Use of short microsatellites from database sequences to generate polymorphisms among Lycopersicon esculentum cultivars and accessions of other Lycopersicon species

A search of nearly 2000 sequences from Solanaceae species in the EMBL and Genbank databases yielded 220 microsatellites. Among these were 80 microsatellites from 675 Lycopersicon entries. Dinucleotide repeats, as well as (CAA)_n and (TAA)_n repeats, were over-represented in non-coding DNA. The other trinucleotide repeats were predominantly found in exonic DNA. PCR analysis of 44 of the microsatellite-containing Lycopersicon loci identified 36 primer pairs that yielded well-scorable fragments, or groups of fragments, in L. esculentum cultivars and accessions of Lycopersicon species. Twenty-nine of these amplified bands that were polymorphic among the four Lycopersicon species. Ten primer pairs generated polymorphic bands among seven tomato cultivars. Upon examining the number of microsatellites and the degree of polymorphisms in relation to the repeat type and motif, the type of DNA the microsatellite resided in, the length of the microsatellite, and the presence of imperfections in the microsatellite, only two significant correlations were found. (i) Imperfect repeats were less polymorphic among species than perfect repeats. (ii) The percentage of loci polymorphic among cultivars increased from 6% for the shortest loci (with eight or less repeat units) to 60% for the group with the longest repeats (12 repeat units or longer). Among the species, however, all length classes contained about 83% polymorphic loci. In general, 2–4 alleles were found for each locus among the samples of the test set. In a few cases, up to eight alleles were found. A combination of these microsatellite loci can therefore be useful in distinguishing cultivars of tomato, which are genetically very closely related to each other. Received: 9 August 1996 / Accepted: 23 August 1996     

Characterization of microsatellites and development of chromosome specific STMS markers in bread wheat

Microsatellites, or simple sequence repeats (SSRs), have become the markers of choice for genetic studies with many crop species including wheat. Currently an international effort is underway to enrich the repertoire of available sequence tagged microsatellite site (STMS) markers in wheat. As a part of this effort, we have sequenced 43 clones obtained from a microsatellite-enriched wheat genomic library; 34 clones contained 41 different microsatellites. These microsatellites (mono-, di-, tri- nucleotide repeats) were classified as 19 simple perfect, 18 simple imperfect and 4 compound imperfect types. Dinucleotide repeats were the most abundant (70%). Primer pairs for only 16 microsatellites could be designed, since the flanking sequences of the others were either too short or were otherwise not suitable for designing the microsatellite specific primers. Microsatellite loci of the expected size and polymorphism were successfully amplified from 15 of these 16 primer pairs using three wheat varieties. 14 loci detected by 12 out of the 15 functional primer pairs were assigned to 11 specific chromosomes. An erratum to this article is available at .     

GenBank数据库中鳜鱼微卫星位点的筛选及特征分析

微卫星(Microsatellite)是一类由2-6个核苷酸经多次单位串联组成的高度变异重复DNA序列(Schlotterer and Tautz,1992)。它具有按照孟德尔方式分离、突变快、多态信息含量丰富、呈共显性遗传等特点,其核心序列在同一物种中具有保守性,因此,可以根据微卫星的侧翼序列设计合适的引     

Development of transcript-associated microsatellite markers for diversity and linkage mapping studies in hop (<Emphasis Type="Italic">Humulus lupulus</Emphasis> L.)

Data mining of gene sequences available from various projects dealing with the development of expressed sequence tags (ESTs) can contribute to the discovery of new microsatellite markers. Our aim was to develop new microsatellite markers in hop isolated from an enriched cDNA library and from coding GenBank sequences and to test their suitability in hop diversity studies and for construction of a linkage map. In a set of 614 coding GenBank sequences, 72 containing microsatellites were found (11.7%); the most frequent were trinucleotide repeats (54.0%) followed by dinucleotide repeats (34.5%). Additionally, 11 sequences containing microsatellites were isolated from an enriched cDNA library. A total of 34 primer pairs were designed, 29 based on GenBank sequences and five on sequences from the cDNA enriched library. Twenty-seven (79.4%) coding microsatellites were successfully amplified and used in diversity and linkage mapping studies. Eleven primer pairs amplified 12 coding microsatellite loci suitable for mapping and were placed on female and male linkage maps. We were able to extend previous simple sequence repeat (SSR) female, male and integral maps by 38.8, 25.8 and 40.0 cM, respectively. In the diversity study, 36 diverse hop genotypes were analyzed. Twenty-four coding microsatellites were polymorphic, 17 showing co-dominant behavior and 7 primer pairs amplifying three or more bands in some hop genotypes. Altogether, 143 microsatellite DNA fragments were amplified and they revealed a clear separation of hop genotypes according to geographical region, use or breeding history. In addition, a discussion and comparison of results with other plant coding/EST SSR studies is presented. Our results showed that these microsatellite markers can enhance hop diversity and linkage mapping studies and are a comparable marker system to non-coding SSRs.     

Eleven new microsatellites for hop (Humulus lupulus L.)

We present a new set of 11 polymorphic microsatellite primer sequences for use with Humulus lupulus. Microsatellite‐enriched libraries for GA_n and GT_n types of repeats were produced. Sequencing of 72 clones revealed 42 unique inserts containing microsatellites, out of which 19 primer pairs were designed and microsatellite amplification was tested on 39 wild hops and cultivars. Eleven primer pairs showed single locus amplification with 2–13 alleles, average 7.2, of which 17 unique alleles were discovered. One primer pair amplified too strong stutter bands, one locus was monomorphic and multilocus amplification was obtained with the remaining six primer pairs.     

Use of 5´-anchored primers for the enhanced recovery of specific microsatellite markers in Brassica napus L.

Microsatellite markers have assumed great significance in biological research. The isolation and characterisation of microsatellites involves DNA library construction and screening, DNA sequencing, primer design and PCR optimisation. When a microsatellite is situated close to the beginning or end of a cloned fragment, specific primers cannot be designed for one of the flanking sequences, thus hindering the utilisation of such microsatellites as markers. The present approach was to use one 5′-anchored primer complementary to the microsatellite sequence in combination with one specific Cy5- labelled primer with a view to retrieving useful microsatellites, which would otherwise be lost. Six pairs of a 5′ anchored primer and a specific primer were used across a set of 31 Brassica napus winter cultivars and one accession each of five additional Brassica species. Using laser fluorometry a single labelled product was observed after amplification with each of four primer pairs, and one primer pair gave two labelled products. Three products corresponded in size with the products expected if 5′ anchoring was effective, indicating the amplification of locus-specific full-length products including all of the microsatellite repeats. All six primer pairs showed polymorphisms across the Brassica species examined, but only one primer pair showed polymorphisms within B. napus, making it useful for genetic analysis in rapeseed cultivars. The other primer pairs could be useful in studying gene introgression into B. napus or for investigating interspecific crosses involving different Brassica species. Received: 5 August 1999 / Accepted: 1 November 1999     

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     

Development of simple sequence repeats (SSRs) in olive tree (Olea europaea L.)

We report the development of microsatellites or simple sequence repeats (SSRs) in the olive tree (Olea europaea L.). Forty three positive clones obtained by the screening of a GA-enriched genomic library were sequenced and primers were designed for 13 microsatellite loci. Five primer pairs amplified polymorphic products of the expected size range. SSR polymorphism was explored in a set of 46 olive cultivars. A total of 26 alleles were detected for the five loci. Heterozygosity ranged from 0.46 to 0.71. Ninety one per cent of the cultivars had unique multilocus genotypes. Microsatellite segregation was studied in a complex population from a cross between the commercial cultivars ’Leccino’ and ’Dolce Agogia’. Received: 3 February 2000 / Accepted: 21 March 2000     

Primers for 10 polymorphic microsatellites from Caulanthus amplexicaulis var. barbarae,and cross‐amplification in other species within the Streptanthoid Complex (Brassicaceae)

Ten microsatellite primer pairs, developed from Caulanthus amplexicaulis var. barbarae (J. Howell) Munz, specifically amplified target loci across a diverse range of taxa from the Streptanthoid Complex, Brassicaceae. All primer pairs produced amplification products from at least 22 of the 23 accessions tested. Product size variation and observable heterozygosity were consistent with what would be expected from the amplification of polymorphic microsatellites across the complex. Our findings demonstrate that microsatellites developed for C. amplexicaulis var. barbarae will be useful for population‐genetic studies in taxa throughout the Streptanthoid Complex.     

Characteristics of single- and multi-copy microsatellites from Pinus radiata

 Dinucleotide microsatellites were isolated from Pinus radiata using both a standard genomic library and libraries enriched for microsatellites. Locus-specific primers were designed to amplify 43 unique microsatellites. Thirty two of these loci had interpretable PCR patterns, 11 of which were polymorphic in a screen of 19 P. radiata individuals; all 11 polymorphic loci contained at least 17 repeats in the sequenced plasmid. Six of the eleven primer pairs amplified multiple fragments per individual (3–8), suggesting that these loci were present in multiple copies in the genome. Genotyping a 48-tree P. radiata production population with seven of the most polymorphic microsatellites revealed an average of 17 bands per locus (the multi-copy microsatellites were treated as one locus). When tested on known pedigrees, both single and multi-copy microsatellites exhibited co-dominant inheritance and Mendelian segregation. Two loci had null alleles and one locus had a high frequency of non-parental alleles, suggesting a high mutation rate. Eight of these microsatellites, including five multi-copy loci, were placed on a partially constructed P. radiata genetic map. Four of the five multi-copy microsatellites had two or more sets of alleles that mapped to the same locus, and the fifth mapped to two unlinked loci. All seven tested primer pairs amplified PCR products from other species of hard pine, three amplified products from soft-pine species, and one amplified bands in other conifers. Received: 10 November 1997 / Accepted: 5 January 1998     

Use of polymorphic short and clustered coding-region microsatellites to distinguish strains of Candida albicans

Abstract We describe the identification of polymorphic microsatellite loci in the pathogenic yeast, Candida albicans . A search for all coding-region microsatellites with more than four repeats that can be found in Candida sequences in GenBank was conducted. Nine such microsatellite sequences consisting of trinucleotide motifs were found. Three of these were perfect microsatellites while the remaining six sequences were found in one imperfect microsatellite and two compound microsatellites. Because of the close proximity of some of these repeats, all could be assayed with six PCR primer pairs. All of these microsatellite sequences were found in five nuclear genes, ZNF1, CCN1, CPH1, EFG1 , and MNT2 . Except for a single (CTT)₅ serine tract, all coded for polyglutamine tracts. Another locus with seven alleles, a region of the ERK1 protein kinase gene, was also examined, and may be a representative of a new class of highly polymorphic ‘clustered’ microsatellites. Such loci, in which several non-contiguous but closely linked microsatellites are clustered together, may be a useful source of DNA polymorphisms in microorganisms in which long microsatellite sequences are unavailable. All seven regions amplified were polymorphic, having between two and seven variable length alleles in the 11 strains of Candida albicans examined. The results of this and similar searches will facilitate epidemiological and evolutionary studies of Candida and other microorganisms.     

Development of microsatellite markers in Fragaria, their use in genetic diversity analysis, and their potential for genetic linkage mapping.

We have developed 21 new microsatellites in the model diploid perennial species Fragaria vesca from an enriched genomic library developed using F. vesca 'Ruegen'. The transferability of the primer pairs to other Fragaria species was high; all 31 primer pairs produced amplicons in 3 accessions of the octoploid strawberry Fragaria x ananassa, whereas 24 (77%) amplified a product in 7 other diploid Fragaria species. We analysed the allelic variation among 15 F. vesca accessions using the 21 microsatellites reported here and 10 F. vesca microsatellites described previously. The level of polymorphism detected at these microsatellite loci was high; five loci were monomorphic. Only two microsatellites were required to unambiguously discriminate among the 15 F. vesca accessions. A preliminary survey of segregation in an F2 progeny indicates that 20 of the 26 polymorphic loci (77%) could be mapped.     

Development and characterization of polymorphic microsatellites from Prunus avium‘Napoleon’

Primers were developed for 21 microsatellite loci isolated by enrichment from Prunus avium‘Napoleon’. Twelve loci contained uninterrupted dinucleotide repeats and nine were more complex. Nineteen primer pairs (EMPA001–019) showed single locus polymorphisms in a cultivar survey of 14 sweet cherries, with two to seven alleles per locus. Three primer pairs in combination (EMPA014, 015 and 018) discriminated all cultivars. Two primer pairs for loci monomorphic in P. avium were included: EMPA020 revealed segregation in an interspecific progeny and EMPA021 revealed polymorphism in P. dulcis. Twelve primer pairs reliably amplified products in three peach cultivars of which seven revealed polymorphisms.     

芜菁SSR引物的开发及多态性分析

目的:用于芜菁的简单序列重复(SSR)标记数量有限,初步探索多态性较好SSR的结构特性,开发更多的SSR引物,有助于芜菁的研究。方法:开发680对新的SSR引物,以2个芜菁品种为模板进行多态性扩增,筛选出多态性较好的引物。结果:565(83.1%)对引物在2种芜菁之间能够有效扩增,有多态性的引物有141对(20.7%);SSR的长度与其多态性水平之间没有直接的线性关系,但SSR基序碱基数与重复次数和多态性水平之间存在一定的联系,即3碱基为基序、7次重复的SSR多态性较好。结论:SSR的类型与引物的多态性之间有一定的联系。     

Characterization of 35 microsatellite loci in the Pacific lion‐paw scallop (Nodipecten subnodosus) and their cross‐species amplification in four other scallops of the Pectinidae family

Four microsatellite‐enriched DNA libraries yielded 35 microsatellite loci from 100 primer pairs designed for Pacific lion‐paw scallop, Nodipecten subnodosus. The number of alleles ranged from four to 28. Three of the 35 loci were not in Hardy–Weinberg equilibrium and linkage disequilibrium was found for one pair of loci. These microsatellites will be used to analyse the population structure of the species in Mexico's Baja Peninsula to propose management strategies for scallop aquaculture development. Twenty‐six primer pairs cross‐amplified in Nodipecten nodosus, whereas none (Argopecten ventricosus) or few cross‐amplified in the Argopecten species.     

The abundance of various polymorphic microsatellite motifs differs between plants and vertebrates.

The abundance of different simple sequence motifs in plants was accessed through data base searches of DNA sequences and quantitative hybridization with synthetic dinucleotide repeats. Database searches indicated that microsatellites are five times less abundant in the genomes of plants than in mammals. The most common plant repeat motif was AA/TT followed by AT/TA and CT/GA. This group comprised about 75% of all microsatellites with a length of more than 6 repeats. The GT/CA motif being the most abundant dinucleotide repeat in mammals was found to be considerably less frequent in plants. To address the question if plant simple repeat sequences are variable as in mammals, (GT)n and (CT)n microsatellites were isolated from B.napus. Five loci were investigated by PCR-analysis and amplified products were obtained for all microsatellites from B. oleracea, B.napus and B.rapa DNA, but only for one primer pair from B.nigra. Polymorphism was detected for all microsatellites.     

<Emphasis Type="Italic">Prunus</Emphasis> microsatellite marker transferability across rosaceous crops

A total of 145 microsatellite primer pairs from Prunus DNA sequences were studied for transferability in a set of eight cultivars from nine rosaceous species (almond, peach, apricot, Japanese plum, European plum, cherry, apple, pear, and strawberry), 25 each of almond genomic, peach genomic, peach expressed sequence tags (EST), and Japanese plum genomic, 22 of almond EST, and 23 of apricot (13 EST and 10 genomic), all known to produce single-locus and polymorphic simple-sequence repeats in the species where they were developed. Most primer pairs (83.6%) amplified bands of the expected size range in other Prunus. Transferability, i.e., the proportion of microsatellites that amplified and were polymorphic, was also high in Prunus (63.9%). Almond and Japanese plum were the most variable among the diploid species (all but the hexaploid European plum) and peach the least polymorphic. Thirty-one microsatellites amplified and were polymorphic in all Prunus species studied, 12 of which, covering its whole genome, are proposed as the “universal Prunus set”. In contrast, only 16.3% were transferable in species of other Rosaceae genera (apple, pear, and strawberry). Polymorphic Prunus microsatellites also detected lower levels of variability in the non-congeneric species. No significant differences were detected in transferability and the ability to detect variability between microsatellites of EST and genomic origin.     

Microsatellite analysis of relationships within cultivated potato (Solanum tuberosum)

The potential of microsatellite markers for use in genetical studies in potato (Solanum tuberosum) was evaluated. Database searches revealed that microsatellite sequences were present in the non-coding regions of 24 potato genes. Twenty-two sets of primers were designed and products successfully amplified using 19 primer pairs. These were tested against a panel of 18 tetraploid potato cultivars. Four pairs of primers designed to amplify microsatellites from tomato were also used. Seven (including 2 of the tomato sequences) failed to reveal any variation in the accessions tested. Sixteen primer pairs did reveal polymorphism, detecting between 2 and 19 alleles at each locus. Of these, 3 gave rise to complex band patterns, suggesting that multiple polymorphic loci were being amplified using a single primer pair. Heterozygosity values ranged from 0.408 to 0.921. Phenetic analysis of the derived information allowed a dendrogram to be constructed depicting the relationships between the 18 potato cultivars. The potential of microsatellite markers for genetic analysis and satutory applications in potato is discussed in the context of these results. Furthermore, the potential of crossspecies amplification is highlighted as an additional source of microsatellite markers for genetic research in potato.     

Identification of abundant and informative microsatellites from shrimp (Penaeus monodon) genome

Microsatellites were isolated from P. monodon genomic libraries by direct sequencing of recombinant clones without probe screening. Forty-nine out of 83 clones sequenced contained 99 microsatellite arrays of three or more repeats. When five or more and ten or more repeats were considered, 28 and 14 microsatellites were detected, respectively. The 99 microsatellites were classified as perfect (75%), imperfect (6%), compound perfect (3%) and compound imperfect (16%). The abundance of di-, tri-, tetra- and hexanucleotide repeats were 67%, 20%, 9% and 3%, respectively. The dinucleotide repeats included 36 (CT)n, 31 (GT)n, 17(AT)n and 3 (CG)n. One octanucleotide repeat (ATTTATTC)5 was found within a large repeat sequence. Optimal annealing temperatures were determined for PCR using 11 primer sets encompassing 15 microsatellites. Ten primer sets provided successful amplifications with allele sizes generally ranging from 139 to 410 bp. All these primers amplified polymorphic loci with PIC values ranging from 0.63 to 0.96. Two primer sets amplified additional bands which can easily be distinguished from the bands of the main locus. Three out of 10 P. monodon microsatellites also amplified alleles in P. vannamei. The abundance and informative nature of P. monodon microsatellites and their potential for cross-species amplification make them useful for genetic studies.     

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.