Development of EST-based SNP and InDel markers and their utilization in tetraploid cotton genetic mapping

Background

Availability of molecular markers has proven to be an efficient tool in facilitating progress in plant breeding, which is particularly important in the case of less researched crops such as cotton. Considering the obvious advantages of single nucleotide polymorphisms (SNPs) and insertion-deletion polymorphisms (InDels), expressed sequence tags (ESTs) were analyzed in silico to identify SNPs and InDels in this study, aiming to develop more molecular markers in cotton.

Results

A total of 1,349 EST-based SNP and InDel markers were developed by comparing ESTs between Gossypium hirsutum and G. barbadense, mining G. hirsutum unigenes, and analyzing 3′ untranslated region (3′UTR) sequences. The marker polymorphisms were investigated using the two parents of the mapping population based on the single-strand conformation polymorphism (SSCP) analysis. Of all the markers, 137 (10.16%) were polymorphic, and revealed 142 loci. Linkage analysis using a BC₁ population mapped 133 loci on the 26 chromosomes. Statistical analysis of base variations in SNPs showed that base transitions accounted for 55.78% of the total base variations and gene ontology indicated that cotton genes varied greatly in harboring SNPs ranging from 1.00 to 24.00 SNPs per gene. Sanger sequencing of three randomly selected SNP markers revealed discrepancy between the in silico predicted sequences and the actual sequencing results.

Conclusions

In silico analysis is a double-edged blade to develop EST-SNP/InDel markers. On the one hand, the designed markers can be well used in tetraploid cotton genetic mapping. And it plays a certain role in revealing transition preference and SNP frequency of cotton genes. On the other hand, the developmental efficiency of markers and polymorphism of designed primers are comparatively low.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-1046) contains supplementary material, which is available to authorized users.     

Development of single nucleotide polymorphism markers in <Emphasis Type="Italic">Theobroma cacao</Emphasis> and comparison to simple sequence repeat markers for genotyping of Cameroon clones

Single nucleotide polymorphism (SNP) markers are increasingly being used in crop breeding programs, slowly replacing simple sequence repeats (SSR) and other markers. SNPs provide many benefits over SSRs, including ease of analysis and unambiguous results across various platforms. We have identified and mapped SNP markers in the tropical tree crop Theobroma cacao, and here we compare SNPs to SSRs for the purpose of determining off-types in clonal collections. Clones are used as parents in breeding programs and the presence of mislabeled clones (off-types) can lead to the propagation of undesired traits and limit genetic gain from selection. Screening was performed on 186 trees representing 19 Theobroma cacao clones from the Institute of Agricultural Research for Development (IRAD) breeding program in Cameroon. Our objectives were to determine the correct clone genotypes and off-types using both SSR and SNP markers. SSR markers that amplify 11 highly polymorphic loci from six linkage groups and 13 SNP markers that amplify eight loci from seven linkage groups were used to genotype the 186 trees and the results from the two different marker types were compared. The SNP assay identified 98% of the off-types found via SSR screening. SNP markers spread across multiple linkage groups may serve as a more cost-effective and reliable method for off-type identification, especially in cacao-producing countries where the equipment necessary for SSR analysis may not be available.     

基于枇杷转录组序列的SSR分子标记引物开发

为获得更多的枇杷SSR引物,对枇杷转录组测序得到的1 kb以上的11 798条Unigenes进行SSR位点搜索。结果在3515 条Unigenes（6.77%）中共获得4438个SSR位点,其中主要重复类型为双碱基重复和三碱基重复,二者占SSR总数的68.27%,而四、五、六碱基重复类型较少,仅占1.42%。对选出的SSR标记采用Primer3进行引物设计,得到7911 对SSR位点特异引物,可用于枇杷遗传多样性分析、分子标记辅助育种、育种群体的建立等研究。     

Development of gene-based markers and construction of an integrated linkage map in eggplant by using Solanum orthologous (SOL) gene sets

We constructed an integrated DNA marker linkage map of eggplant (Solanum melongena L.) using DNA marker segregation data sets obtained from two independent intraspecific F(2) populations. The linkage map consisted of 12 linkage groups and encompassed 1,285.5 cM in total. We mapped 952 DNA markers, including 313 genomic SSR markers developed by random sequencing of simple sequence repeat (SSR)-enriched genomic libraries, and 623 single-nucleotide polymorphisms (SNP) and insertion/deletion polymorphisms (InDels) found in eggplant-expressed sequence tags (ESTs) and related genomic sequences [introns and untranslated regions (UTRs)]. Because of their co-dominant inheritance and their highly polymorphic and multi-allelic nature, the SSR markers may be more versatile than the SNP and InDel markers for map-based genetic analysis of any traits of interest using segregating populations derived from any intraspecific crosses of practical breeding materials. However, we found that the distribution of microsatellites in the genome was biased to some extent, and therefore a considerable part of the eggplant genome was first detected when gene-derived SNP and InDel markers were mapped. Of the 623 SNP and InDel markers mapped onto the eggplant integrated map, 469 were derived from eggplant unigenes contained within Solanum orthologous (SOL) gene sets (i.e., sets of orthologous unigenes from eggplant, tomato, and potato). Out of the 469 markers, 326 could also be mapped onto the tomato map. These common markers will be informative landmarks for the transfer of tomato's more saturated genomic information to eggplant and will also provide comparative information on the genome organization of the two solanaceous species. The data are available from the DNA marker database of vegetables, VegMarks (http://vegmarks.nivot.affrc.go.jp).     

中华大仰蝽转录组学研究及SSR新标记开发

【目的】中华大仰蝽Notonecta chinensis为中国和日本冲绳分布的重要水生天敌昆虫,可用于蚊虫的生物防治。本研究旨在建立中华大仰蝽转录组数据库,挖掘其基因信息。【方法】采用高通量测序平台Illumina NextSeq500对中华大仰蝽进行转录组测序、de novo组装及生物信息学分析;利用MISA软件基于转录组unigenes数据进行SSR新分子标记筛选。毛细管电泳检测SSR多态性。【结果】总计获得34782282条clean reads(NCBI SRA数据库登录号:SRR13259254),组装成37801条unigenes,N50为913 bp。将unigenes与已知数据库比对进行基因功能注释,分别有36474,32470,27781,35079和5638条序列注释到nr,Swiss-Prot,GO,eggNOG和KEGG数据库。通过GO数据库注释,unigenes的功能可分为生物学过程、细胞组分和分子功能三大类,其中参与细胞、细胞部分及结合功能的unigenes比例较大。eggNOG数据库注释结果显示,37801条unigenes归到25个基因家族,注释到未知功能的最多。KEGG代谢通路富集分析显示,5638条unigenes注释到245个代谢通路,注释到核糖体的数目最多。此外,用MISA软件在转录组测序数据中的37801条unigenes中搜索到3124个SSR位点(占总unigenes的8.26%),发生频率为7.07%。通过PCR筛选出16个SSR位点。7个中华大仰蝽地理种群3个位点NcCF/NcCR,NcKF/NcKR和NcLF/NcLR的多态信息含量(PIC)分别为0.870,0.902和0.857,具高度多态性。【结论】本研究成功获得了中华大仰蝽转录组数据,为其基因功能分析提供了分子理论基础;SSR新标记的开发为中华大仰蝽遗传多样性分析、隐存种鉴定及基因图谱构建提供了更丰富的候选分子标记。     

中华大仰蝽转录组学研究及SSR新标记开发

[目的]中华大仰蝽Notonecta chinensis为中国和日本冲绳分布的重要水生天敌昆虫,可用于蚊虫的生物防治.本研究旨在建立中华大仰蝽转录组数据库,挖掘其基因信息.[方法]采用高通量测序平台Illumina NextSeq500对中华大仰蝽进行转录组测序、de novo组装及生物信息学分析;利用MISA软件基于...     

Development of mapped simple sequence repeat markers from common bean (Phaseolus vulgaris L.) based on genome sequences of a Chinese landrace and diversity evaluation

Microsatellite or single sequence repeat (SSR) markers have been commonly used in genetic research in many crop species, including common bean (Phaseolus vulgaris L.). A limited number of existing SSR markers have been designed from high-throughput sequencing of the genome, warranting the exploitation of new SSR markers from genomic regions. In this paper, we sequenced total DNA from the genotype Hong Yundou with a 454-FLX pyrosequencer and found numerous SSR loci. Based on these, a large number of SSR markers were developed and 90 genomic-SSR markers with clear bands were tested for mapping and diversity detection. The new SSR markers proved to be highly polymorphic for molecular polymorphism, with an average polymorphism information content value of 0.44 in 131 Chinese genotypes and breeding lines, effective for distinguishing Andean and Mesoamerican genotypes. In addition, we integrated 85 primers of the 90 polymorphism markers into the bean map using an F2 segregating population derived from Hong Yundou crossed with Jingdou. The distribution of SSR markers among 11 chromosomes was not random and tended to cluster on the linkage map, with 14 new markers mapped on chromosome Pv01, whereas only four loci were located on chromosome Pv04. Overall, these new markers have potential for genetic mapping, genetic diversity studies and map-based cloning in common bean.     

SNP discovery based on CATS and genotyping in the finless porpoise (Neophocaena phocaenoides)

Single nucleotide polymorphisms (SNPs) discovery and genotyping were performed for the finless porpoises (Neophocaena phocaenoides). About 202 comparative anchor tagged sequence primers derived from genomes of human, mouse and some other mammals were used to screen the finless porpoise population. Of the 51 SNPs discovered, 25 were further characterized with ideal genotyping primers and using fragment length discrepant allele specific PCR assay. This is the first report of SNP loci for the finless porpoise, which is helpful to provide some novel molecular markers and new genetic information relevant to the conservation and management of this endangered species.     

High-throughput single nucleotide polymorphism (SNP) identification and mapping in the sesame (<Emphasis Type="Italic">Sesamum indicum</Emphasis> L.) genome with genotyping by sequencing (GBS) analysis

Sesame (Sesamum indicum L. syn. Sesamum orientale L.) is considered to be the first oil seed crop known to man. Despite its versatile use as an oil seed and a leafy vegetable, sesame is a neglected crop and has not been a subject of molecular genetic research until the last decade. There is thus limited knowledge regarding genome-specific molecular markers that are indispensible for germplasm enhancement, gene identification, and marker-assisted breeding in sesame. In this study, we employed a genotyping by sequencing (GBS) approach to a sesame recombinant inbred line (RIL) population for high-throughput single nucleotide polymorphism (SNP) identification and genotyping. A total of 15,521 SNPs were identified with 14,786 SNPs (95.26 %) located along sesame genome assembly pseudomolecules. By incorporating sesame-specific simple sequence repeat (SSR) markers developed in our previous work, 230.73 megabases (99 %) of sequence from the genome assembly were saturated with markers. This large number of markers will be available for sesame geneticists as a resource for candidate polymorphisms located along the physical chromosomes of sesame. Defining SNP loci in genome assembly sequences provides the flexibility to utilize any genotyping strategy to survey any sesame population. SNPs selected through a high stringency filtering protocol (770 SNPs) for improved map accuracy were used in conjunction with SSR markers (50 SSRs) in linkage analysis, resulting in 13 linkage groups that encompass a total genetic distance of 914 cM with 432 markers (420 SNPs, 12 SSRs). The genetic linkage map constitutes the basis for future work that will involve quantitative trait locus (QTL) analyses of metabolic and agronomic traits in the segregating RIL population.     

Sequence Polymorphism Discovery in Wheat Microsatellite Flanking Regions using Pyrophosphate Sequencing

Sequence polymorphisms such as insertion/deletions (indels) and single nucleotide polymorphisms (SNP) are suitable for automated analysis of molecular markers and useful for cultivar identification, genetic mapping and trait association. While they are abundant, their initial discovery, comprising detection, validation and characterisation of sequence polymorphisms, is time consuming and expensive. This is especially true for multi-allellic hexaploid wheat. We investigated simple sequence repeat (SSR) flanking regions as a source for sequence polymorphisms in wheat. SSRs have a potentially high polymorphic frequency, there are a large number of highly characterised markers available, tested primers are published and most are single locus. Of 126 markers investigated, polymorphisms were found in 33 (26%) when tested in 10 wheat varieties. No new primers needed to be designed, the published primer sequences were used as PCR primers and then as sequencing primers. Polymorphism was detected by resequencing using a modification of pyrophosphate sequencing (Pyrosequencing^®) which yielded quality sequencing from the first base after the primer with up to 80 bases of information. Our method of pyrophosphate sequencing of SSRs, although not suitable for full-length sequencing, is an attractive method to directly find sequence polymorphism in varieties of interest using the abundant, well characterised and published SSR markers.     

Abundance, marker development and genetic mapping of microsatellites from unigenes in Brassica napus

Rapeseed (Brassica napus) is the second most important oil crop in the world after soybean. The repertoire of simple sequence repeat (SSR) markers for rapeseed is limited and warrants a search for a larger number of polymorphic SSRs for germplasm characterization and breeding applications. In this study, a total of 5,310 SSR-containing unigenes were identified from a set of 46,038 B. napus unigenes with an average density of one SSR every 5.75?kb. A set of 1,000 expressed sequence tag (EST)-SSR markers with repeat length ??18?bp were developed and tested for their ability to detect polymorphism among a panel of six rapeseed varieties. Of these SSR markers, 776 markers detected clear amplification products, and 511 displayed polymorphisms among the six varieties. Of these polymorphic markers, 195 EST-SSR markers, corresponding to 233 loci, were integrated into an existing B. napus linkage map. These EST-SSRs were randomly distributed on the 19 linkage groups of B. napus. Of the mapped loci, 166 showed significant homology to Arabidopsis genes. Based on the homology, 44 conserved syntenic blocks were identified between B. napus and Arabidopsis genomes. Most of the syntenic blocks were consistent with the duplication and rearrangement events identified previously. In addition, we also identified three previously unreported blocks in B. napus. A subset of 40 SSRs was used to assess genetic diversity in a collection of 192 rapeseed accessions. The polymorphism information content of these markers ranged from 0.0357 to 0.6753 with an average value of 0.3373. These results indicated that the EST-SSR markers developed in this study are useful for genetic mapping, molecular marker-assisted selection and comparative genomics.