and behavioural ecology. We tested a PCR-based strategy for finding microsatellite loci in anonymous genomes, which avoids genomic library construction and screening, and the need for larger amounts of DNA. In the first step, parts of a genome are randomly amplified with arbitrary 10mer primers using RAPD fingerprinting. Labelled SSR-oligonucleotides serve as probes to detect complementary sequences in RAPD products by means of Southern analyses. Subsequently, positive RAPD fragments of suitable size are cloned and sequenced. Using GA and GT probes, we applied this approach to waterfleas ( Daphnia ) and revealed 37 hybridization signals in 20 RAPD profiles. Thirteen positive RAPD fragments from three Daphnia species and two hybrid 'species' were cloned and sequenced. In all cases simple sequence repeats were detected. We characterized seven perfect repeat loci, which were found to be polymorphic within and between species.     

Exploiting dinucleotide microsatellites conserved among mammalian species

Dinucleotide microsatellites are useful for gene mapping projects. Depending upon definition of conservation, published estimates of dinucleotide microsatellite conservation levels vary dramatically (30% to 100%). This study focused on well-characterized genes that contain microsatellites in the human genome. The objective was to examine the feasibility of developing microsatellite markers within genes on the basis of the assumption of microsatellite conservation across distantly related species. Eight genes (Gamma-actin, carcinoembryonic antigen, apolipoprotein A-II, cardiac beta myosin heavy chain, laminin B2 chain, MHC class I CD8 alpha chain, c-reactive protein, and retinoblastoma susceptibility protein) containing large dinucleotide repeat units (N ≥ 15), complete genomic structure information, and homologous gene sequences in a second species were selected. Heterologous primers were designed from conserved exon sequences flanking a microsatellite motif. PCR products from bovine and porcine genomic DNA were tested for the presence of microsatellite sequences by Southern blot hybridization with biotin-labeled (CA)₁₂ oligonucleotides. Fragments containing microsatellites were cloned and sequenced. Homology was verified by sequence comparisons between human and corresponding bovine or porcine fragments. Four of sixteen (25%) cross-amplified PCR products contained dinucleotide repetitive sequences with repeat unit lengths of 5 to 23. Two dinucleotide repetitive sequences showed microsatellite length polymorphism, and an additional sequence displayed single-strand conformational polymorphism. Results from this study suggest that exploitation of conserved microsatellite sequences is a useful approach for developing specific genetic markers for comparative mapping purposes. Received: 7 July 1995 / Accepted: 28 September 1995     

Mapping and genome organization of microsatellite sequences in rice (Oryza sativa L.)

In order to enhance the resolution of an existing genetic map of rice, and to obtain a comprehensive picture of marker utility and genomic distribution of microsatellites in this important grain species, rice DNA sequences containing simple sequence repeats (SSRs) were extracted from several small-insert genomic libraries and from the database. One hundred and eighty eight new microsatellite markers were developed and evaluated for allelic diversity. The new simple sequence length polymorphisms (SSLPs) were incorporated into the existing map previously containing 124 SSR loci. The 312 microsatellite markers reported here provide whole-genome coverage with an average density of one SSLP per 6 cM. In this study, 26 SSLP markers were identified in published sequences of known genes, 65 were developed based on partial cDNA sequences available in GenBank, and 97 were isolated from genomic libraries. Microsatellite markers with different SSR motifs are relatively uniformly distributed along rice chromosomes regardless of whether they were derived from genomic clones or cDNA sequences. However, the distribution of polymorphism detected by these markers varies between different regions of the genome. Received: 5 May 1999 / Accepted: 16 August 1999     

Identification, cloning, and characterization of microsatellite DNA in Euglena gracilis

Microsatellite DNA has been developed into one of the most popular genetic markers. We have identified and cloned microsatellite loci in the genome of a free-living protozoan Euglena gracilis FACHB-848, using the random amplified microsatellites method (RAMS). The digoxigenin-labelled oligonucleotides (CT)10 and (GT)10 served as probes to detect complementary sequences in the randomly amplified polymorphic DNA (RAPD) fingerprints produced by means of Southern blotting. Subsequently, positive RAPD fragments were cloned. From a total of 31 RAPD primer profiles, eight microsatellite loci of E. gracilis were detected and characterized. Further, six sites (i.e. EGMS1, EGMS3, EGMS4, EGMS5, EGMS6, and EGMS7) showed polymorphisms. We found a GT or CT microsatellite every 10.5 kb in the genome of E. gracilis, and similar to animal genomes, the (GT)(n) motif was much more abundant than the (CT)(n) motif. These polymorphic microsatellite DNA will serve as advantageous molecular markers for studying the genetic diversity and molecular ecology of Euglena.     

Microsatellite DNA markers for rice chromosomes

We found 369 complete microsatellites, of which (CGG/GCC)_n was the most frequent, in 11 798 rice sequences in the database. Of these microsatellites, 35 out of 45 could be successfully converted into microsatellite DNA markers using sequence information in their flanking regions. Thus, the time and labor used to develop new microsatellite DNA markers could be saved by using these published sequences. Twenty eight polymorphic markers between Asominori (japonica) and IR24 (indica) have been correctly mapped on the rice genome and microsatellites appear to be randomly distributed in the rice chromosomes. Integration of these markers with the published microsatellite DNA markers showed that about 35% of the rice chromosomes were covered by the 56 microsatellite DNA markers. These microsatellites were hypervariable and were easily to assay by PCR; they were distributed to all chromosomes and therefore, one can easily select plants carrying desired chromosome regions using these microsatellite DNA markers. Thus, microsatellite maps should aid the development of new breeds of rice saving time, labor, and money.     

Simple sequence repeats for genetic studies of alpaca

Trace sequences from the 2X alpaca genome sequencing effort were examined to identify simple sequence repeats (microsatellites) for genetic studies. A total of 6,685 repeat-containing sequences were downloaded from GenBank, processed, and assembled into contigs representing an estimated 4,278 distinct sequences. This sequence set contained 2,290 sequences of length > 100 nucleotides that contained microsatellites of length > or = 14 dinucleotide or 10 trinucleotide repeats with purity equal to 100%. An additional 13 sequences contained a GC microsatellite of length > or = 12 repeats (purity = 100%) were also obtained. Primer pairs for amplification of 1,516 putative loci are presented. Amplification of genomic DNA from alpaca and llama by PCR was demonstrated for 14 primer sets including one from each of the microsatellite repeat types. Comparative chromosomal location for the alpaca markers was predicted in the bovine genome by BLAT searches against assembly 4.0 of the bovine whole genome sequence. A total of 634 markers (41.8%) returned BLAT hits with score > 100 and Identity > 85%, with the majority assignable to unique locations. We show that microsatellites are abundant and easily identified within the alpaca genome sequence. These markers will provide a valuable resource for further genetic studies of the alpaca and related species.     

DNA sequence polymorphism at the human tumor necrosis factor (TNF) locus. Numerous TNF/lymphotoxin alleles tagged by two closely linked microsatellites in the upstream region of the lymphotoxin (TNF-beta) gene.

TNF-alpha and lymphotoxin (LT, TNF-beta) genes are tandemly arranged and map within the MHC centromeric to HLA-B and telomeric to the class III genes. Both cytokines encoded by these genes are potent immunomodulators. On the other hand, some MHC-linked autoimmune diseases are characterized by abnormal levels of their expression or inducibility. A search for the putative disease-associated TNF/LT alleles depends on the informative genetic markers at the TNF locus. Previously, a low degree of genetic polymorphism at the human TNF locus has been reported, mostly bi-allelic RFLP. To localize and define additional polymorphic markers, we probed the collection of genomic clones with synthetic tandemly repeated dinucleotides, corresponding to the sequences known as microsatellites. We mapped and characterized three (TC/GA) and one (AC/GT) repeats within cloned 40-kb DNA comprising the human TNF locus. Using a polymerase chain reaction-based technique, we analyzed three of these four microsatellites and observed their length of polymorphism. Using DNA samples from blood donors, two families, and three human cell lines, we detected 13 distinct alleles of the AC/GT microsatellite neighboring human TNF genes. The variability was further increased by simultaneous analysis of the second linked microsatellite. This linked TC/GA repeat showed at least five alleles, whereas the least polymorphic TC/GA repeat located in the first intron of LT (TNF-beta) gene had two alleles. TNF alleles defined by microsatellites were stably inherited and segregated in the Mendelian way. Therefore, we describe thus far the most informative level of DNA sequence polymorphism in this part of human MHC. We propose a nomenclature for microsatellite tagged LT/TNF alleles based on their size and variability, which could also be extended to include RFLP and other not yet identified polymorphic markers. Microsatellite tagged polymorphism described here can be used in systematic linkage studies of HLA-associated diseases.     

Survey and analysis of microsatellites in the silkworm, Bombyx mori: frequency, distribution, mutations, marker potential and their conservation in heterologous species

We studied microsatellite frequency and distribution in 21.76-Mb random genomic sequences, 0.67-Mb BAC sequences from the Z chromosome, and 6.3-Mb EST sequences of Bombyx mori. We mined microsatellites of >/=15 bases of mononucleotide repeats and >/=5 repeat units of other classes of repeats. We estimated that microsatellites account for 0.31% of the genome of B. mori. Microsatellite tracts of A, AT, and ATT were the most abundant whereas their number drastically decreased as the length of the repeat motif increased. In general, tri- and hexanucleotide repeats were overrepresented in the transcribed sequences except TAA, GTA, and TGA, which were in excess in genomic sequences. The Z chromosome sequences contained shorter repeat types than the rest of the chromosomes in addition to a higher abundance of AT-rich repeats. Our results showed that base composition of the flanking sequence has an influence on the origin and evolution of microsatellites. Transitions/transversions were high in microsatellites of ESTs, whereas the genomic sequence had an equal number of substitutions and indels. The average heterozygosity value for 23 polymorphic microsatellite loci surveyed in 13 diverse silkmoth strains having 2-14 alleles was 0.54. Only 36 (18.2%) of 198 microsatellite loci were polymorphic between the two divergent silkworm populations and 10 (5%) loci revealed null alleles. The microsatellite map generated using these polymorphic markers resulted in 8 linkage groups. B. mori microsatellite loci were the most conserved in its immediate ancestor, B. mandarina, followed by the wild saturniid silkmoth, Antheraea assama.     

Cloning and characterization of highly polymorphic porcine microsatellites.

A size-fractionated (200-400 bp) porcine genomic library was screened with the dinucleotide motifs (TG)n and (TC)n. The number of TG- and TC-positive clones was 83 and four, respectively, implying that the former motif is more frequent in the porcine genome, as previously reported in other species. Twenty-six TG-clones were sequenced, and the number of repeats varied between 16 and 42 with different compositions of the repetitive sequences; 17 clones had a perfect stretch of TG-repeats, four had imperfect stretches, and five had a compound structure with TG-repeats followed by TC-repeats. Primers for DNA amplification using the polymerase chain reaction (PCR) were synthesized for six loci. Ten unrelated individuals (two wild boars and eight domestic pigs of the Swedish Yorkshire breed) were screened for microsatellite polymorphism. All six microsatellite loci were polymorphic with two to seven alleles and observed heterozygosities in the range of 0.42-0.84; the inheritance of the observed polymorphism was confirmed by family studies. The characteristics of microsatellites make them highly suitable as genetic markers, and these microsatellites were isolated as a part of a pig gene mapping project.     

Characterization of nuclear DNA microsatellite markers in the ant Cataglyphis cursor

The ant Cataglyphis cursor is exceptional in that unmated workers are potentially able to lay both male and female eggs. We characterized eight pairs of primers for microsatellite loci, developed from genomic DNA for this species. Variability was tested with DNA from 19 workers and all eight loci were highly polymorphic, displaying 5–10 alleles and a high level of heterozygosity. Cross‐species amplifications indicate that these microsatellites might be useful in genetic studies of other species belonging to the genus Cataglyphis.     

Development of microsatellite markers in potato and their transferability in some members of Solanaceae

We have developed thirty new microsatellite markers in potato by screening genomic libraries and ESTs. Genomic libraries of potato cultivar Kufri Bahar were screened for sequences containing microsatellite motifs GA, GT, ACA, ATC, GAA, TAA and GATA. Using flanking sequences, PCR primers were designed for microsatellites identified from genomic libraries and ESTs. Sixteen new primer pairs from genomic libraries and fourteen from ESTs along with seven previously published primer pairs amplified PCR products in the selected genotypes comprising of 65 Solanum tuberosum lines and 14 other species of the potato gene pool. Neighbor-joining tree based on genetic distance matrix developed using microsatellite markers successfully distinguished all these genotypes in the expected size range. Seventeen microsatellites could also be cross-amplified in at least one of the five members of solanaceae, namely tomato, eggplant, pepper, petunia and tobacco. The new microsatellite markers obtained in this study will be useful in various genetic and taxonomic studies in potato and related genomes.     

Characterization of equine microsatellites and microsatellite-linked repetitive elements (eMLREs) by efficient cloning and genotyping methods.

We performed efficient cloning and genotyping methods for isolation of a large number of polymorphic microsatellites. The methods contain the time-efficient cloning method of constructing microsatellite-enriched libraries and the economic genotyping method of fluorescent labeling of PCR products. Eighty novel equine microsatellites cloned were efficiently isolated from the enrichment library and analyzed for genotype polymorphism. Of these, 72 microsatellites were analyzed with a good resolution. The average heterozygosity of all loci was 0.52, and the number of alleles ranged from one to 9 with an average of 4.5 alleles. The other eight loci showed multiple bands of PCR products, suggesting the occurrence of microsatellites in a repetitive element, in which the number of microsatellite repeats varies among different members of the repetitive element. We found five homologous groups at flanking regions in comparison with the flanking regions of microsatellites from DNA databases. One of them showed homology to equine repetitive element-2. In the other four homologous groups, the two groups were named equine microsatellite-linked repetitive element-1 (eMLRE-1) and equine microsatellite-linked repetitive element-2 (eMLRE-2) as novel equine repetitive elements identified from equine genome. These data should help the analysis of equine DNA sequences and the design of equine genome markers.     

Characterization and analysis of microsatellite loci in Elymus caninus (Triticeae: Poaceae)

 Microsatellites are highly variable DNA sequences that can be used as markers for the genetic analysis of plants. The potential of microsatellite markers for use in a genetic diversity study in Elymus species was evaluated. Genomic libraries of Elymus caninus were constructed. The libraries were screened with two dinucleotide, (GA)n and (GT)n, and two trinucleotide repeats, (TCT)n and (CAC)n. A total of 19 positive clones were found for the two dinucleotide repeats; no positive clone was found for the trinucleotide repeats. Positive clones were sequenced to confirm the presence of microsatellites and to generate polymerase chain reaction (PCR) primers based on the sequences flanking the microsatellite. All sequenced (GA)n clones have repeats of n>10; over half of the (GT)n microsatellites have n<10 repeats. Primer pairs were designed and evaluated for 8 selected microsatellites. PCR products were amplified from 15 Elymus caninus accessions. The number of alleles found for the eight loci varied from 1 for ECGA89 and ECGT35 to 13 for ECGA22, as determined by non-denaturing polyacrylamide electrophoresis. Six microsatellite loci were found to be polymorphic in E. caninus. The eight primer pairs were tested on three other species; seven were successful in amplifying DNA from Elymus alaskanus and E. mutabilis, and four amplified DNA from E. caucasicus. Based on these results, microsatellites appear to be useful markers in detecting variation in E. caninus. Received: 8 September 1997/Accepted: 6 October 1997     

Recombinant microsatellite amplification: a rapid method for developing simple sequence repeat markers

Recombinant microsatellite (simple sequence repeat; SSR) amplification is a technique by which DNA sequences flanking microsatellites can be isolated rapidly on a large scale. The approach selectively amplifies microsatellite-containing sequences and recombines the amplicons by redigestion and ligation, in order to increase the yield of microsatellite flanks per clone two-fold and to further increase selectivity of amplification. Since this method does not require prior knowledge of the genomic sequence, it is especially useful for species for which abundant genomic sequences are not available. The feasibility of this approach was demonstrated by developing SSR markers in cultivated oats.     

鳞翅目昆虫基因组中微卫星DNA的特征以及对其分离的影响

本文根据我们对鳞翅目昆虫棉铃虫和松毛虫以及其它动物 (筏蜘蛛、朱、鳕鱼和飞蝗 )的微卫星富集性基因组DNA文库的筛选和分析结果 ,结合其它实验室已发表的资料 ,对鳞翅目昆虫基因组中微卫星DNA的丰度和结构特点进行了较为系统的分析。结果表明 :与其它类群相比 ,尽管鳞翅目昆虫物种间存在差异 ,但其基因组中存在明显偏多的侧翼序列重复的、以多拷贝形式存在的微卫星位点 ,且其中相当一部分以基因家族的形式存在。微卫星DNA家族通常可以在序列分析阶段被识别出来 ,但很多多拷贝位点只有通过一系列后续分析才能被检查出来。这应是鳞翅目昆虫中微卫星位点的优化率相对偏低的主要原因。棉铃虫和松毛虫基因组中三相重复微卫星丰度相对较高 ,从而从某种程度上补偿了这些物种微卫星分离过程中因丰度低、多拷贝位点比例高所带来的困难。棉铃虫微卫星DNA家族侧翼序列中多聚T/A序列的存在表明 ,逆转录转座或逆转录侵染可能是在基因组中形成多拷贝微卫星位点和微卫星DNA家族的重要机制之一     

Distribution of dinucleotide microsatellites in the Drosophila melanogaster genome.

Microsatellites, a special class of repetitive DNA, have become one of the most popular genetic markers. The progress of various genome projects has made it possible to study the genomic distribution of microsatellites and to evaluate the potential influence of several parameters on their genesis. We report the distribution of dinucleotide microsatellites in the genome of Drosophila melanogaster. When considering only microsatellites with five or more repeat units, the average length of dinucleotide repeats in D. melanogaster is 6.7 repeats. We tested a wide range of parameters which could potentially influence microsatellite density, and we did not detect a significant influence of recombination rate, number of exons, or total length of coding sequence. In concordance with the neutral expectation for the origin of microsatellites, a significant positive correlation between AT content and (AT/TA)n microsatellite density was detected. While this pattern may indicate that microsatellite genesis is a random process, we also found evidence for a nonrandom distribution of microsatellites. Average microsatellite density was higher on the X chromosome, but extreme heterogeneity was observed between different genomic regions. Such a clumping of microsatellites was also evident on a more local scale, as 38.9% of the contiguous sequences analyzed showed a deviation from a random distribution of microsatellites.     

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.     

Isolation and characterization of polymorphic microsatellite loci from an EST‐library of red sea bream (Chrysophrys major) and cross‐species amplification

Microsatellite markers have been developed from a complementary DNA (cDNA) library of red sea bream, Chrysophrys major. Twenty‐eight microsatellites were selected for designing microsatellite primers, of which 11 gave working primer pairs. Observed and expected heterozygosities varied from 0.33 to 1.00 and from 0.38 to 0.83, respectively. Five additional fish species assessed for cross‐species amplification revealed between one and six positive amplifications and between 0 and 6 polymorphic loci per species.     

Microsatellite polymorphisms in Bolivian squirrel monkeys (Saimiri boliviensis)

Two different approaches were used to identify new microsatellite polymorphisms among captive Bolivian squirrel monkeys (Saimiri boliviensis). In the first case, PCR primers for published human microsatellite loci were screened using genomic DNA from squirrel monkeys. Six polymorphic loci were identified using DNA samples from 19 unrelated individuals. The average heterozygosity among these six loci is 0.73. In the second set of experiments, a DNA library was created from Saimiri genomic DNA, and clones were selected from that library by screening with probes containing di-, tri-, and tetranucleotide repeats. Six novel microsatellites were identified this way, with an average heterozygosity of 0.59. Primer pairs for these six cloned microsatellites were also screened using a series of DNA samples from ten other platyrrhine species to assess the potential utility of these loci in other taxa. This study provides 12 new DNA polymorphisms that will be useful for various studies of this genus and demonstrates that both approaches can be used to develop new DNA polymorphisms in platyrrhine species.     

A simple method for isolation of microsatellites from the Japanese squirrel,Sciurus lis,without constructing a genomic library

We developed a simple and easy method to isolate microsatellites without screening genomic libraries by hybridization. The method requires only three basic techniques: polymerase chain reaction, DNA cloning and sequencing. We applied this method to develop microsatellite markers for the Japanese squirrel and isolated 45 clones that contained repetitive sequences. Among the 22 clones that we tested further, we found 11 diagnostic microsatellite loci that are applicable to the molecular ecological study of Japanese squirrels.