Anchored hybrid enrichment generated nuclear, plastid and mitochondrial markers resolve the Lepanthes horrida (Orchidaceae: Pleurothallidinae) species complex

Bogarín, Diego; Pérez‐Escobar, Oscar Alejandro; Groenenberg, D.S.J.; Holland, Sean; Karremans, Adam P.; Lemmon, Emily Moriarty; Lemmon, Alan R.; Pupulin, Franco; Smets, Erik; Gravendeel, Barbara

doi:10.1016/j.ympev.2018.07.014

Cited by 45 publications

(47 citation statements)

References 80 publications

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“…Alternatively, the following approaches do not require genomic location information: guenomu, a Bayesian hierarchical model that estimates species trees from unrooted gene trees from multiple gene families (de Oliveira Martins and Posada, ), and a recent model within PhyloNet that incorporates incomplete lineage sorting and gene duplication and loss (Du et al., ). Conflict analyses allow further investigation into discordance between gene and species trees and detection of outlier gene trees for large genomic data sets, for example, using the software phyparts (Smith et al., ), which has been used for conflict analyses in a number of lineages, including Pleurothallidinae (Orchidaceae; Bogarín et al., ), Portulacineae (Wang et al., ), Caryophyllales (Walker et al., ), and Metazoa (Shen et al., ). At lower taxonomic levels, network approaches might supersede tree‐based approaches due to the large extent of reticulation in such data sets.…”

Section: Aimsmentioning

confidence: 99%

An empirical assessment of a single family‐wide hybrid capture locus set at multiple evolutionary timescales in Asteraceae

et al. 2019

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2019. An empirical assessment of a single family-wide hybrid capture locus set at multiple evolutionary timescales in Asteraceae. Applications in Plant Sciences 7(10): e11295. PREMISE:Hybrid capture with high-throughput sequencing (Hyb-Seq) is a powerful tool for evolutionary studies. The applicability of an Asteraceae family-specific Hyb-Seq probe set and the outcomes of different phylogenetic analyses are investigated here. METHODS:Hyb-Seq data from 112 Asteraceae samples were organized into groups at different taxonomic levels (tribe, genus, and species). For each group, data sets of non-paralogous loci were built and proportions of parsimony informative characters estimated. The impacts of analyzing alternative data sets, removing long branches, and type of analysis on tree resolution and inferred topologies were investigated in tribe Cichorieae. RESULTS:Alignments of the Asteraceae family-wide Hyb-Seq locus set were parsimony informative at all taxonomic levels. Levels of resolution and topologies inferred at shallower nodes differed depending on the locus data set and the type of analysis, and were affected by the presence of long branches. DISCUSSION:The approach used to build a Hyb-Seq locus data set influenced resolution and topologies inferred in phylogenetic analyses. Removal of long branches improved the reliability of topological inferences in maximum likelihood analyses. The Astereaceae Hyb-Seq probe set is applicable at multiple taxonomic depths, which demonstrates that probe sets do not necessarily need to be lineage-specific.

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Section: Aimsmentioning

confidence: 99%

An empirical assessment of a single family‐wide hybrid capture locus set at multiple evolutionary timescales in Asteraceae

et al. 2019

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“…In the case of orchids, AHE did not yield loci alignments with PI values equal to 0. Therefore, they were more informative than the GBS loci sequenced here (Bogarín et al, 2018). Moreover, the AHE loci resolved intricate phylogenetic relationships with confidence in a taxonomically difficult complex of a recent linage of Lepanthes orchids.…”

Section: Gbs-loci and Its Phylogenetic Informativeness In The C Egermentioning

confidence: 87%

“…Lack of phylogenetic signal in the loci data, or rapid diversification events, arefurther thought to produce low statistical support (Bogarín et al, 2018). Low PI profiles are derived from sites evolving at rates that are either extremely fast or extremely slow (Townsend 2007).…”

Section: Gbs-loci and Its Phylogenetic Informativeness In The C Egermentioning

confidence: 99%

Resolving relationships in an exceedingly young orchid lineage using Genotyping-by-sequencing data

Escobar

Bogarín

Schley

et al. 2018

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Poor morphological and molecular differentiation in recently diversified lineages is a widespread phenomenon in plants. Phylogenetic relationships within such species complexes are often difficult to resolve because of the low variability in traditional molecular loci, as well as various other biological phenomena responsible for topological incongruence such as ILS and hybridization. In this study, we employ a Genotyping-by-sequencing (GBS) approach to disentangle evolutionary relationships within a species complex belonging to the Neotropical orchid genus Cycnoches. The complex includes seven taxa distributed in Central America and the adjacent Chocó biogeographic region, nested within a clade estimated to have first diversified in the early Quaternary. Previous phylogenies inferred from a handful of loci failed to provide support for internal relationships within the complex. Our Neighbor-net and coalescent-based analyses inferred from ca. 13,000 GBS loci obtained from 31 individuals belonging to six of the seven traditionally accepted Cycnoches species provided a robustly supported network. The resulting three main clades are corroborated by morphological traits and geographical distributions. Similarly, Maximum Likelihood (ML) inferences of concatenated GBS-loci produced results comparable with those derived from coalescence and network-based methods, albeit always with poor statistical support. The low support evident in the ML phylogeny might be attributed to the abundance of uninformative GBS loci, which can account for up to 50% of the total number of loci recovered. The phylogenomic framework provided here, as well as morphological evidence and geographical patterns, suggest that the six entities previously thought to be different species might actually represent only three distinct segregates. Our study is the first to demonstrate the utility of GBS data in phylogenomic research of a very young Neotropical plant clade (~2 Ma), and it paves the way for the study of the many other species complexes that populate the species-rich orchid family.

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“…Target enrichment is a cost-effective strategy to obtain markers for phylogenetic analysis at multiple taxonomic levels, including a set of markers for the entire flowering plants (angiosperms) (Budenhagen et al, 2016; Johnson et al, 2018). This approach has been successfully applied in several plant families (Carlsen et al, 2018; Comer et al, 2016; Herrando-Morairaa et al, 2018; Mandel et al, 2015, 2014; Moore et al, 2018) and it has proved useful to reconstruct relationships among closely related genera, within the same genus (Bogarin et al, 2018; Fragoso-Martíneza et al, 2017; Heyduk et al, 2016; Mitchell et al, 2017; Schmickl et al, 2016) and at species level (Nicholls et al, 2015; Villaverde et al, 2018). Within Leguminosae, this approach has been applied on lineages of the Papilionoideae and Caesalpinoideae (De Sousa et al, 2014; Nicholls et al, 2015; Ogutcen et al, 2018; Vatanparast et al, 2018) and our study is the first to use target enrichment outside these subfamilies using a complete sampling representing the entire extant diversity of the target group.…”

Section: Discussionmentioning

confidence: 99%

Phylogenomics within the Anthonotha clade (Detarioideae, Leguminosae) reveals a high diversity in floral trait shifts and a general trend towards organ number reduction

Ojeda¹,

Koenen²,

Cervantes³

et al. 2019

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0Detarioideae is well known for its high diversity of floral traits, including flower symmetry, number 3 1 of organs, and petal size and morphology. This diversity has been characterized and studied at higher 3 2 taxonomic levels, but limited analyses have been performed among closely related genera with 3 3 contrasting floral traits due to the lack of fully resolved phylogenetic relationships. Here, we used 3 4 four representative transcriptomes to develop an exome capture bait for the entire subfamily and 3 5 applied it to the Anthonotha clade using a complete data set (61 specimens) representing all extant 3 6 floral diversity. Our phylogenetic analyses recovered congruent topologies using ML and Bayesian 3 7 methods. The genus Anthonotha was recovered as monophyletic contrary to the remaining three 3 8 genera (Englerodendron, Isomacrolobium and Pseudomacrolobium), which form a monophyletic 3 9 group sister to Anthonotha. We inferred a total of 35 transitions for the seven floral traits (pertaining 4 0to flower symmetry, petals, stamens and staminodes) that we analyzed, suggesting that at least 30% 4 1 of the species in this group display transitions from the ancestral condition reconstructed for the 4 2 Anthonotha clade. The main transitions were towards a reduction in the number of organs (petals, 4 3 stamens and staminodes). Despite the high number of transitions, our analyses indicate that the seven 4 4 characters are evolving independently in these lineages. Petal morphology is the most labile floral 4 5 trait with a total of seven independent transitions in number and seven independent transitions to 4 6 modification in petal types. The diverse petal morphology along the dorsoventral axis of symmetry 4 7 within the flower is not associated with differences at the micromorphology of petal surface, 4 8suggesting that in this group all petals within the flower might possess the same petal identity at the 4 9 molecular level. Our results provide a solid evolutionary framework for further detailed analyses of 5 0

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Anchored hybrid enrichment generated nuclear, plastid and mitochondrial markers resolve the Lepanthes horrida (Orchidaceae: Pleurothallidinae) species complex

Cited by 45 publications

References 80 publications

An empirical assessment of a single family‐wide hybrid capture locus set at multiple evolutionary timescales in Asteraceae

An empirical assessment of a single family‐wide hybrid capture locus set at multiple evolutionary timescales in Asteraceae

Resolving relationships in an exceedingly young orchid lineage using Genotyping-by-sequencing data

Phylogenomics within the Anthonotha clade (Detarioideae, Leguminosae) reveals a high diversity in floral trait shifts and a general trend towards organ number reduction

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