Towards population genomics in non-model species with large genomes: a case study of the marine zooplankton<i>Calanus finmarchicus</i>

Choquet, Marvin; Smolina, Irina; Dhanasiri, Anusha K. S.; Blanco-Bercial, Leocadio; Kopp, Martina; Jueterbock, Alexander; Sundaram, Arvind; Hoarau, Galice

doi:10.1098/rsos.180608

Cited by 33 publications

(53 citation statements)

References 74 publications

(105 reference statements)

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“…The high number of SNPs may be indicative of high levels of genetic variation, congruent with predictions for marine zooplankton with large population sizes [12]. The number of SNPs recovered (Table 4) and percentage of properly paired reads mapping uniquely to the targets (Table 3) are comparable to the results from a similar protocol on copepods [26].…”

Section: Target Capture Probes For Limacina Bulimoidessupporting

confidence: 75%

“…However, RADseq protocols require between 50 ng and 1 μg of high-quality DNA, with higher amounts being recommended for better performance [24], and has faced substantial challenges in other planktonic organisms e.g. [25,26]. Furthermore, RADseq may not be cost efficient for species with large genomes [26].…”

Section: Introductionmentioning

confidence: 99%

“…[25,26]. Furthermore, RADseq may not be cost efficient for species with large genomes [26]. Target capture enrichment [27][28][29] overcomes this limitation in DNA starting amount and quality, by using single-stranded DNA probes to selectively hybridise to specific genomic regions that are then recovered and sequenced [30].…”

Section: Introductionmentioning

confidence: 99%

“…In this study, we designed target capture probes for the shelled pteropod Limacina bulimoides based on the method developed in Choquet et al [26], to address population genomic questions using a genome-wide approach. We obtained the draft genome of L. bulimoides to develop a set of target capture probes, and tested the success of these probes through the number of single nucleotide polymorphisms (SNPs) recovered in the focal species.…”

Section: Introductionmentioning

confidence: 99%

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Novel genomic resources for shelled pteropods: a draft genome and target capture probes for Limacina bulimoides, tested for cross-species relevance

et al. 2020

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Background: Pteropods are planktonic gastropods that are considered as bio-indicators to monitor impacts of ocean acidification on marine ecosystems. In order to gain insight into their adaptive potential to future environmental changes, it is critical to use adequate molecular tools to delimit species and population boundaries and to assess their genetic connectivity. We developed a set of target capture probes to investigate genetic variation across their large-sized genome using a population genomics approach. Target capture is less limited by DNA amount and quality than other genome-reduced representation protocols, and has the potential for application on closely related species based on probes designed from one species. Results: We generated the first draft genome of a pteropod, Limacina bulimoides, resulting in a fragmented assembly of 2.9 Gbp. Using this assembly and a transcriptome as a reference, we designed a set of 2899 genomewide target capture probes for L. bulimoides. The set of probes includes 2812 single copy nuclear targets, the 28S rDNA sequence, ten mitochondrial genes, 35 candidate biomineralisation genes, and 41 non-coding regions. The capture reaction performed with these probes was highly efficient with 97% of the targets recovered on the focal species. A total of 137,938 single nucleotide polymorphism markers were obtained from the captured sequences across a test panel of nine individuals. The probes set was also tested on four related species: L. trochiformis, L. lesueurii, L. helicina, and Heliconoides inflatus, showing an exponential decrease in capture efficiency with increased genetic distance from the focal species. Sixty-two targets were sufficiently conserved to be recovered consistently across all five species. Conclusion: The target capture protocol used in this study was effective in capturing genome-wide variation in the focal species L. bulimoides, suitable for population genomic analyses, while providing insights into conserved genomic regions in related species. The present study provides new genomic resources for pteropods and supports the use of target capture-based protocols to efficiently characterise genomic variation in small non-model organisms with large genomes.

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Section: Target Capture Probes For Limacina Bulimoidessupporting

confidence: 75%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Novel genomic resources for shelled pteropods: a draft genome and target capture probes for Limacina bulimoides, tested for cross-species relevance

et al. 2020

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“…For the mutation-scaled effective size of the descendant population (N D e µ), we used an offset gamma distribution with a shape of 4, offset of 0.0001, and mean of 0.0021 after accounting for the offset ( Table 2). The mean of this distribution corresponds to an average number of differences per character between individuals in the population (i.e., nucleotide diversity) of 0.0084, which is comparable to estimates from genomic data of populations of zooplankton (Choquet et al, 2019), stickleback fish (Hohenlohe et al, 2010), and humans (Auton et al, 2015). For the distribution of event times, we used a gamma distribution with a shape of 4, offset of 0.0001, and a mean of 0.002 (after accounting for the offset; Table 2).…”

Section: Simulated Distributionsupporting

confidence: 54%

Insights from a general, full-likelihood Bayesian approach to inferring shared evolutionary events from genomic data: Inferring shared demographic events is challenging

Oaks

L'Bahy

Cobb

2019

Preprint

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Factors that influence the distribution, abundance, and diversification of species can simultaneously affect multiple evolutionary lineages within or across communities. These include environmental changes and inter-specific ecological interactions that cause ranges of multiple, co-distributed species to contract, expand, or become fragmented. Such processes predict genetic patterns consistent with temporally clustered evolutionary events across species, such as synchronous population divergences and/or changes in population size. There have been a number of methods developed to infer shared divergences or changes in effective population size, but not both, and the latter has been limited to approximate Bayesian computation (ABC). We introduce a general, full-likelihood Bayesian method that can use genomic data to estimate temporal clustering of an arbitrary mix of population divergences and populationsize changes across taxa. Applying this method to simulated data, we find that estimating the timing and sharing of demographic changes is much more challenging than divergences. Even under favorable simulation conditions, the ability to infer shared demographic events is quite limited and very sensitive to prior assumptions, which is in sharp contrast to accurate, precise, and robust estimates of shared divergence times. Our results also suggest that previous estimates of co-expansion among five Alaskan populations of threespine sticklebacks (Gasterosteus aculeatus) were likely driven by a combination of prior assumptions and the lack of information about the timing of demographic changes when invariant characters are ignored. We conclude by discussing potential avenues to improve the estimation of synchronous demographic changes across populations.

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In a comfort zone and beyond—Ecological plasticity of key marine mediators

Trudnowska

Balazy

Stoń-Egiert

et al. 2020

Ecology and Evolution

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Towards population genomics in non-model species with large genomes: a case study of the marine zooplanktonCalanus finmarchicus

Cited by 33 publications

References 74 publications

Novel genomic resources for shelled pteropods: a draft genome and target capture probes for Limacina bulimoides, tested for cross-species relevance

Novel genomic resources for shelled pteropods: a draft genome and target capture probes for Limacina bulimoides, tested for cross-species relevance

Insights from a general, full-likelihood Bayesian approach to inferring shared evolutionary events from genomic data: Inferring shared demographic events is challenging

In a comfort zone and beyond—Ecological plasticity of key marine mediators

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