Inheritance and diversification of symbiotic trichonymphid flagellates from a common ancestor of termites and the cockroach Cryptocercus

Cryptocercus cockroaches and lower termites harbour obligate, diverse and unique symbiotic cellulolytic flagellates in their hindgut that are considered critical in the development of social behaviour in their hosts. However, there has been controversy concerning the origin of these symbiotic flagel...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2009-01, Vol.276 (1655), p.239-245
Hauptverfasser:	Ohkuma, Moriya, Noda, Satoko, Hongoh, Yuichi, Nalepa, Christine A, Inoue, Tetsushi
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological taxonomies Cockroaches Cockroaches - parasitology Cryptocercus Cryptocercus punctulatus Evolution Evolution Of Social Behaviour Genera Genetic Markers Isoptera Isoptera - parasitology Parabasalia Phylogenetics Phylogeny RNA, Ribosomal - chemistry rRNA genes Species Specificity Symbiont Diversification Symbionts Symbiosis Termite Termites
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container_title	Proceedings of the Royal Society. B, Biological sciences
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creator	Ohkuma, Moriya Noda, Satoko Hongoh, Yuichi Nalepa, Christine A Inoue, Tetsushi
description	Cryptocercus cockroaches and lower termites harbour obligate, diverse and unique symbiotic cellulolytic flagellates in their hindgut that are considered critical in the development of social behaviour in their hosts. However, there has been controversy concerning the origin of these symbiotic flagellates. Here, molecular sequences encoding small subunit rRNA and glyceraldehyde-3-phosphate dehydrogenase were identified in the symbiotic flagellates of the order Trichonymphida (phylum Parabasalia) in the gut of Cryptocercus punctulatus and compared phylogenetically to the corresponding species in termites. In each of the monophyletic lineages that represent family-level groups in Trichonymphida, the symbionts of Cryptocercus were robustly sister to those of termites. Together with the recent evidence for the sister-group relationship of the host insects, this first comprehensive study comparing symbiont molecular phylogeny strongly suggests that a set of symbiotic flagellates representative of extant diversity was already established in an ancestor common to Cryptocercus and termites, was vertically transmitted to their offspring, and subsequently became diversified to distinct levels, depending on both the host and the symbiont lineages.
doi_str_mv	10.1098/rspb.2008.1094
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B, Biological sciences</title><addtitle>PROC R SOC B</addtitle><description>Cryptocercus cockroaches and lower termites harbour obligate, diverse and unique symbiotic cellulolytic flagellates in their hindgut that are considered critical in the development of social behaviour in their hosts. However, there has been controversy concerning the origin of these symbiotic flagellates. Here, molecular sequences encoding small subunit rRNA and glyceraldehyde-3-phosphate dehydrogenase were identified in the symbiotic flagellates of the order Trichonymphida (phylum Parabasalia) in the gut of Cryptocercus punctulatus and compared phylogenetically to the corresponding species in termites. In each of the monophyletic lineages that represent family-level groups in Trichonymphida, the symbionts of Cryptocercus were robustly sister to those of termites. 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subjects	Animals Biological taxonomies Cockroaches Cockroaches - parasitology Cryptocercus Cryptocercus punctulatus Evolution Evolution Of Social Behaviour Genera Genetic Markers Isoptera Isoptera - parasitology Parabasalia Phylogenetics Phylogeny RNA, Ribosomal - chemistry rRNA genes Species Specificity Symbiont Diversification Symbionts Symbiosis Termite Termites
title	Inheritance and diversification of symbiotic trichonymphid flagellates from a common ancestor of termites and the cockroach Cryptocercus
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