Identification and characterization of microsatellites in eggplant

The potential of microsatellite markers for use in genetic studies in eggplant, Solanum melongena, has been evaluated. A genomic library of eggplant was screened for GA and GT repeat motifs to isolate microsatellite clones. The frequency of each repeat motif in the eggplant genome was found to be every 3200 kb for GA repeats and every 820 kb for GT repeats. Sixty‐one per cent of GT repeats were found to directly flank AT repeats. A total of 37 polymerase chain reaction (PCR) primer pairs were designed, 23 of which amplified a single product or several products. The level of microsatellite polymorphism was evaluated by using S. melongena lines and related Solanum species. Two to six alleles per primer pair were displayed in the S. melongena lines and two to 13 alleles were displayed in the Solanum relatives. Seven microsatellites showed polymorphism between parental lines of the mapping population and segregated in a codominant Mendelian manner. These microsatellite loci were distributed throughout the linkage map.     

Qualitative resistance of Hevea to Phyllachora huberi P. Henn

Qualitative observations of Hevea spp. resistance to Phyllachora huberi were carried out on 200 clones in a collection and 21 full-sib progenies under natural conditions of infestation. A total of 42 clones, mostly originating from the natural range of the Hevea genus, and at least two species (H. brasiliensis and H. benthamiana) revealed total resistance to the parasite. For nine of the thirteen `resistant ×susceptible' and `resistant × resistant' progenies studied, the ratio of susceptible: resistant plants suggested the existence of a total resistance mechanism produced by a dominant allele at a single locus for the P. huberi race(s) present at the study site. For three of the progenies involving the same resistant parent, it was possible to locate the gene (called Phr) at 14.7 cm from the adhisozyme locus. This revised version was published online in July 2006 with corrections to the Cover Date.     

Development of genomic simple sequence repeat markers from an enriched genomic library of grass pea (Lathyrus sativus L.)

Simple sequence repeat (SSR) or microsatellite markers are a valuable tool for several purposes such as evaluation of genetic diversity, fingerprinting, marker‐assisted selection and breeding. In this study, a SSR genomic enriched library was developed in Lathyrus sativus (grass pea) by affinity capture of restriction fragments to biotinylated microsatellite oligonucleotides. About 400 randomly selected clones were sequenced, and SSRs were present in approximately 30% of them. Clones contained 75%, 9% and 16% of simple, interrupted and compound SSRs, respectively. Of the 10 SSRs tested, 7 primer pairs produced clearly distinguishable DNA banding patterns. Successively, SSR primer pairs were successfully tested to reveal polymorphism in a set of four different grass pea germplasm accessions. The transferability of SSR markers was high among three related species of Lathyrus, namely Lathyrus cicera, Lathyrus ochrus and Lathyrus tingitanus, and the legume crop, Pisum sativum. These results indicate that the novel SSR markers are informative and will be useful and convenient for genetic analysis in grass pea and related species.     

Evaluation of random amplified polymorphic DNA (RAPD) markers in Hevea brasiliensis

The applicability of random amplified polymorphic DNA (RAPD) markers in the cultivated rubber tree, Hevea, was evaluated using 43 decamer oligonucleotide primers in a set of 24 clones selected in different South-East Asian countries. A total of 220 0.35–3.5 kb DNA fragments were amplified, of which 111 were polymorphic. Of these, 80 fragments (RAPD markers) which were repeatable and clearly scorable across all genotypes were used to estimate genetic distances among the clones tested. The estimated genetic distances ranged from 0.05 (RRII 308 and PB 5/51) to 0.75 (RRIC 100 and SCATC 88–13). A mean genetic distance of 0.5 indicates a rather high genetic variability among the tested clones. As expected, because of the breeding history of Hevea, UPGMA cluster analysis and Principal Coordinate Analysis (PCoA) indicated the absence of a distinct geographical grouping. The possible application of RAPD markers for clone identification and also for analysis of genetic relationships among Hevea clones is discussed.     

Development and utilization of genomic and genic microsatellite markers in Assam tea (Camellia assamica ssp. assamica) and related Camellia species

Microsatellite or simple sequence repeat (SSR) markers are valuable tools for many purposes, such as phylogenetic, fingerprinting and molecular breeding studies. However, such marker resources are unavailable in Assam tea (Camellia assamica ssp. assamica; Masters). With an objective to enrich the repertoire of microsatellite markers in traditional tea, 185 novel microsatellite (150 genomic and 35 genic) markers were identified from (GA)n‐enriched genomic libraries and public expressed sequence data in Assam tea. High‐quality 0.412‐Mb non‐redundant (NR) genomic data set derived from nucleotide sequencing of 1297 (GA)n‐enriched genomic positive clones and 2723 unigenes (1.33 Mb) predicted from 10 803 random public expressed sequence tags (ESTs) in C. assamica ssp. assamica were utilized for identification of genomic and genic microsatellite markers, respectively. The average number of alleles and polymorphic information content (PIC) recorded for the newly developed SSR markers were 6.17 and 0.398, respectively. The average observed (H_o) and expected (H_e) heterozygosity varied from 0.626 to 0.697, respectively. These markers were found to be highly transferable (74.5–100%) to cultivated (C. sinensis, C. assamica ssp. lasiocalyx) and five wild Camellia species. Genetic diversity coefficient detected a high level of divergence in 24 cultivated tea accessions (69.3%). Phylogenetic analysis revealed that major groupings were broadly in accordance with taxonomic classification of tea, and all the wild Camellia species remained as an out‐group. The high polymorphic content coupled with high rate of cross‐transferability demonstrates wider applicability of novel microsatellite markers in genotyping, genetic diversity, genome mapping and evolutionary studies in various Camellia species.     

Amplified fragment length polymorphism-derived microsatellite sequence linked to the Pch1 and Ep-D1 loci in common wheat

Amplified fragment length polymorphism (AFLP) markers linked to the Aegilops ventricosa‐derived chromosome segment in ‘VPM1’ on which the eyespot resistance gene, Pch1, and the endopeptidase gene, Ep‐D1b, occur were identified. One marker was isolated from the gel, cloned and sequenced. Sequence analysis revealed a microsatellite repeat motif. Sequence‐specific primers were designed to amplify a product containing the repeat motif, and the microsatellite marker was tested for cosegregation with the Ep‐D1b allele. Distinct alleles were produced by the Pch1 sources, normal wheat and wheat containing the Lr19 translocation. A recombination frequency of 0.02 was calculated between the microsatellite marker and Ep‐D1.     

Abundance, polymorphism and genetic mapping of microsatellites in oilseed rape (Brassica napus L.)

The objective of the present study was to estimate the abundance and degree of polymorphism of simple sequence repeat (SSR) markers in rapeseed. By screening about 45000 clones of a small inserts library of rapeseed total DNA the abundances of GA/TC and CA/TG simple sequence repeats in the rapeseed genome were estimated to be approximately one repeat every 100 kb and 400 kb, respectively. After sequencing 13 positive clones, primer pairs could be designed for 11 microsatellite loci. Seven of these primer pairs produced reproducible amplification products in a set of 31 rapeseed genotypes, with one pair amplifying two independent products, giving a total of eight amplified loci. The different microsatellite loci displayed between one and three visible alleles. At four loci, additional null alleles were observed. With up to four alleles, polymorphic microsatellite markers show significantly higher allele numbers in rapeseed than restriction fragment length polymorphism (RFLP) markers. Four of the eight microsatellite markers could be mapped on four different linkage groups of an RFLP map of the rapeseed genome.     

Development and utilization of novel SSRs in foxtail millet [Setaria italica (L.) P. Beauv.]

Although the foxtail millet [Setaria italica (L.) P. Beauv.] is recently regarded as a model crop for studying functional genomics of biofuel grasses, its genetic improvement to some extent was limited due to the non‐availability of molecular markers, particularly the microsatellite markers and the saturated genetic linkage map. Considering this, we attempted to generate a significant number of microsatellite markers in cultivar ‘Prasad’. Two hundred and fifty‐six clones were sequenced to generate 41.82‐kb high‐quality sequences retrieved from genomic library enriched with dinucleotide repeat motifs. Microsatellites were identified in 194 (76%) of the 256 positive clones, and 64 primer pairs (pp) were successfully designed from 95 (49%) unique SSR‐containing clones. The 67.4% primer designing ability, 100% PCR amplification efficiency and 45.3% polymorphic potential in the parents of F₂ mapping population established the efficacy of genomic microsatellites. All the 64 microsatellite markers displayed high level of cross‐species amplification (~67%) in 10 millets and non‐millets species. These experimental findings suggest the utility and efficacy of SSRs in diverse genotyping applications, resolving QTLs, phylogenetic relationships and transferability in several important grass species.     

Development of simple sequence repeat (SSR) markers in Eucalyptus from amplified inter-simple sequence repeats (ISSR)

Eucalyptus spp. are widely used in exotic plantations. Since many of these trees are derived from vegetative propagation, the routine identification of clones has become increasingly important. The most widely used molecular based method for fingerprinting these clones is by random amplified polymorphic DNAs (RAPDs). Although this technique is useful, its results are not very repeatable, especially between laboratories. The aim of this study was to develop microsatellite markers that are highly repeatable, and to investigate their value in Eucalyptus fingerprinting. Typically, this process involves the expensive procedure of constructing an enriched genomic library. However, we used an intersimple sequence repeat (ISSR) polymerase chain reaction (PCR)‐based enrichment technique for microsatellite‐rich regions. With this relatively inexpensive method, microsatellite‐rich regions were amplified directly from genomic DNA, after which PCR products were cloned and sequenced. From these microsatellite‐rich sequences, primer sets were constructed to amplify mono‐, di‐, tri‐, hexa‐and nona‐nucleotide repeats. These markers were all inherited in a Mendelian fashion in the progeny of a test cross between two Eucalyptus grandis trees. The primer sets developed were also able to amplify the corresponding microsatellite loci from five different Eucalyptus spp., namely E. grandis, E. nitens, E. globulus, E. camaldulensis and E. urophylla.     

Identification of sugarcane microsatellites associated to sugar content in sugarcane and transferability to other cereal genomes

Microsatellites or simple sequence repeats (SSRs) markers are very informative for various applications in genetics and breeding. Information obtained with these markers has contributed to a better understanding of evolution and the complexity of the sugarcane genome. With the objective of identifying a large set of polymorphic microsatellite markers designated as Unigene derived Sugarcane Microsatellite (UGSM) and Sugarcane Enriched Genomic Microsatellite (SEGMS), 351 UGSM and 36 SEGMS were tested to find out informative SSRs marker for sugar content. These markers were screened and validated for their use in genetic diversity, cross transferability and comparative linkage potential in high and low sugar bulk of two segregating progenies and twenty each, cultivated high and low sugar cultivars. 158 (40.83%) of the microsatellite markers (144-UGSM: 14-SEGMS) were found to be highly robust and polymorphic. Cross amplification was estimated among nineteen accessions of six sugarcane cultivars, one inter specific hybrids, five related species, four related genera, and three divergent genera by using 27 UGSM primers. Analysis of 388 alleles, amplified by these markers, indicated the high number of observed allele ranged from 2 to 26, with an average of 14.37 alleles detected per locus. High level of polymorphism detected by these markers among sugarcane species, genera and cultivars was 96.3%, while cross-transferability rate was 98.0% within Saccharum complex and 88.27% to cereals. Wide range of genetic diversity (0.33–0.79 with an average of 0.56) assayed with UGSM markers suggested their importance in various genotypic applications in sugarcane.     

Identification of cultivars and accessions of Lolium, Festuca and Festulolium hybrids through the detection of simple sequence repeat polymorphism

Molecular diversity and genetic affinity in the Lolium/Festuca grass complex have been assessed using simple sequence repeat (SSR) marker technology. The genotypic set was derived from three accessions of perennial ryegrass, two cultivars of Italian ryegrass, two cultivars of meadow fescue, two cultivars of tall fescue and 10 accessions from different intergeneric hybrid (Festulolium) combinations. The majority of the genomic DNA‐derived SSR primer pairs from perennial ryegrass (LPSSR) and Italian ryegrass (LMSSR) produced clear, simple and distinctive amplification products from the majority of the genotypes. The efficiency of cross‐specific amplification for LPSSR markers varied from 38% in meadow fescue to 93% in two cultivars of Festulolium and from 57% in meadow fescue to 87% in Italian ryegrass for LMSSR markers. Of 40 amplified markers, 14 (35%) produced species‐difference alleles in the relation to cultivars used in the present study. Thirty‐five LPSSR locus‐derived alleles were found to be specific to Lolium species, four to meadow fescue and six to tall fescue. For LMSSR alleles, eight were specific to Lolium species and five were only associated with Italian ryegrass, and null alleles were detected for meadow fescue in all instances. These species‐difference markers could clearly identify different accessions of Festulolium. Cluster analysis separated the individual taxa and showed grouping of intergeneric hybrids based on genomic composition. The data distinguished between the species and reflected the known pedigree of the cultivars and the differences between the species. The dendrogram also distinguished between the Festulolium accessions and clearly demonstrated the relations between Festulolium hybrids and their parent species.     

Development of novel microsatellite markers for effective applications in Anthurium cultivar identification

Anthurium andraeanum is one of the most economically important floral crops and potted flowers marketed worldwide. Microsatellite markers are currently the preferred molecular marker owing to the many desirable attributes, including hypervariability, codominance, and amenability to high-throughput genotyping; however, there are few polymorphic molecular markers available for Anthurium. The object of this study was to develop and characterize novel microsatellite markers using the Araceae sequences in GenBank of the National Center for Biotechnology Information (NCBI) to contribute to molecular identification for cultivar protection. Using 1,579 Araceae expressed sequence tags (ESTs) and the related nucleotide sequences, 100 candidates contained simple sequence repeat (SSR) motifs that were suitable for primer design. Furthermore, 100 pairs of SSR primers were screened against a set of 28 diverse genotypes representing 24 cultivars that included four registration cultivars which were bred from the Taiwan Agricultural Research Institute (TARI) and 20 commercial cultivars, appended with three hybrid progeny and a mutant line. From the selected six polymorphic SSR loci, 52 alleles were amplified and 27 distinct genotypes were found, except for ‘Tropical’ and its mutant, with a mean number of eight alleles per locus. The polymorphism information content (PIC) ranged from 0.86 to 0.93. Based on these results, we proposed a key identification set using four microsatellite markers that is sufficient to discriminate among 24 cultivars. Because the Anthurium microsatellite markers developed in this study are primarily from expressed sequence tags or related genomic sequences, they can be used for cultivar identification and, accordingly, contribute to genetic evaluations in breeding programs.     

Use of ccSSR markers for the determination of the purity of alloplasmic wheat in different Hordeum cytoplasms

We tested three different consensus chloroplast simple sequence repeat (ccSSR) primers to identify amplified polymorphic products in Hordeum chilense, Hordeum vulgare and other Triticeae species with a double aim. First, to use chloroplast‐specific primers as an indirect method for the assessment of wheat cytoplasmic male sterile purity in seedlings during multiplication and in the development of alloplasmic lines. Second, to analyse cytoplasmic relationships among H. chilense accessions and between H. chilense and other members of the Triticeae tribe. The products from primer ccSSR‐4 were easily discriminated using agarose gel electrophoresis. Based on the lengths of amplification products, three groups were identified: the first included almost exclusively H. chilense accessions, the second contained H. vulgare accessions and the third comprised the wheat and the rest of the analysed accessions. Sequencing of PCR products revealed point mutations and insertions/deletions in addition to the expansion/contraction of the microsatellite repeat length. Data analyses of sequenced fragments revealed six groups of accessions among the material studied. No significant differences were found among H. chilense accessions.     

Granule‐bound starch synthase (GBSS) diversity of ancient wheat and related species

Granule‐bound starch synthase of ancient wheat and related species was examined by sodium dodecyl sulphate polyacrylamide gel. A total of 13 different alleles were revealed in a collection of three accessions of diploid wheat, six accessions of tetraploid wheat, 49 accessions of spelt wheat, nine accessions of Sitopsis and two accessions of Aegilops tauschii. A new allele named Wx‐A1a′ appeared in four spelt wheat accessions. The tetraploid wheat accessions evaluated did not show any polymorphism; nevertheless the tetraploid accessions of Sitopsis section revealed three novel alleles. The novel allele Wx‐D^dn1g was found in two accessions of A. ventricosa and the Wx‐D^dcm1h and Wx‐D^dcm1i in two accessions of A. crassa. A novel allele named Wx‐A^u1g was found in Triticum urartu, which is different from the also new Wx‐A^m1h allele of T. monococcum. The diploid‐related species accessions revealed two novel alleles named Wx‐B^sl1h and Wx‐B^s1g found, respectively, in A. longissima and A. speltoides. The amylose content was measured for the different alleles found in all evaluated species and no significant effects of the allele composition on the amylose content were detected.     

Assessment of genetic variability of olive varieties by microsatellite and AFLP markers

Fourteen developed microsatellite markers were characterized for their use in genotyping and diversity studies of olive varieties. After optimisation of microsatellite assay and allele sizing, ninety-six alleles were found in nineteen varieties, with an average of 6.8 alleles per locus. The characteristics of the microsatellite markers were used to identify markers that can be reliably applied for variety genotyping. Such features were the generation of complex banding patterns supported by underlying allele sequences, `short allele dominance', an unstable repeat structure and a low number of alleles. AFLP analysis was performed on the same set of olive varieties using eight primer pair combinations. The genetic relationships among nineteen olive varieties were compared on the basis of microsatellite and AFLP polymorphisms. Genetic distances between all pairwise combinations of the varieties were calculated using Jaccard's coefficient of similarity and dendrograms were constructed by the UPGMA method. The results of clustering analysis with both molecular systems showed the common genetic background of Tuscan varieties, and genetic divergence within Slovene olive germplasm. Slovenian varieties ‘Buga’, ‘Štorta’ and ‘Samo’ might represent regionally selected olives, while ‘Zelenjak’ and ‘Črnica’ are probably derived from the Central Italian region. The predominant local ‘Istrska belica’ was introduced to Slovenia independently from the other regional varieties and showed the lowest genetic similarity with the other regional varieties. This revised version was published online in August 2006 with corrections to the Cover Date.     

Variation of <Emphasis Type="Italic">Wx</Emphasis> microsatellite allele,waxy allele distribution and differentiation of chloroplast DNA in a collection of Thai rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

Eighty-two varieties of rice from different regions in Thailand were selected to explore the Waxy (Wx)gene diversity and indica-japonica differentiation of chloroplast DNA. A comparison of the 5 splice site in the first intron was made between glutinous and nonglutinous rice. It revealed that non-glutinous with low-amylose content and glutinous rice were characterized as the Wx^b allele based on the G-to-T base substitution, whereas non-glutinous rice with intermediate and high amylose carried the Wx^a allele. Four Wx microsatellite alleles, (CT)_n repeat, (n = 16,17,18 and 19) were found in glutinous rice. In contrast, non-glutinous rice showed five Wx microsatellite alleles (n = 11, 16, 17, 18 and 19). The (CT)₁₇ allele was prominent allele in Thai population, while the (CT)₁₁ allele was found only in intermediate and high amylose rice varieties from southern Thailand. Almost all of upland rice grown by various ethnic groups in northern Thailand were characterized as japonica type based on their having the PstI-12 fragment in their cpDNA, whereas most of rainfed lowland varieties from other regions of Thailand were indica. This exploration of DNA-based genetic markers is important, as it enhances our ability to describe and manipulate sources of genetic variation for rice breeding programs.     

Development, characterization and utilization of microsatellite markers in pigeonpea

Pigeonpea is a major legume of the semi‐arid tropics that has been neglected in terms of molecular breeding. The objectives of this study were to develop microsatellite markers and evaluate their potential for use in pigeonpea genetics and breeding. Two hundred and eight microsatellite loci were isolated by screening a non‐enriched partial genomic library. Primers were designed for 39 microsatellite loci, 20 of which amplified polymerase chain reaction products of the expected size. Nineteen of the primer pairs were polymorphic amongst 15 cultivated and nine wild pigeonpea accessions providing evidence for cross‐species transferability within the genus Cajanus. A total of 98 alleles were detected at the 19 polymorphic loci with an average of 4.9 alleles per locus. The observed heterozygosity ranged from 0.17 to 0.80 with a mean of 0.42 per locus. Less allelic variation (31 alleles) was observed within the cultivated species than across the wild species (92 alleles). The diversity analysis readily distinguished all wild relatives from each other and from the cultivated germplasm. Development of more microsatellites is recommended for future genomic studies in pigeonpea.     

Identification of a microsatellite marker associated with Pm3 resistance alleles to powdery mildew in wheat

The Pm3 resistance locus, located on chromosome 1A in wheat, confers race‐specific resistance to the obligate biotrophic fungus Blumeria graminis (DC) E.O. Speer f. sp. tritici, the causal agent of powdery mildew. Several Pm3 alleles are still effective in controlling the disease in Europe. A genetic map was constructed to map the Pm3g allele in the recombinant inbred line progeny from the cross ‘RE9001’ (susceptible) בCourtot’ (resistant). Two microsatellite markers were closely mapped to Pm3g. The PSP2999 marker, which cosegregates with this allele, was shown to detect the presence of the Pm3g resistance allele in other cultivars. A collection of 56 wheat cultivars or advanced lines carrying one Pm3 allele was used to assess the allele‐specific amplification of the PSP2999 marker. The same amplification pattern was obtained for lines with Pm3a, Pm3b, Pm3e, Pm3f and Pm3g alleles. Twenty genotypes carrying Pm3d showed a specific amplification pattern. This marker allowed the detection of the Pm3d allele in highly resistant lines whose resistance gene combinations were unknown. It was concluded that PSP2999 is a useful marker to detect Pm3 alleles in parents and to manage them in breeding programmes.     

Identification of the Rf gene conferring fertility restoration of the CMS Dian-type 1 in rice by using simple sequence repeat markers and advanced inbred lines of restorer and maintainer

Cytoplasmic male sterility of Dian‐type 1 (CMS‐D1) was developed 30 years ago in Yunnan. A major gene conferring fertility restoration for the CMS‐D1 system was detected by microsatellite markers in advanced inbred lines consisting of 196 maintainers and 62 restorers developed in breeding programmes of hybrid rice involving the CMS‐D1 system. The gene was mapped between two simple sequence repeat markers, OSR33 and RM228, on chromosome 10, and was temporarily designated as Rf‐D1(t). The genetic distances of the gene to the two microsatellite markers were 3.4 and 5.0 cM, respectively. This linkage was confirmed by using an F2 population derived from a cross between a CMS‐D1 line and a restorer. This study also demonstrated that using OSR33 was reliable and efficient for identification of restoring lines in hybrid rice breeding with the CMS‐D1 system.     

Microsatellite mapping of powdery mildew resistance allele <Emphasis Type="Italic">Pm5d</Emphasis> from common wheat line IGV1-455

The powdery mildew resistance allele Pm5d in the backcross-derived wheat lines IGV1-455 (CI10904/7*Prins) and IGV1-556 (CI10904/7*Starke) shows a wide spectrum of resistance and virulent pathotypes have not yet been detected in Germany. Although this allele may be distinguished from the other documented Pm5 alleles by employing a differential set of Blumeria graminis tritici isolates, the use of linked molecular markers could enhance selection, especially for gene pyramiding. Pm5d was genetically mapped relative to six microsatellite markers in the distal part of chromosome 7BL using 82 F₃ families of the cross Chinese Spring × IGV1-455. Microsatellite-based deletion line mapping placed Pm5d in the terminal 14% of chromosome 7BL. The closely linked microsatellite markers Xgwm577 and Xwmc581 showed useful variation for distinguishing the different Pm5 alleles except the ones originating from Chinese wheat germplasm. Their use, however, would be limited to particular crosses because they are not functional markers. The occurrence of resistance genes closely linked to the Pm5 locus is discussed. Ghazaleh Nematollahi and Volker Mohler equally contributed to this work.