Characterization of microsatellite markers,their transferability to orphan legumes and use in determination of genetic diversity among chickpea (Cicer arietinum L.) cultivars

The microsatellite or simple sequence repeat (SSR) marker is the most preferred marker because of its many desirable properties. It is important to increase the genic and genomic resources particularly in legumes because the SSR markers currently available in chickpea, pigeonpea, horsegram, blackgram, and cowpea are very limited. In the present study, 201 pairs of SSR markers comprising of 172 genic and 29 genomic SSRs were screened against 11 chickpea genotypes, among which 153 produced monomorphic and 48 produced polymorphic bands. The polymorphic information content ranged from 0.152 to 0.373 for both genic and genomic SSRs. Among the polymorphic markers, two-three alleles were detected for genic and two-four alleles for genomic SSRs. A unique banding pattern could be found for all the genotypes within 48 polymorphic SSR markers and cultivar specific markers could be identified for seed purity test. We have also studied the ability of chickpea genic and genomic SSRs to amplify distantly related but important legumes viz., horsegram, blackgram, cowpea, pigeonpea, and soybean. Out of 201 chickpea SSR primer pairs, 66.7% in blackgram, 62.2% in horsegram, 61.7% in redgram, 54.7% in cowpea, and 62.7% in soybean produced amplification. The transferability of about 60.0% of the chickpea SSRs to distantly related legumes could be considered successful. In the present study, 134, 133, 126, 124, and 110 new SSR primers for blackgram, horsegram, soybean, redgram, and cowpea pulse crops, respectively, were identified. It is an important addition to the already available genomic resources in these crops. In addition, among genic primer pairs, 12 in horsegram, three in soybean, 13 in redgram, and eight in cowpea, and among genomic primer pairs, two in horsegram and four in redgram were polymorphic even in the two-three genotypes tested indicating their potentially for application in genetic studies and mapping.     

Developing and validating microsatellite markers in elephant grass (<Emphasis Type="Italic">Pennisetum purpureum</Emphasis> S.)

Elephant grass [Pennisetum purpureum S.; syn. Cenchrus purpureus (Schumach.) Morrone] is an important global forage crop and is recognized for high yields of herbage with good nutritive value. It also has high biomass potential to be utilized as a biofuel feedstock. Whereas several previous genetic studies adapted simple sequence repeat (SSR) markers from pearl millet [Pennisetum glaucum (L.) R.Br.] for investigations in elephant grass, the present study developed SSR markers from 3536 DNA sequences derived from 16 elephant grass entries. A total of 3866 SSRs were identified including 1028 monomeric, 2019 dimeric, 735 trimeric, 49 tetrameric, 20 pentameric and 15 hexameric repeat motifs. Three hundred and seven sequences contained more than one repeated motif, and 154 SSRs were present in compound formation. Susequenctly,  four elephant grass and two pearl millet genotypes were chosen to validate 727 SSR markers. Of these, 628 markers produced visually detectable amplification products, including 73 (11.6%) polymorphic ones across all six genotypes. Polymorphism between the four elephant grass genotypes was revealed by 316 (50.6%) markers with diversity index values ranging from 0.75 to 0.38. Dimeric SSRs had the highest polymorphic rate (48.7%). These validated SSR markers had 58.6% (368 of 628) transferability rate to pearl millet. The availability of these polymorphic SSR markers will support advanced genetic studies in P. purpureum and its relatives.     

SSR analysis of cultivated groundnut (Arachis hypogaea L.) germplasm resistant to rust and late leaf spot diseases

Cultivated groundnut (Arachis hypogaea L.) is an agronomically and economically important oilseed crop grown extensively throughout the semi-arid tropics of Asia, Africa and Latin America. Rust (Puccinia arachidis) and late leaf spot (LLS, Phaseoisariopsis personata) are among the major diseases causing significant yield loss in groundnut. The development of varieties with high levels of resistance has been constrained by adaptation of disease isolates to resistance sources and incomplete resistance in resistant sources. Despite the wide range of morphological diversity observed in the cultivated groundnut gene pool, molecular marker analyses have thus far been unable to detect a parallel level of genetic diversity. However, the recent development of simple sequence repeat (SSR) markers presents new opportunities for molecular diversity analysis of cultivate groundnut. The current study was conducted to identify diverse disease resistant germplasm for the development of mapping populations and for their introduction into breeding programs. Twenty-three SSRs were screened across 22 groundnut genotypes with differing levels of resistance to rust and LLS. Overall, 135 alleles across 23 loci were observed in the 22 genotypes screened. Twelve of the 23 SSRs (52%) showed a high level of polymorphism, with PIC values ≥0.5. This is the first report detecting such high levels of genetic polymorphism in cultivated groundnut. Multi-dimensional scaling and cluster analyses revealed three well-separated groups of genotypes. Locus by locus AMOVA and Kruskal–Wallis one-way ANOVA identified candidate SSR loci that may be valuable for mapping rust and LLS resistance. The molecular diversity analysis presented here provides valuable information for groundnut breeders designing strategies for incorporating and pyramiding rust and late leaf spot resistances and for molecular biologists wishing to create recombinant inbred line populations to map these traits.E.S. Mace and D.T. Phong contributed equally to this work.     

利用RAPD和SSR分析36个贵州主要玉米种质的比较研究

利用RAPD和SSR两种标记方法研究了36个玉米自交系的遗传多样性,并对这两种分子标记系统进行了比较.利用筛选出的22条RAPD引物,检测到了148条有多态性的带;利用筛选出的34对SSR引物,检测到158个等位基因.RAPD和SSR分子标记均有很高的多态性,RAPD多态性带比例为95.95%,SSR位点检测出的平均等位基因数位4.65.RAPD分子标记结果将36个玉米自交系划分为6大类,SSR分子标记将其划分为5大类.与系谱分析基本一致,两种分子标记划分的结果也相似.研究认为,RAPD、SSR两种分子标记系统均适合于玉米种质的遗传多样性研究,但SSR更可取.     

Analysis of genetic diversity and population structure of confectionery sunflower (<Emphasis Type="Italic">Helianthus annuus</Emphasis> L.) native to Iran

Genetic diversity within and among 50 populations of confectionery sunflower (Helianthus annuus L.) collected from different geographical areas of Iran was evaluated by using microsatellite and retrotransposon markers. The number of alleles (Na) in SSR loci ranged from 2 to 3 with an average of 2.1. The polymorphic bands in retrotransposon markers ranged from 7 in locus CR-UR1 to 15 in locus CR-816 with a mean value of 11.33. Herarchical clustering of individuals (50 × 5 = 250) by neighbor joining method in DARwin5 software subdivided them into three groups. Using Bayesian method in the software pakage of Structure, the studied individuals were subdivided into two sub-populations. Principal coordinate analysis revelaed that the two first components explaine 7.86 and 6.16% of the total variance, respectively. Analysis of molecular variance revealed a higher level of genetic variation within (70%) than between (30%) populations. High molecular variation among individuals within population possibly is due to high allogamy nature of the sunflower plant. Low genetic variation observed between populations could be considered as a consequence of genetic equilibrium that has occurred over the long period of cultivation of confectionery sunflower in this area as well as seed exchange among regions. The traditional assumption that selecting genotypes of different geographical origin will maximize the diversity available to a breeding project does not hold in confectionery sunflower.     

Isolation and characterization of 28 polymorphic SSR loci from castor bean (<Emphasis Type="Italic">Ricinus communis</Emphasis> L.)

Castor bean (Ricinus communis) is cultivated for seed oil throughout tropical and subtropical regions but the understanding of its genetic variability is limited. Because applicable microsatellite markers are not sufficient, we isolated and characterized polymorphic simple sequence repeat (SSR) loci acquired from a microsatellite-enriched genomic DNA library of castor bean. Finally, 28 SSR loci revealed polymorphisms in a castor bean collection consisting of 72 accessions. A total of 73 alleles were detected, with an average of 3.18 alleles per locus, and the polymorphism information content (PIC) ranged from 0.03 to 0.47 (mean = 0.26). Values for observed (H_O) and expected (H_E) heterozygosity ranged from 0.00 to 0.19 (mean = 0.11) and from 0.04 to 0.54 (mean = 0.31), respectively. To understand genetic relationships within the castor bean collection, a dendrogram was constructed based on profiles of the 28 SSR loci. These newly developed SSRs will be useful tools for assessing genetic diversity and population structure in castor bean.     

Associating chemical analysis to molecular markers for the valorization of <Emphasis Type="Italic">Citrus aurantium</Emphasis> leaves: a useful starting point for marker-assisted selection

Variation in metabolite composition and content is often observed in citrus, however, it is poorly understood to what extent this variation has a genetic basis. C. aurantium genotypes originating from Tunisia were evaluated to detect genomic (SSR markers) and chemotypic polymorphisms and to discover possible associations between them. A total of fifteen highly polymorphic SSR markers were selected to screen the genetic variability of the most widespread sour orange genotypes. Targeted secondary metabolite profiling analysis generated twenty-one compounds differentially accumulated in the leaves of sour orange genotypes. PCA analysis revealed that genomic and chemotypic data generated similar pattern of clustering, highlighting the intra-specific variability in C. aurantium species. Both data were integrated, leading to the identification of associated SSR alleles with secondary metabolites. Based on results, a relatively high correlation (r = 0.381; p < 0.0001) between chemotypic patterns and genetic markers was identified. Associations between traits of interest for phenolic compounds and genetic markers were tested using statistical methods including three linear model approaches. These results consolidate the presence of a chemical fingerprint that may be suitable for assessing identity and quality of a particular genotype which will be very useful for citrus breeding programs.     

应用SSR和ISSR标记分析栽培香稻品种的遗传多样性

本研究利用24对SSR引物和36个ISSR引物,分析33份来源于亚洲10个国家的香稻品种的遗传多样性。分别获得93条和181条多态性片段,每个SSR座位可检测3～8个等位基因,平均为4．23个;每个ISSR引物可检测3～8个多态性位点,平均为5．03个。根据SSR和ISSR标记计算的品种间遗传相似系数分别在0．294～0．884之间和0．595～0．867之间。聚类分析表明,利用两种标记所得的聚类结果基本上一致,与品种所处的3种气候类型变化基本相符。进一步证实SSR和ISSR标记是研究水稻种质资源分类有效的工具。     

Genetic diversity and population structure of Indian soybean [<Emphasis Type="Italic">Glycine max</Emphasis> (L.) Merr.] revealed by simple sequence repeat markers

Genetic diversity in 90 Indian soybean cultivars was assessed using 45 SSR markers distributed on 20 soybean chromosomes. Forty-five SSR markers generated 232 alleles with an average of five alleles/locus. The observed frequencies of the 232 alleles ranged from 0.01 to 0.94 with an average of 0.19. The polymorphic information content (PIC) value of the SSR markers varied from 0.10 to 0.83 with an average of 0.61 and about 71% markers have a PIC value of >0.5. In this study, 54 rare alleles including 19 genotype specific alleles were also identified. The observed hetrozygosity for SSR markers ranged from 0 to 0.11 with a mean of 0.10. Cluster analysis grouped the 90 soybean cultivars into three major clusters and principal coordinates analysis (PCoA) results were similar to those of the cluster analysis. A combination of eight SSR markers successfully differentiated all 90 soybean cultivars. The population structure analysis distributed the 90 soybean genotypes into two populations with mean alpha (α) value of 0.1873. In AMOVA analysis, proportion of variation within population was high (88%), whereas only 12% occurred among populations. In cluster and structure analyses, most of the genotypes with similar pedigree were grouped together. Soybean cultivars DS228, MACS-13, LSb-1, Hardee, Improved Pelican, and Pusa-24 were the six most genetically distinct cultivars identified. The study reported a moderate genetic diversity in Indian soybean cultivars and findings would be useful to the soybean breeders in selecting genetically distinct parents for a soybean improvement program.     

Development of genic molecular markers linked to a rust resistance gene in cultivated groundnut (Arachis hypogaea L.)

Development of molecular markers for different economically important traits in cultivated groundnut has progressed at slow pace. Although many genomic SSR markers were developed in both the wild and cultivated groundnut, the genetic linkage map in the species is still not saturated. Availability of a large number of ESTs in GenBank opened up the possibility of integrating new markers and to identify markers closely linked to agronomic traits. EST-SSR markers are also considered as genic molecular markers. In this study, 259 EST-SSR markers were developed by mining 5,184 Arachis hypogaea ESTs from NCBI database. These EST-SSRs and 34 resistance gene candidate markers were used for association and genetic mapping of rust resistance in cultivated groundnut. From these, Cer2, SSR_GO340445, SSR_HO115759, SSR_GO341324 and RGC 2 had a significant association with rust resistance based on locus-by-locus AMOVA and/or Kruskal?CWallis ANOVA. Some of these associated markers also had protein activity related to biotic stress responses. Through genetic mapping, EST-SSR markers SSR_GO340445 and SSR_HO115759 were found closely linked to a rust resistance gene at 1.9 and 3.8?cM distances, respectively. These markers are thus suitable candidates for marker assisted selection in groundnut. The tight linkage of SSR_GO340445 would be helpful to screen BAC clones and to isolate rust resistance gene in groundnut.     

Molecular diversity and association of SSR markers to rust and late leaf spot resistance in cultivated groundnut (Arachis hypogaea L.)

Molecular diversity and association of simple sequence repeat (SSR) markers with rust and late leaf spot (LLS) resistance were detected in a set of 20 cultivated groundnut genotypes differing in resistance against both diseases. Out of 136 bands amplified from 26 primers, 104 were found polymorphic (76.5%). Cluster analysis (UPGMA) revealed two main clusters separated at 52% Jaccard's similarity coefficient according to disease reaction to rust and LLS. Based on the Kruskal–Wallis one-way anova and simple regression analysis three and four SSR alleles were found associated with rust and LLS resistance, respectively.     

Development and characterization of tomato SSR markers from genomic sequences of anchored BAC clones on chromosome 6

Simple sequence repeat motifs are abundant in plant genomes and are commonly used molecular markers in plant breeding. In tomato, currently available genetic maps possess a limited number of simple sequence repeat (SSR) markers that are not evenly distributed in the genome. This situation warrants the need for more SSRs in genomic regions lacking adequate markers. The objective of the study was to develop SSR markers pertaining to chromosome 6 from bacterial artificial chromosome (BAC) sequences available at Solanaceae Genomics Network. A total of 54 SSR primer pairs from 17 BAC clones on chromosome 6 were designed and validated. Polymorphism of these loci was evaluated in a panel of 16 genotypes comprising of Solanum lycopersicum and its wild relatives. Genetic diversity analysis based on these markers could distinguish genotypes at species level. Twenty-one SSR markers derived from 13 BAC clones were polymorphic between two closely related tomato accessions, West Virginia 700 and Hawaii 7996 and were mapped using a recombinant inbred line population derived from a cross between these two accessions. The markers were distributed throughout the chromosome spanning a total length of 117.6 cM following the order of the original BAC clones. A major QTL associated with resistance to bacterial wilt was mapped on chromosome 6 at similar location of the reported Bwr-6 locus. These chromosome 6-specific SSR markers developed in this study are useful tools for cultivar identification, genetic diversity analysis and genetic mapping in tomato.     

Microsatellite polymorphism in Pisum sativum

Pisum sativum sequences were retrieved from Genbank/EMBL databases and searched for all possible dinucleotide and trinucleotide tandem repeats. One‐hundred and seventy‐one simple sequence repeats (SSRs) were found among 663 sequences. The different dinucleotide or trinucleotide motifs occurred at varying frequencies. CT/AG was the most frequent dinucleotide, and TCT/AGA the most frequent trinucleotide. Forty‐three microsatellite markers were generated from these sequences and used to assess the genetic variability among 12 pea genotypes. Thirty‐one were polymorphic among the genotypes and the average number of variants per marker was 3.6 when considering only polymorphic markers. Overall, the number of variants for a given SSR marker was correlated with the length of the SSR but some 12‐bp long SSRs showed the same degree of polymorphism as longer ones. The groupings resulting from the SSR genotyping among the 12 genotypes gave an interesting insight into the possible origin of one recent cultivar. Database‐derived SSR markers are highly variable. They can provide useful information on the genetic diversity among P. sativum cultivated types.     

Simple sequence repeats (SSRs) in faba bean: new loci from Orobanche-resistant cultivar 'Giza 402'

Genomic DNA from an inbred line from the Orobanche crenata resistant cultivar 'Giza 402' was restricted and enriched for AG-containing simple sequence repeats (SSRs). The overall SSR enrichment rate was 54.6%. Of 73 selected SSR markers that successfully amplified in 'Giza 402' 54 were polymorphic among a group of 10 Egyptian and Spanish faba bean genotypes extensively used in Orobanche crenata resistance/susceptibility studies and linkage map development. The polymorphism information content ranged from 0.16 to 0.72 and Unweighted Pair-Group Method using Arithmetic averages cluster analysis based on these loci placed all resistant genotypes descended from the parental line F 402 in the same group. Successful amplification from 28 primer pairs was also observed in five European faba bean genotypes. The SSR loci described here will be extremely useful in studies focusing on Orobanche crenata resistance, genetic diversity studies and will provide additional co-dominant loci to complement existing faba bean linkage maps based primarily on dominant markers.     

Assessment of genetic diversity in sesame (Sesamum indicum L.) genotypes, using EST-derived SSR markers

A total of 16,619 ESTs sequences (SSRs) of sesame (Sesamum indicum L.) were mined from Genbank. From sequences, 156 primer pairs were designed and characterized to determine the diversity among 49 sesame accessions. Twenty SSRs were found to be polymorphic and the number of alleles ranged from two to five per locus. The allele size varied from 101 to 399 bp. The average PIC value of the 20 SSR loci was 0.72 ranging from 0.49 (SEM-12-68) to 0.90 (SEM-12-27). Dendrogram analysis grouped the 49 genotypes into five separate clusters exhibiting a genetic similarity coefficient from 0.59 to 1.0. Hence, these EST-derived SSRs markers could be useful in assessing the diversity of sesame accessions and could also help in identifying diverse parents for sesame improvement programs.     

苦荞全基因组SSR位点特征分析与分子标记开发

目前苦荞SSR多态性标记数量较少,根据已发表的苦荞基因组测序数据,利用MISA软件对1~6核苷酸重复的SSR位点进行了查找和序列特征分析,批量设计引物并对引物进行了有效性和多态性检测。结果表明,苦荞基因组中共检测到1 640个SSR位点,其中三核苷酸重复型SSR最多,占比63.29%,五核苷酸重复型最少,仅占0.12%。AT/TA、AAG/CTT、ACC/GGT和ATC/GAT为出现频率较高的重复基序。苦荞基因组SSR序列长度变化范围为12~476bp,平均长度23.14bp,长度12~19bp的占比71.71%,长度≥20bp的占比28.29%。根据不同类型SSR位点设计并合成引物479对,选择200对引物对5份苦荞资源和3份甜荞资源进行多态性检测,有56对扩增出多态性条带,17对在苦荞种质中产生多态性条带,48对在甜荞种质中产生多态性条带,9对同时在两种种质中产生多态性条带。利用苦荞全基因组序列可实现SSR标记的批量开发,可鉴定出适用于苦荞和甜荞遗传多样性分析、遗传图谱构建和品种鉴定等研究的SSR引物。