Simulation with RADinitio Improves RADseq Experimental Design and Sheds Light on Sources of Missing Data

Rivera‐Colón, Angel G.; Rochette, Nicolas C.; Catchen, Julian M.

doi:10.1101/775239

Cited by 19 publications

(35 citation statements)

References 70 publications

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“…The number of SNP and genotype calls may be inflated by erroneous calls, and thus cannot in itself be regarded as an indicator of the quality of these inferences. In order to assess the quality of the Stacks v2 SNP and genotype calls and their spatial variations within loci, we created simulation data sets with the radinitio package (Rivera‐Colón, Rochette, & Catchen ), using the threespine stickleback reference genome as template (see File ). We simulated two data sets, one high coverage (20×) and one low coverage (10×), each comprising 100 individuals split among four populations.…”

Section: Resultsmentioning

confidence: 99%

Stacks 2: Analytical methods for paired‐end sequencing improve RADseq‐based population genomics

2019

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For half a century population genetics studies have put type II restriction endonucleases to work. Now, coupled with massively‐parallel, short‐read sequencing, the family of RAD protocols that wields these enzymes has generated vast genetic knowledge from the natural world. Here, we describe the first software natively capable of using paired‐end sequencing to derive short contigs from de novo RAD data. Stacks version 2 employs a de Bruijn graph assembler to build and connect contigs from forward and reverse reads for each de novo RAD locus, which it then uses as a reference for read alignments. The new architecture allows all the individuals in a metapopulation to be considered at the same time as each RAD locus is processed. This enables a Bayesian genotype caller to provide precise SNPs, and a robust algorithm to phase those SNPs into long haplotypes, generating RAD loci that are 400–800 bp in length. To prove its recall and precision, we tested the software with simulated data and compared reference‐aligned and de novo analyses of three empirical data sets. Our study shows that the latest version of Stacks is highly accurate and outperforms other software in assembling and genotyping paired‐end de novo data sets.

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Section: Resultsmentioning

confidence: 99%

Stacks 2: Analytical methods for paired‐end sequencing improve RADseq‐based population genomics

2019

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“…The article by Rivera‐Colón et al (2020) in the current issue of Molecular Ecology Resources introduces the new simulation software RADinitio . The function of RADinitio is to simulate behaviours of different RADseq protocols and parameters of library preparation on a particular species in generating sequencing data.…”

Section: Figurementioning

confidence: 99%

“…Rivera‐Colón et al (2020) describe RADinitio as a three‐step pipeline. The user first needs to feed the software with a reference sequence that will be used to simulate a metapopulation.…”

Section: Figurementioning

confidence: 99%

“…The level of detail thought by the authors to make RADinitio mimic the effects of several variables (via parameters defined by the user) on data generated by a RADseq experiment brings RADseq simulation software to a new level. By considering allele dropout resulting from natural polymorphism in RADinitio simulations on a set of species, Rivera‐Colón et al (2020) were able to characterize for the first time the degree of contribution of library preparation and sequencing parameters to total allele dropout. They found that using a bad template quality and a suboptimal sequencing coverage influence much more the amount of allele dropout compared to the effect of natural polymorphism at enzyme restriction sites.…”

Section: Figurementioning

confidence: 99%

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Customize and get the most out of your reduced‐representation sequencing experiment with the new simulation software RADinitio

Choquet

2020

Molecular Ecology Resources

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Whole‐genome sequencing is still often a difficult, costly and time‐consuming task. The emergence of various genome reduced‐representation sequencing (RRS) protocols such as restriction site‐associated DNA sequencing (RADseq) has facilitated the access to genome‐wide information, without the need for whole‐genome sequencing. Reaching the full potential of RRS protocols though requires adjustments and tailoring to the species under investigation. To that end, simulation software has been developed to guide researchers in the customization of their RADseq experiment, but the extent to which these tools mimic the behaviour of a protocol in generating sequencing data is limited. In this current issue of Molecular Ecology Resources, Rivera‐Colón et al. (2020) introduce RADinitio, a new software for simulating RADseq data designed to perform simulations at the highest level of representativeness. By taking into account the effects of library preparation and sequencing parameters on the resulting sequences, RADinitio allows the precise identification of the sources of failure when designing a RADseq experiment. This new software represents a considerable advance in RADseq data simulation and will likely lead to increased success in RADseq experiments.

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“…Top resources published in Molecular Ecology Resources in 2020 include key contributions across multiple subject areas of the journal. Three separate but complementary computer programs, which are at the frontier of their respective fields, were published: RADinitio, which allows users to simulate RAD (restriction site‐associated DNA) data to aid experimental design (Rivera‐Colón et al, 2020); Jackalope, which enables users to generate high‐throughput sequencing simulations that can take complex evolutionary scenarios into account (Nell, 2020); and a new module of the landscape genetics programs CDPOP and CDMetaPOP, which enables users to simulate multilocus adaption in complex environments in order to better evaluate genotype–environment associations (Landguth et al., 2020). To ensure that all researchers have access to the latest tools in their field, computer programs continue to be published as ‘free access’.…”

Section: Associate Editors and Reviewersmentioning

confidence: 99%

Editorial 2021

Narum¹,

Kelley²,

Fountain‐Jones³

et al. 2020

Molecular Ecology Resources

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Simulation with RADinitio Improves RADseq Experimental Design and Sheds Light on Sources of Missing Data

Cited by 19 publications

References 70 publications

Stacks 2: Analytical methods for paired‐end sequencing improve RADseq‐based population genomics

Stacks 2: Analytical methods for paired‐end sequencing improve RADseq‐based population genomics

Customize and get the most out of your reduced‐representation sequencing experiment with the new simulation software RADinitio

Editorial 2021

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