Multiplexed microsatellite recovery using massively parallel sequencing

Jennings, Tara; Knaus, Brian J.; Mullins, Thomas D.; Haig, Susan M.; Cronn, Richard

doi:10.1111/j.1755-0998.2011.03033.x

Cited by 63 publications

(70 citation statements)

References 37 publications

(104 reference statements)

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“…High-copy chloroplast genomes can often be fully recovered and can be used to create sequencing primers ( Straub et al, 2011 ). Another application for low-coverage WGS includes the identifi cation of microsatellite loci ( Jennings et al, 2011 ;Castoe et al, 2012 ). The discovery of low-copy nuclear loci, on the other hand, can be more diffi cult as very-low-coverage genome skimming may produce only small fragments (e.g., ~400-500 bp on the Roche 454) when reads cannot be assembled into contigs.…”

Section: Methodsmentioning

confidence: 99%

The Parasitic Plant Genome Project: New Tools for Understanding the Biology ofOrobancheandStriga

et al. 2012

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The Parasitic Plant Genome Project has sequenced transcripts from three parasitic species and a nonparasitic relative in the Orobanchaceae with the goal of understanding genetic changes associated with parasitism. The species studied span the trophic spectrum from free-living nonparasite to obligate holoparasite. Parasitic species used wereTriphysaria versicolor, a photosynthetically competent species that opportunistically parasitizes roots of neighboring plants;Striga hermonthica, a hemiparasite that has an obligate need for a host; andOrobanche aegyptiaca, a holoparasite with absolute nutritional dependence on a host.Lindenbergia philippensisrepresents the closest nonparasite sister group to the parasitic Orobanchaceae and was included for comparative purposes. Tissues for transcriptome sequencing from each plant were gathered to identify expressed genes for key life stages from seed conditioning through anthesis. Two of the species studied,S. hermonthicaandO. aegyptiaca, are economically important weeds and the data generated by this project are expected to aid in research and control of these species and their relatives. The sequences generated through this project will provide an abundant resource of molecular markers for understanding population dynamics, as well as provide insight into the biology of parasitism and advance progress toward understanding parasite virulence and host resistance mechanisms. In addition, the sequences provide important information on target sites for herbicide action or other novel control strategies such as trans-specific gene silencing.

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Section: Methodsmentioning

confidence: 99%

The Parasitic Plant Genome Project: New Tools for Understanding the Biology ofOrobancheandStriga

et al. 2012

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“…This is equivalent to a(combined) locus to primer conversion of 90%. This yield is higher than the values obtained from 454 Titanium or Illumina shotgun sequencing, which usually show conversion of 40%60% of the loci due to read length constraints and depending on stringency of analysis (2, 4, 5, 11). …”

Section: Resultsmentioning

confidence: 66%

“…Several price calculations for different PacBio sequencing chemistry combinations can be found in the recent study by Koren et al (18). This puts the cost of microsatellite discovery using PacBio sequencing between that of 454 and Illumina sequencing (4). Our approach provides a useful alternative when cost reduction using multiplexing is not practicable, and microsatellite array length is to be determined directly from the data for prioritized locus testing .…”

Section: Resultsmentioning

confidence: 99%

“…The first high-throughput attempts to identify microsatellite markers were performed using 454 pyrosequencing of genomic shotgun libraries or microsatellite enriched libraries (13). Approaches using ultra-short read sequencing for microsatellite identification have also been explored (4, 5). Typically, these cloning-free approaches are performed at low genome coverage, employing relatively short sequence reads and often recovering small fractions of the target genome.…”

Section: Introductionmentioning

confidence: 99%

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Microsatellite Marker Discovery using Single Molecule Real-Time Circular Consensus Sequencing on the Pacific Biosciences RS

2013

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Microsatellite sequences are important markers for population genetics studies. In the past, the development of adequate microsatellite primers has been cumbersome. However with the advent of next-generation sequencing technologies, marker identification in genomes of non-model species has been greatly simplified. Here we describe microsatellite discovery on a Pacific Biosciences single molecule real-time sequencer. For the Greater White-fronted Goose (Anser albifrons), we identified 316 microsatellite loci in a single genome shotgun sequencing experiment. We found that the capability of handling large insert sizes and high quality circular consensus sequences provides an advantage over short read technologies for primer design. Combined with a straightforward amplification-free library preparation, PacBio sequencing is an economically viable alternative for microsatellite discovery and subsequent PCR primer design.

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“…Low-coverage whole genome sequencing (Jennings et al, 2011) was used to produce an initial set of genomic resources for 10 hardwood tree species, including honey locust (Staton et al, in prep.). Illumina libraries were created from sonicated genomic DNA extracted from leaflets of one individual (seed parent of 88 single-tree progeny, Appendix 1) of G. triacanthos per the manufacturer’s protocol (QIAGEN DNeasy96 Plant Kit; QIAGEN, Hilden, Germany).…”

Section: Methods and Resultsmentioning

confidence: 99%

Development of genomic microsatellites in Gleditsia triacanthos (Fabaceae) using Illumina sequencing

et al. 2013

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• Premise of the study: Fourteen genomic microsatellite markers were developed and characterized in honey locust, Gleditsia triacanthos, using Illumina sequencing. Due to their high variability, these markers can be applied in analyses of genetic diversity and structure, and in mating system and gene flow studies.• Methods and Results: Thirty-six individuals from across the species range were included in a genetic diversity analysis and yielded three to 20 alleles per locus. Observed heterozygosity and expected heterozygosity ranged from 0.214 to 0.944 and from 0.400 to 0.934, respectively, with minimal occurrence of null alleles. Regular segregation of maternal alleles was observed at seven loci and moderate segregation distortion at four of 11 loci that were heterozygous in the seed parent.• Conclusions: Honey locust is an important agroforestry tree capable of very fast growth and tolerance of poor site conditions. This is the first report of genomic microsatellites for this species.

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Multiplexed microsatellite recovery using massively parallel sequencing

Cited by 63 publications

References 37 publications

The Parasitic Plant Genome Project: New Tools for Understanding the Biology ofOrobancheandStriga

The Parasitic Plant Genome Project: New Tools for Understanding the Biology ofOrobancheandStriga

Microsatellite Marker Discovery using Single Molecule Real-Time Circular Consensus Sequencing on the Pacific Biosciences RS

Development of genomic microsatellites in Gleditsia triacanthos (Fabaceae) using Illumina sequencing

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