The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites: a molecular and larval structural study

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Standard

The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites : a molecular and larval structural study. / Glenner, Henrik; Høeg, Jens Thorvald; Stenderup, Jesper; Rybakov, Alexey V.

I: Experimental Parasitology, Bind 125, Nr. 1, 05.2010, s. 3-12.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Glenner, H, Høeg, JT, Stenderup, J & Rybakov, AV 2010, 'The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites: a molecular and larval structural study', Experimental Parasitology, bind 125, nr. 1, s. 3-12. https://doi.org/10.1016/j.exppara.2009.09.019

APA

Glenner, H., Høeg, J. T., Stenderup, J., & Rybakov, A. V. (2010). The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites: a molecular and larval structural study. Experimental Parasitology, 125(1), 3-12. https://doi.org/10.1016/j.exppara.2009.09.019

Vancouver

Glenner H, Høeg JT, Stenderup J, Rybakov AV. The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites: a molecular and larval structural study. Experimental Parasitology. 2010 maj;125(1):3-12. https://doi.org/10.1016/j.exppara.2009.09.019

Author

Glenner, Henrik ; Høeg, Jens Thorvald ; Stenderup, Jesper ; Rybakov, Alexey V. / The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites : a molecular and larval structural study. I: Experimental Parasitology. 2010 ; Bind 125, Nr. 1. s. 3-12.

Bibtex

@article{2a1a88892f464301a294a03724fd0790,
title = "The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites: a molecular and larval structural study",
abstract = "We use sequences from the nuclear ribosomal genes, 18S and 28S to analyze the phylogeny of the Rhizocephala Akentrogonida including two species, Clistosaccus paguri and Chthamalophilus delagei, that are critical for understanding rhizocephalan evolution but have not previously been part of a molecularly based study. In addition we use light and scanning electron microscopy to compare the cypris larvae of C. paguri, Sylon hippolytes and two species of the family Thompsoniidae, since this larval stage offers a suite of characters for analyzing the evolution of these otherwise highly reduced parasites. The Rhizocephala Akentrogonida form a monophyletic group nested within a paraphyletic {"}Kentrogonida{"}. C. paguri and S. hippolytes are sistergroups confirming the monophyly of the Clistosaccidae that was originally based on similarities in the cypris larvae. We find numerous LM and SEM level similarities between the two species, many of which appear to be correlated with their specialized sexual system, where male cyprids use an antennule to implant cells into the virgin female parasite. Some of these traits are also found in cyprids of the thompsoniid species. We conclude that the special cypris morphology and the implantation of males by antennular penetration was present in the stem species to the Thompsoniidae and the Clistosaccidae and emphasize the power of larval characters in rhizocephalan systematics. C. delagei is a sister group to Boschmaella balani and the two are nested deep within the Akentrogonida. This confirms the monophyly of the Chthamalophilidae and falsifies the theory that C. delagei should represent the most primitive extant rhizocephalan. Instead, chthamalophilid rhizocephalans represent some of the most highly advanced members of the parasitic barnacles.",
keywords = "Animals, Bayes Theorem, DNA, Ribosomal, Female, Larva, Male, Microscopy, Electron, Scanning, Microscopy, Interference, Phylogeny, RNA, Ribosomal, 18S, RNA, Ribosomal, 28S, Sequence Alignment, Thoracica",
author = "Henrik Glenner and H{\o}eg, {Jens Thorvald} and Jesper Stenderup and Rybakov, {Alexey V.}",
note = "Copyright 2010. Published by Elsevier Inc.",
year = "2010",
month = may,
doi = "10.1016/j.exppara.2009.09.019",
language = "English",
volume = "125",
pages = "3--12",
journal = "Experimental Parasitology",
issn = "0014-4894",
publisher = "Academic Press",
number = "1",

}

RIS

TY - JOUR

T1 - The monophyletic origin of a remarkable sexual system in akentrogonid rhizocephalan parasites

T2 - a molecular and larval structural study

AU - Glenner, Henrik

AU - Høeg, Jens Thorvald

AU - Stenderup, Jesper

AU - Rybakov, Alexey V.

N1 - Copyright 2010. Published by Elsevier Inc.

PY - 2010/5

Y1 - 2010/5

N2 - We use sequences from the nuclear ribosomal genes, 18S and 28S to analyze the phylogeny of the Rhizocephala Akentrogonida including two species, Clistosaccus paguri and Chthamalophilus delagei, that are critical for understanding rhizocephalan evolution but have not previously been part of a molecularly based study. In addition we use light and scanning electron microscopy to compare the cypris larvae of C. paguri, Sylon hippolytes and two species of the family Thompsoniidae, since this larval stage offers a suite of characters for analyzing the evolution of these otherwise highly reduced parasites. The Rhizocephala Akentrogonida form a monophyletic group nested within a paraphyletic "Kentrogonida". C. paguri and S. hippolytes are sistergroups confirming the monophyly of the Clistosaccidae that was originally based on similarities in the cypris larvae. We find numerous LM and SEM level similarities between the two species, many of which appear to be correlated with their specialized sexual system, where male cyprids use an antennule to implant cells into the virgin female parasite. Some of these traits are also found in cyprids of the thompsoniid species. We conclude that the special cypris morphology and the implantation of males by antennular penetration was present in the stem species to the Thompsoniidae and the Clistosaccidae and emphasize the power of larval characters in rhizocephalan systematics. C. delagei is a sister group to Boschmaella balani and the two are nested deep within the Akentrogonida. This confirms the monophyly of the Chthamalophilidae and falsifies the theory that C. delagei should represent the most primitive extant rhizocephalan. Instead, chthamalophilid rhizocephalans represent some of the most highly advanced members of the parasitic barnacles.

AB - We use sequences from the nuclear ribosomal genes, 18S and 28S to analyze the phylogeny of the Rhizocephala Akentrogonida including two species, Clistosaccus paguri and Chthamalophilus delagei, that are critical for understanding rhizocephalan evolution but have not previously been part of a molecularly based study. In addition we use light and scanning electron microscopy to compare the cypris larvae of C. paguri, Sylon hippolytes and two species of the family Thompsoniidae, since this larval stage offers a suite of characters for analyzing the evolution of these otherwise highly reduced parasites. The Rhizocephala Akentrogonida form a monophyletic group nested within a paraphyletic "Kentrogonida". C. paguri and S. hippolytes are sistergroups confirming the monophyly of the Clistosaccidae that was originally based on similarities in the cypris larvae. We find numerous LM and SEM level similarities between the two species, many of which appear to be correlated with their specialized sexual system, where male cyprids use an antennule to implant cells into the virgin female parasite. Some of these traits are also found in cyprids of the thompsoniid species. We conclude that the special cypris morphology and the implantation of males by antennular penetration was present in the stem species to the Thompsoniidae and the Clistosaccidae and emphasize the power of larval characters in rhizocephalan systematics. C. delagei is a sister group to Boschmaella balani and the two are nested deep within the Akentrogonida. This confirms the monophyly of the Chthamalophilidae and falsifies the theory that C. delagei should represent the most primitive extant rhizocephalan. Instead, chthamalophilid rhizocephalans represent some of the most highly advanced members of the parasitic barnacles.

KW - Animals

KW - Bayes Theorem

KW - DNA, Ribosomal

KW - Female

KW - Larva

KW - Male

KW - Microscopy, Electron, Scanning

KW - Microscopy, Interference

KW - Phylogeny

KW - RNA, Ribosomal, 18S

KW - RNA, Ribosomal, 28S

KW - Sequence Alignment

KW - Thoracica

U2 - 10.1016/j.exppara.2009.09.019

DO - 10.1016/j.exppara.2009.09.019

M3 - Journal article

C2 - 19786021

VL - 125

SP - 3

EP - 12

JO - Experimental Parasitology

JF - Experimental Parasitology

SN - 0014-4894

IS - 1

ER -

ID: 33764118