Detecting and removing sample contamination in phylogenomic data: an example and its implications for Cicadidae phylogeny (Insecta Hemiptera).

Owen, Christopher L; Marshall, David C; Wade, Elizabeth J; Meister, Russ; Goemans, Geert; Kunte, Krushnamegh; Moulds, Max; Hill, Kathy; Villet, Martin H; Pham, Thai-Hong; Kortyna, Michelle; Lemmon, Emily M; Lemmon, Alan R; Simon, Chris

Title: Detecting and removing sample contamination in phylogenomic data: an example and its implications for Cicadidae phylogeny (Insecta Hemiptera).
Creator: Owen, Christopher L
Creator: Marshall, David C
Creator: Wade, Elizabeth J
Creator: Meister, Russ
Creator: Goemans, Geert
Creator: Kunte, Krushnamegh
Creator: Moulds, Max
Creator: Hill, Kathy
Creator: Villet, Martin H
Creator: Pham, Thai-Hong
Creator: Kortyna, Michelle
Creator: Lemmon, Emily M
Creator: Lemmon, Alan R
Creator: Simon, Chris
Subject: To be catalogued
Date Issued: 2022
Date: 2022
Type: text
Type: article
Identifier: http://hdl.handle.net/10962/440749
Identifier: vital:73809
Identifier: https://doi.org/10.1093/sysbio/syac043
Description: Contamination of a genetic sample with DNA from one or more nontarget species is a continuing concern of molecular phylogenetic studies, both Sanger sequencing studies and next-generation sequencing studies. We developed an automated pipeline for identifying and excluding likely cross-contaminated loci based on the detection of bimodal distributions of patristic distances across gene trees. When contamination occurs between samples within a data set, a comparison between a contaminated sample and its contaminant taxon will yield bimodal distributions with one peak close to zero patristic distance. This new method does not rely on a priori knowledge of taxon relatedness nor does it determine the causes(s) of the contamination. Exclusion of putatively contaminated loci from a data set generated for the insect family Cicadidae showed that these sequences were affecting some topological patterns and branch supports, although the effects were sometimes subtle, with some contamination-influenced relationships exhibiting strong bootstrap support. Long tip branches and outlier values for one anchored phylogenomic pipeline statistic (AvgNHomologs) were correlated with the presence of contamination.
Format: 20 pages
Format: pdf
Language: English
Relation: Systematic Biology
Relation: Owen, C.L., Marshall, D.C., Wade, E.J., Meister, R., Goemans, G., Kunte, K., Moulds, M., Hill, K., Villet, M., Pham, T.H. and Kortyna, M., 2022. Detecting and removing sample contamination in phylogenomic data: an example and its implications for Cicadidae phylogeny (Insecta: Hemiptera). Systematic Biology, 71(6), pp.1504-1523
Relation: Systematic Biology volume 71 number 6 1504 1523 2022 1076-836X
Rights: Publisher
Rights: Use of this resource is governed by the terms and conditions of the Oxford Academic Journals Open Access Policy Statement (https://academic.oup.com/journals/pages/open_access)

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Villet, Martin Herrer (Prof)

SDG 15. Life On Land

RU Department of Zoology and Entomology

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