Please use this identifier to cite or link to this item: https://openscience.ub.uni-mainz.de/handle/20.500.12030/4969
Authors: Mauer, Katharina
Hellmann, Sören Lukas
Groth, Marco
Fröbius, Andreas C.
Zischler, Hans
Hankeln, Thomas
Herlyn, Holger
Title: The genome, transcriptome, and proteome of the fish parasite Pomphorhynchus laevis (Acanthocephala)
Online publishing date: 13-Jul-2020
Language : english
Abstract: Thorny-headed worms (Acanthocephala) are endoparasites exploiting Mandibulata (Arthropoda) and Gnathostomata (Vertebrata). Despite their world-wide occurrence and economic relevance as a pest, genome and transcriptome assemblies have not been published before. However, such data might hold clues for a sustainable control of acanthocephalans in animal production. For this reason, we present the first draft of an acanthocephalan nuclear genome, besides the mitochondrial one, using the fish parasite Pomphorhynchus laevis (Palaeacanthocephala) as a model. Additionally, we have assembled and annotated the transcriptome of this species and the proteins encoded. A hybrid assembly of long and short reads resulted in a near-complete P. laevis draft genome of ca. 260 Mb, comprising a large repetitive portion of ca. 63%. Numbers of transcripts and translated proteins (35,683) were within the range of other members of the Rotifera-Acanthocephala clade. Our data additionally demonstrate a significant reorganization of the acanthocephalan gene repertoire. Thus, more than 20% of the usually conserved metazoan genes were lacking in P. laevis. Ontology analysis of the retained genes revealed many connections to the incorporation of carotinoids. These are probably taken up via the surface together with lipids, thus accounting for the orange coloration of P. laevis. Furthermore, we found transcripts and protein sequences to be more derived in P. laevis than in rotifers from Monogononta and Bdelloidea. This was especially the case in genes involved in energy metabolism, which might reflect the acanthocephalan ability to use the scarce oxygen in the host intestine for respiration and simultaneously carry out fermentation. Increased plasticity of the gene repertoire through the integration of foreign DNA into the nuclear genome seems to be another underpinning factor of the evolutionary success of acanthocephalans. In any case, energy-related genes and their proteins may be considered as candidate targets for the acanthocephalan control.
DDC: 570 Biowissenschaften
570 Life sciences
Institution: Johannes Gutenberg-Universität Mainz
Department: FB 10 Biologie
Place: Mainz
Version: Published version
Publication type: Zeitschriftenaufsatz
License: Attribution 4.0 International
Information on rights of use: http://creativecommons.org/licenses/by/4.0/
Journal: PLOS ONE
15
6
Pages or article number: e0232973
Publisher: PLOS
Publisher Place: San Francisco, California, US
Year of publication: 2020
ISSN: 1932-6203
Publisher's URL : https://doi.org/10.1371/journal.pone.0232973
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