Saved in:
Bibliographic Details
Main Authors: Paz-Sedano, Sofía, Valdés, Ángel, Stout, Carla C, Feliciano, Kendall, Muro, Sandra, Wilson, Nerida G, Layton, Kara K S, Goodheart, Jessica A
Format: Artículo científico
Language:en
Published: Molecular phylogenetics and evolution 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/42013961/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266059474141185
author Paz-Sedano, Sofía
Valdés, Ángel
Stout, Carla C
Feliciano, Kendall
Muro, Sandra
Wilson, Nerida G
Layton, Kara K S
Goodheart, Jessica A
author_facet Paz-Sedano, Sofía
Valdés, Ángel
Stout, Carla C
Feliciano, Kendall
Muro, Sandra
Wilson, Nerida G
Layton, Kara K S
Goodheart, Jessica A
Paz-Sedano, Sofía
Valdés, Ángel
Stout, Carla C
Feliciano, Kendall
Muro, Sandra
Wilson, Nerida G
Layton, Kara K S
Goodheart, Jessica A
collection PubMed - marine biology
contents Limits of exon capture efficiency for phylogenomics using nudibranch gastropods (Mollusca: Heterobranchia) as a case study. Paz-Sedano, Sofía Valdés, Ángel Stout, Carla C Feliciano, Kendall Muro, Sandra Wilson, Nerida G Layton, Kara K S Goodheart, Jessica A Animals Phylogeny Exons Gastropoda Sequence Analysis, DNA Genomics Evolution, Molecular Target capture is an effective tool for phylogenomic reconstruction of evolutionary histories. This sequencing methodology is cost-effective and allows the use of older or poorly preserved specimens. One important consideration while applying target capture is the rate of divergence of the group under study. The success of this approach depends on the distance of the bait set with the target taxon, affecting the sequencing efficiency and the ability to extract the target loci. However, the threshold distance at which the efficiency decreases is still unclear, varying between studies and taxonomic groups. In nudibranch mollusks, an exon capture bait set was designed for the suborder Doridina. However, the usefulness of this bait set in other clades has not been explored. We investigate the efficiency and taxonomic limits of target capture sequencing in evolutionarily distant taxa, testing the capacity of inferring the evolutionary relationships throughout the order Nudibranchia. Seventy-nine species across two diverse suborders and 12 superfamilies were sequenced using an exon capture bait set designed for Doridina. Although species of the suborder Cladobranchia were successfully sequenced, a decrease in the number of captured genes is observed, showing that the capture efficiency significantly decreases after a threshold bait-to-target DNA distance of 18%. Even so, the results obtained from phylogenetic analyses shed light on relationships among nudibranch taxa, addressing questions that have remained controversial due to the lack of support in previous analyses, such as the position of the genus Doridoxa within Doridina, supporting Phyllidioidea as monophyletic or the paraphyletic nature of Chromodoridoidea.
format Artículo científico
id pubmed_42013961
institution PubMed
language en
publishDate 2026
publisher Molecular phylogenetics and evolution
record_format pubmed
spellingShingle Limits of exon capture efficiency for phylogenomics using nudibranch gastropods (Mollusca: Heterobranchia) as a case study.
Paz-Sedano, Sofía
Valdés, Ángel
Stout, Carla C
Feliciano, Kendall
Muro, Sandra
Wilson, Nerida G
Layton, Kara K S
Goodheart, Jessica A
Animals
Phylogeny
Exons
Gastropoda
Sequence Analysis, DNA
Genomics
Evolution, Molecular
Limits of exon capture efficiency for phylogenomics using nudibranch gastropods (Mollusca: Heterobranchia) as a case study. Paz-Sedano, Sofía Valdés, Ángel Stout, Carla C Feliciano, Kendall Muro, Sandra Wilson, Nerida G Layton, Kara K S Goodheart, Jessica A Animals Phylogeny Exons Gastropoda Sequence Analysis, DNA Genomics Evolution, Molecular Target capture is an effective tool for phylogenomic reconstruction of evolutionary histories. This sequencing methodology is cost-effective and allows the use of older or poorly preserved specimens. One important consideration while applying target capture is the rate of divergence of the group under study. The success of this approach depends on the distance of the bait set with the target taxon, affecting the sequencing efficiency and the ability to extract the target loci. However, the threshold distance at which the efficiency decreases is still unclear, varying between studies and taxonomic groups. In nudibranch mollusks, an exon capture bait set was designed for the suborder Doridina. However, the usefulness of this bait set in other clades has not been explored. We investigate the efficiency and taxonomic limits of target capture sequencing in evolutionarily distant taxa, testing the capacity of inferring the evolutionary relationships throughout the order Nudibranchia. Seventy-nine species across two diverse suborders and 12 superfamilies were sequenced using an exon capture bait set designed for Doridina. Although species of the suborder Cladobranchia were successfully sequenced, a decrease in the number of captured genes is observed, showing that the capture efficiency significantly decreases after a threshold bait-to-target DNA distance of 18%. Even so, the results obtained from phylogenetic analyses shed light on relationships among nudibranch taxa, addressing questions that have remained controversial due to the lack of support in previous analyses, such as the position of the genus Doridoxa within Doridina, supporting Phyllidioidea as monophyletic or the paraphyletic nature of Chromodoridoidea.
title Limits of exon capture efficiency for phylogenomics using nudibranch gastropods (Mollusca: Heterobranchia) as a case study.
topic Animals
Phylogeny
Exons
Gastropoda
Sequence Analysis, DNA
Genomics
Evolution, Molecular
url https://pubmed.ncbi.nlm.nih.gov/42013961/