Single- and double-SSR primer combined analyses in rice

Polymerase chain reaction (PCR) is the foundation of SSR molecular marker technology. We used sib rice varieties J518, XD1 and SD23 as experimental materials, selecting 30 pairs of SSR primers, including RM127, RM337 and RM5172, covering the rice genome, and performed single- and double-SSR primer combined analyses. We found that under the same PCR system and conditions, a single primer of the SSR primer pairs could amplify the same fragments as double primers do. The sequencing results demonstrated that some amplified fragments that we previously believed to come from double primers were actually produced by a single primer. The use of this kind of primer, such as the RM127 primer pair, for marker-assisted breeding will therefore be misleading. Additionally, using the same PCR system and conditions, some single primers that are part of SSR primer pairs can amplify many more specific fragments than double-SSR primers. For instance, in the case of the RM5172 primer pair, a single primer P1 amplified approximately three times the number of fragments as the double primer. This information can contribute to research on genetic diversity of species, understanding of genetic relationships and identification of germplasm resources. Accordingly, combined analyses of single- and double-primer amplification products not only can remove single-primer amplification fragments and false-positives from double-primer amplification products in order to improve test accuracy, but also can facilitate research on genetic diversity, exploration of phylogenetic relationships and identification of germplasm resources. We define this method as "single- and double-SSR primer combined analyses".     

Assessment of genetic diversity and phylogenetic relationship among grouper species Epinephelus spp. from the Saudi waters of the Arabian Gulf

Understanding of fish genetic characterization plays a vital role in the conservation and utilization of fish genetic resources of grouper species. The present study was carried out to assess the genetic diversity and phylogenetic relationships in five grouper species, Epinephelus spp. from eastern Saudi Arabian coast using two molecular marker systems, inter simple sequence repeat (ISSR) and microsatellite (SSR) markers. In total, 219 individuals grouper specimens (Epinephelus tauvina, E. coioides, E. bleekeri, E. malabaricus, and E. areolatus) were genotyped with 10 ISSR and 11 SSR selected primers. The ISSR produced 94 DNA fragments, of which 44 were polymorphic with an average of 2.13 fragment per primer. While SSR primers generated 107 alleles, all of them were polymorphic with an average 9.72 per primer. ISSR and SSR techniques demonstrated a high level of gene diversity and genetic distances illustrated by UPGMA dendrograms among the grouper species. The results proved that the SSR markers were highly informative and efficient in detecting genetic variability and relationships of the Epinephelus spp.     

Evaluation of maize microsatellite markers for genetic diversity analysis and fingerprinting in sugarcane.

The use of maize microsatellite markers as a potential cost-effective method for molecular analysis of sugarcane was evaluated. Of the 34 primer pairs obtained from maize genomic libraries, 14 showed repeatable amplifications in Saccharum species clones, commercial hybrids, and the related genera Erianthus, accounting for 41.17% cross transferability. Complex banding patterns were encountered in sugarcane with the number of amplified fragments ranging from 7 to 14 with an average of 10 per primer, indicating the high polyploidy and heterozygosity existing in sugarcane. Phenetic analysis of the SSR polymorphisms produced by nine primers could clearly differentiate the different species of Saccharum and Erianthus and revealed the relationships that existed between them. Genetic similarity co-efficient indicated low diversity existing among the S. officinarum clones (82%) and a relatively higher level of diversity in the S. spontaneum clones (69.7%). Higher level of divergence of Erianthus from Saccharum was also clearly estabilished. Five primers produced genus- and species-specific fragments for Erianthus, S. spontaneum, S. officinarum, and S. barberi. The polymorphic primers, when tested on a panel of 30 commercial sugarcane cultivars, revealed a broad range (32.4-83.3%) of pair-wise similarity values, indicating their ability to detect high levels of polymorphism. A combination of two primers could differentiate all the varieties, further emphasizing their potential in fingerprinting and varietal identification.     

甘蔗属不同种及优良甘蔗栽培品种的SSR标记遗传多样性分析

应用21对SSR引物与毛细管电泳技术,分析了52个甘蔗属品种的遗传多样性。共检测出327个SSR标记,平均每对引物检测15.6个。选择141个共显性标记构建SSR标记指纹图谱数据库,利用DNAMAN软件与UPGMA统计方法分析参试材料遗传多样性。DNAMAN软件同源分析显示,新台糖16号与台优1号之间的同源性最高(87%),品种之间最小的同源性为55%;利用UPGMA统计方法可把参试材料分成4个遗传相似性较高的类群。结果表明,SSR标记与毛细管技术的结合,可构建甘蔗种质资源SSR标记指纹图谱、分析甘蔗种质资源遗传多样性。聚类分析显示参试甘蔗材料的遗传基础相近,为了提高甘蔗选育种效率,应拓宽甘蔗选育种亲本的遗传基础,提高杂交栽培品种的抗虫、抗病等特性。     

Exploiting BAC-end sequences for the mining,characterization and utility of new short sequences repeat (SSR) markers in Citrus

The aim of this study was to develop a large set of microsatellite markers based on publicly available BAC-end sequences (BESs), and to evaluate their transferability, discriminating capacity of genotypes and mapping ability in Citrus. A set of 1,281 simple sequence repeat (SSR) markers were developed from the 46,339 Citrus clementina BAC-end sequences (BES), of them 20.67% contained SSR longer than 20 bp, corresponding to roughly one perfect SSR per 2.04 kb. The most abundant motifs were di-nucleotide (16.82%) repeats. Among all repeat motifs (TA/AT)n is the most abundant (8.38%), followed by (AG/CT)n (4.51%). Most of the BES-SSR are located in the non-coding region, but 1.3% of BES-SSRs were found to be associated with transposable element (TE). A total of 400 novel SSR primer pairs were synthesized and their transferability and polymorphism tested on a set of 16 Citrus and Citrus relative’s species. Among these 333 (83.25%) were successfully amplified and 260 (65.00%) showed cross-species transferability with Poncirus trifoliata and Fortunella sp. These cross-species transferable markers could be useful for cultivar identification, for genomic study of Citrus, Poncirus and Fortunella sp. Utility of the developed SSR marker was demonstrated by identifying a set of 118 markers each for construction of linkage map of Citrus reticulata and Poncirus trifoliata. Genetic diversity and phylogenetic relationship among 40 Citrus and its related species were conducted with the aid of 25 randomly selected SSR primer pairs and results revealed that citrus genomic SSRs are superior to genic SSR for genetic diversity and germplasm characterization of Citrus spp.     

Development of universal genetic markers based on single-copy orthologous (COSII) genes in Poaceae

Key message

We develop a set of universal genetic markers based on single-copy orthologous (COSII) genes in Poaceae.

Abstract

Being evolutionary conserved, single-copy orthologous (COSII) genes are particularly useful in comparative mapping and phylogenetic investigation among species. In this study, we identified 2,684 COSII genes based on five sequenced Poaceae genomes including rice, maize, sorghum, foxtail millet, and brachypodium, and then developed 1,072 COSII markers whose transferability and polymorphism among five bamboo species were further evaluated with 46 pairs of randomly selected primers. 91.3 % of the 46 primers obtained clear amplification in at least one bamboo species, and 65.2 % of them produced polymorphism in more than one species. We also used 42 of them to construct the phylogeny for the five bamboo species, and it might reflect more precise evolutionary relationship than the one based on the vegetative morphology. The results indicated a promising prospect of applying these markers to the investigation of genetic diversity and the classification of Poaceae. To ease and facilitate access of the information of common interest to readers, a web-based database of the COSII markers is provided (http://www.sicau.edu.cn/web/yms/PCOSWeb/PCOS.html).     

Transferability of wheat microsatellites to diploid Aegilops species and determination of chromosomal localizations of microsatellites in the S genome.

Overall, 253 genomic wheat (Triticum aestivum) microsatellite markers were studied for their transferability to the diploid species Aegilops speltoides, Aegilops longissima, and Aegilops searsii, representing the S genome. In total, 88% of all the analyzed primer pairs of markers derived from the B genome of hexaploid wheat amplified DNA fragments in the genomes of the studied species. The transferability of simple sequence repeat (SSR) markers of the T. aestivum A and D genomes totaled 74%. Triticum aestivum-Ae. speltoides, T. aestivum-Ae. longissima, and T. aestivum-Ae. searsii chromosome addition lines allowed us to determine the chromosomal localizations of 103 microsatellite markers in the Aegilops genomes. The majority of them were localized to homoeologous chromosomes in the genome of Aegilops. Several instances of nonhomoeologous localization of T. aestivum SSR markers in the Aegilops genome were considered to be either amplification of other loci or putative translocations. The results of microsatellite analysis were used to study phylogenetic relationships among the 3 species of the Sitopsis section (Ae. speltoides, Ae. longissima, and Ae. searsii) and T. aestivum. The dendrogram obtained generally reflects the current views on phylogenetic relationships among these species.     

小麦SSR和EST-SSR引物对无芒雀麦的通用性分析

无芒雀麦(Bromus inermis Leyss.)具有营养价值高、产量大、利用季节长、耐寒耐旱、适应性强等优良品质。为了解小麦SSR和EST-SSR引物在亲缘植物无芒雀麦中的通用性,本研究选用位于普通小麦7个部分同源群的203对SSR引物和46对EST-SSR引物对无芒雀麦基因组DNA进行了扩增。结果显示:有137对(67.49%)SSR和30对(65.22%)EST-SSR引物对无芒雀麦可以有效扩增,平均扩增条带数分别为2.8和2.5,即小麦SSR和EST-SSR引物在无芒雀麦中具有较高的通用性;研究还发现,来自小麦B基因组和第5同源群染色体的引物在无芒雀麦中的有效扩增比率和平均扩增条带数最低。据此推断,小麦B基因组和第5同源群染色体可能与无芒雀麦基因组的亲缘关系较远。该研究对开发无芒雀麦基因组的特异分子标记、进行遗传多样性分析和功能基因定位等具有一定的参考价值。     

Development of eSSR-Markers in Setaria italica and Their Applicability in Studying Genetic Diversity,Cross-Transferability and Comparative Mapping in Millet and Non-Millet Species

Foxtail millet ( Setaria italica L.) is a tractable experimental model crop for studying functional genomics of millets and bioenergy grasses. But the limited availability of genomic resources, particularly expressed sequence-based genic markers is significantly impeding its genetic improvement. Considering this, we attempted to develop EST-derived-SSR (eSSR) markers and utilize them in germplasm characterization, cross-genera transferability and in silico comparative mapping. From 66,027 foxtail millet EST sequences 24,828 non-redundant ESTs were deduced, representing ~16 Mb, which revealed 534 (~2%) eSSRs in 495 SSR containing ESTs at a frequency of 1/30 kb. A total of 447 pp were successfully designed, of which 327 were mapped physically onto nine chromosomes. About 106 selected primer pairs representing the foxtail millet genome showed high-level of cross-genera amplification at an average of ~88% in eight millets and four non-millet species. Broad range of genetic diversity (0.02–0.65) obtained in constructed phylogenetic tree using 40 eSSR markers demonstrated its utility in germplasm characterizations and phylogenetics. Comparative mapping of physically mapped eSSR markers showed considerable proportion of sequence-based orthology and syntenic relationship between foxtail millet chromosomes and sorghum (~68%), maize (~61%) and rice (~42%) chromosomes. Synteny analysis of eSSRs of foxtail millet, rice, maize and sorghum suggested the nested chromosome fusion frequently observed in grass genomes. Thus, for the first time we had generated large-scale eSSR markers in foxtail millet and demonstrated their utility in germplasm characterization, transferability, phylogenetics and comparative mapping studies in millets and bioenergy grass species.     

Development and characterization of microsatellite markers from tropical forage Stylosanthes species and analysis of genetic variability and cross-species transferability

A limited number of functional molecular markers has slowed the desired genetic improvement of Stylosanthes species. Hence, in an attempt to develop simple sequence repeat (SSR) markers, genomic libraries from Stylosanthes seabrana B.L. Maass & 't Mannetje (2n=2x=20) using 5' anchored degenerate microsatellite primers were constructed. Of the 76 new microsatellites, 21 functional primer pairs were designed. Because of the small number of primer pairs designed, 428 expressed sequence tag (EST) sequences from seven Stylosanthes species were also examined for SSR detection. Approximately 10% of sequences delivered functional primer pairs, and after redundancy elimination, 57 microsatellite repeats were selected. Tetranucleotides followed by trinucleotides were the major repeated sequences in Stylosanthes ESTs. In total, a robust set of 21 genomic-SSR (gSSR) and 20 EST-SSR (eSSR) markers were developed. These markers were analyzed for intraspecific diversity within 20 S. seabrana accessions and for their cross-species transferability. Mean expected (He) and observed (Ho) heterozygosity values with gSSR markers were 0.64 and 0.372, respectively, whereas with eSSR markers these were 0.297 and 0.214, respectively. Dendrograms having moderate bootstrap value (23%-94%) were able to distinguish all accessions of S. seabrana with gSSR markers, whereas eSSR markers showed 100% similarities between few accessions. The set of 21 gSSRs, from S. seabrana, and 20 eSSRs, from selected Stylosanthes species, with their high cross-species transferability (45% with gSSRs, 86% with eSSRs) will facilitate genetic improvement of Stylosanthes species globally.     

Sequence divergence of rice microsatellites in Oryza and other plant species

To determine the basis of genetic variation at microsatellite loci, eleven primer pairs, developed to amplify microsatellite markers in rice, were evaluated for their ability to amplify a PCR product and for both electromorphic and sequence-based polymorphism of the resulting products in 12 plant samples, including representatives from six different species within the genus Oryza and one genotype each from Zea (maize), Triticum (wheat) and Arabidopsis. PCR amplification was reliable in the four O. sativa samples as well as in the closely related Oryza relatives with AA genomes, while only 73% (8/11) of primers amplified in the BB/CC and CC genomes of Oryza, and 27% (3/11) amplified in the other genera. Three out of seven DNA fragments that were amplified from all genera were determined to be orthologous to their rice counterparts. A total of 115 amplicons were detected using polyacrylamide gel electrophoresis and these clustered into 74 distinct electromorphs. Sequencing of 108 amplicons revealed size homoplasy, exposing 13 new sequence-based variants. Allelic diversity within a species was predominantly due to changes in the number of repeats in the microsatellite region, but the frequency of insertions/deletions (indels) and base substitutions increased as the genetic distance between samples increased. This study suggests that electromorph size polymorphism is an adequate measure of genetic difference in studies involving closely-related individuals, but that when phylogenetic or evolutionary inferences are being made over longer time scales, evaluation of SSR variation at the sequence level is essential.     

Identification and cross-species amplification of EST derived SSR markers in different bamboo species

The availability of expressed sequence data derived from gene discovery programs became an alternative source of mining simple sequence repeat (SSR) and developing inexpensive genetic markers for the crop improvements. In present study, 10 express sequence tags (EST)-SSR markers were identified from Bambusa oldhamii public sequence data base. Transferability to 25 species of Bambusoideae ranged from 30% to 100%. The number of alleles detected per locus ranged from 2 to 10. All the newly identified SSR markers were found to be moderately to highly polymorphic with an average Polymorphic Information Content (PIC) value of 0.54. As these loci represents transcribed region and recorded high level of cross transferability and reliable amplification across the species, demonstrating the utility of these markers for functional and genetic analyses of bamboo species.     

Development of microsatellite markers in a riparian shrub, Spiraea thunbergii (Rosaceae)

? Premise of the study: Microsatellite primers in the deciduous shrub Spiraea thunbergii were developed to investigate genetic diversity and population genetic structure. Cross-species transferability was assayed in four congeneric species. ? Methods and Results: Using a compound simple sequence repeat (SSR) marker method, 10 primer sets were identified in Japanese populations of S. thunbergii. The primers amplified compound SSRs with two to five alleles per locus. More than half of the primers were also amplified in S. prunifolia, S. nipponica var. nipponica, and S. japonica. ? Conclusions: These markers might be useful for future studies of population genetics of S. thunbergii and congeneric species.     

开发SSR引物方法之研究动态

SSR标记是一种基于DNA长度多态性的分子标记技术,是进行群体遗传结构分析、构建遗传连锁图谱非常有效的工具。由于SSR标记是特异引物标记,必须在知道某个物种DNA序列的前提下,才能设计引物进行PCR扩增,故而存在一个引物开发的问题。从SSR标记的发展历程来看,开发SSR引物的方法有经典的构建与筛选基因组文库的方法、微卫星富集法、省略筛库法和数据库搜索法等四种。本文综述了这四种方法的操作流程及其在实际应用中的优缺点,并对近年来SSR引物在相近的物种间转移使用的情况作了介绍. Abstract: SSRs is one of molecular markers technology based on DNA length polymorphism and an efficient tool for population genetic studies and primary genetic linkage maps construction. Because of a special primer marker, It’s necessary to know a species DNA sequence in order to design primers for PCR testing. That is to say, there is a problem of SSR primer development. For the progress of SSR marker technology, the methods of developing SSR primer could be divided into four kinds: traditional constructing and screening genome library procedure, the SSR richment procedure, avoiding screening genome library procedure and database search procedure. This paper reviewed these four methods’operation processes and their advantages and disadvantages. In addition, transferability of SSR primers in closely related species were introduced in recent years.     

The development of highly transferable intron-spanning markers for temperate forage grasses

DNA markers have the potential to be a powerful tool for the molecular study and breeding of agronomic traits of temperate forage grasses, but some of these grasses have only limited sequence information available. We aimed to design highly transferable primer sets by using the abundant sequence information available for related crop species such as wheat and rice. The degree of similarity between the primer sequences of the wheat PCR-based landmark unique gene (PLUG) primer set and the corresponding sequences of rice orthologs was designated as the ??universality index?? (UI). We classified 359 PLUG primer pairs based on their UI values and found that primer pairs with high UI values showed higher successful amplification rates in Festuca and Lolium species than those with low UI values. Based on these results, we designed new primer sets, designated Conserved Three-prime-End Region (COTER) primers, with complete similarity to rice orthologs for eight bases at the 3?? end of each primer. COTER primer sets developed from both tall fescue and wheat showed high transferability in six temperate grasses (mean amplification rates of 95% for tall fescue primers; 79% for wheat primers). This strategy and primer information could also be useful for developing DNA markers for other grass species with little genome information available.     

ISSR分子标记及其在植物遗传学研究中的应用

ISSR分子标记是在SSR标记基础上发展起来的一种新技术,其基本原理是在SSR的5′或3′端加锚1~4个嘌呤或嘧啶碱基,然后以此为引物,对两侧具有反向排列SSR的一段基因组DNA序列进行扩增。重复序列和锚定碱基是随机选择的,扩增产物经聚丙烯酰胺或琼脂糖凝胶电泳分离后,每个引物可以产生比RAPD方法更多的扩增片段,因此,ISSR标记是一种快速、可靠、可以提供有关基因组丰富信息的DNA指纹技术。ISSR标记呈孟德尔式遗传,在多数物种中是显性的,目前已广泛用于植物品种鉴定、遗传作图、基因定位、遗传多样性、进化及分子生态学研究中。 ISSR Markers and Their Applications in Plant Genetics WANG Jian-bo Key Laboratory of MOE for Plant Developmental Biology,Wuhan University,Wuhan 430072,China Abstract:Recently,inter-simple sequence repeat (ISSR) markers have emerged as an alternative system with reliability and advantages of microsatellites (SSR).The technique involves amplification of genomic segments flanked by inversely oriented and closely spaced microsatellite sequences by a single primer or a pair of primers based on SSRs anchored 5′ or 3′ with 1-4 purine or pyramidine residues.The sequences of repeats and anchor nucleates are arbitrarily selected.Coupled with the separation of amplification products on a polyacrylamide or agarose gels,ISSR amplification can reveal a much larger number of fragments per primer than RAPD.It is concluded that ISSR technique provides a quick,reliable and highly informative system for DNA fingerprinting.ISSR markers are inherited in Mendelin mode and segregated as dominant markers.This technique has been widely used in the studies of cultivar identification,genetic mapping,gene tagging,genetic diversity,evolution and molecular ecology. Key words：molecular markers; ISSR; plant;applications     

用于绿豆种质资源遗传多样性分析的SSR及STS引物的筛选

目前能够用于绿豆(Vigna radiate)种质资源遗传多样性分析的PCR引物极其有限。通过12份农艺性状差异较大的绿豆种质对绿豆以及小豆(Vigna angularis)、豇豆(Vigna unguiculata)、菜豆(Phaseolus vulgaris)等近缘食用豆中的PCR引物进行筛选,结果表明41对绿豆SSR引物中能够有效扩增的有35对,6对有多态性;28对绿豆STS引物中有23对能够有效扩增,2对有多态性;8对小豆SSR引物能够有效扩增的有6对,但均无多态性;27对豇豆SSR引物能够有效扩增的有17对,1对有多态性;24对菜豆SSR引物能够有效扩增的有9对,1对有多态性。这些多态性引物的获得将有助于中国绿豆种质资源的遗传多样性分析。     

Simple sequence repeat (SSR) analysis in relation to calcium transport and signaling genes reveals transferability among grasses and a conserved behavior within finger millet genotypes

Being an excellent source of calcium, finger millet crop has nutraceutical importance. Mineral accumulation, being a polygenic trait, becomes essential to target potential candidate genes directly or indirectly involved in the regulation of calcium transport and signaling in cereals and might have influence on grain calcium accumulation. In view of this, genic microsatellite markers were developed from the coding and non-coding sequences of calcium signaling and transport genes viz. calcium transporters (channels; ATPases and antiporters), calcium-binding proteins and calcium-regulated protein kinases available in rice and sorghum. In total, 146 genic "simple sequence repeat" (SSR) primers were designed and evaluated for cross-transferability across a panel of nine grass species including finger millet. The average transferability of genic SSR markers from sorghum to other grasses was highest (73.2 %) followed by rice (63.4 %) with an overall average of 68.3 % which establishes the importance of these major crops as a useful resource of genomic information for minor crops. The transfer rate of SSR markers was also correlated with the phylogenetic relationship (or genetic relatedness) of the species. Primers with successful amplification in finger millet were further used to screen for polymorphism across a set of high and low calcium containing genotypes. The results reveal a conserved behavior across the finger millet genotypes indicating that the mineral transport and the storage machinery largely remain conserved in plants and even SSR variations in them remain suppressed during the course of evolution. Single nucleotide polymorphism and differential expression patterns of candidate genes, therefore, might be a plausible reason to explain variations in grain calcium contents among finger millet genotypes.     

菰核基因组SSR引物的开发及其在稻族植物中的通用性检测

利用数据库中已有的部分菰(Zizania latifolia Turcz.)核基因组序列,采用in silico方法开发其SSR引物,并选取我国不同纬度的5个菰野生种群,对合成的64对引物进行筛选。结果显示:64对引物中有15对至少在一个种群中表现出多态性;共发现84个等位基因,每个位点平均有5.6个等位基因。在5个种群中,观察杂合度为0.000~0.941,预期杂合度为0.072~0.625。种群间的基因流(Nm=0.576)水平较低导致了种群间表现出较高的遗传分化(FST=0.432)。进一步对稻族其他物种的通用性检测发现,15个多态位点中,有8个位点在亚洲栽培稻(Oryza sativa L.)中得到扩增,有9个位点在普通野生稻(O.rufipogon Griff.)中得到扩增。