# Brooding Phylogenomics: Target‐Capture Probe Sets for the Analysis of Ultraconserved Elements in the Peracarida

**Authors:** Andrew G. Cannizzaro, David J. Berg

PMC · DOI: 10.1111/1755-0998.70078 · 2025-11-10

## TL;DR

This paper introduces new DNA probe sets for studying the evolutionary relationships of crustaceans in the Peracarida group using ultraconserved elements.

## Contribution

The paper presents novel, generalized target-capture probe sets for phylogenomics of Peracarida crustaceans.

## Key findings

- In silico analysis recovered up to 5087 loci, with 4633 retained post-filtering.
- In vitro analysis extracted up to 4864 unique loci, a tenfold increase over previous methods.
- Phylogenetic trees from the data were well-supported and resolved both shallow and deep taxonomic levels.

## Abstract

Sequencing via target capture has been used to great effect in phylogenetic studies of organisms such as insects, arachnids and vertebrates. However, other taxa have received limited genomic attention despite their diversity and the intensity of research on such groups. Here, we describe generalised probe sets targeting ultraconserved elements (UCEs) for members of the crustacean orders Amphipoda and Isopoda in the superorder Peracarida. These sets employ ~10,000–100,000 probes targeting up to 10,000 loci. In silico analyses of these probe sets recovered an average of 5087 loci, while an average of 4633 was retained post‐filtering. Phylogenetic analysis of these datasets resulted in well‐supported trees that align with previously reconstructed relationships among the taxa selected while also providing resolution of previously uncertain nodes. Following the in silico analysis, an in vitro analysis targeting several amphipod and isopod families was conducted. This analysis extracted up to 4864 unique loci from the taxa sequenced, with an average of 1897 loci among all taxa. This represents an order‐of‐magnitude increase versus previously published sets, which were only able to recover < 250 UCEs among peracarid taxa. Phylogenetic analyses of the data generated in vitro resulted in well‐supported trees that were resolved at both shallow and deep taxonomic levels. Both analyses demonstrate the utility of these probe sets for phylogenomic research within the Peracarida. Additional attention to members of the superorder using target enrichment will doubtlessly assist in resolving poorly understood aspects of their evolutionary history and expand current knowledge of this group.

## Linked entities

- **Species:** Amphipoda (taxon 6821), Isopoda (taxon 29979), Peracarida (taxon 6820)

## Full-text entities

- **Chemicals:** agarose (MESH:D012685), Silico (-)
- **Species:** Idotea baltica (species) [taxon 82763], Parhyale hawaiensis (species) [taxon 317513], Hyalella (genus) [taxon 199487], Crustacea [taxon 6657], Trachelipus rathkii (species) [taxon 1720764], Diplocheta (no rank) [taxon 526414], Ligia exotica (species) [taxon 142080], Crinocheta (no rank) [taxon 526418], Talitroidea (superfamily) [taxon 199476], Isopoda (isopods, order) [taxon 29979], Trinorchestia longiramus (species) [taxon 1923959], Thermosphaeroma subequalum (species) [taxon 1814199], Armadillidium nasatum (species) [taxon 96803], Palaemon carinicauda (species) [taxon 392227]

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12627908/full.md

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Source: https://tomesphere.com/paper/PMC12627908