Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences

The high sequence divergence within the small subunit ribosomal RNA gene (SSU rDNA) of foraminifera makes it difficult to establish the homology of individual nucleotides across taxa. Alignment-based approaches so far relied on time-consuming manual alignments and discarded up to 50% of the sequence...

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Main Authors: R. Aurahs, M. Göker, G.W. Grimm, V. Hemleben, C. Hemleben, R. Schiebel, M. Kučera
Format: Article in Journal/Newspaper
Language:English
Published: Libertas Academica 2009
Subjects:
Planktonic foraminifera
Online Access:http://okina.univ-angers.fr/publications/ua3812
id ftunivangokina:oai:okina.univ-angers.fr:3812
record_format openpolar
spelling ftunivangokina:oai:okina.univ-angers.fr:3812 2023-05-15T18:00:34+02:00 Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences R. Aurahs M. Göker G.W. Grimm V. Hemleben C. Hemleben R. Schiebel M. Kučera 2009 http://okina.univ-angers.fr/publications/ua3812 eng eng Libertas Academica Bioinformatics and biology insights Article scientifique dans une revue à comité de lecture 2009 ftunivangokina 2017-04-13T17:48:58Z The high sequence divergence within the small subunit ribosomal RNA gene (SSU rDNA) of foraminifera makes it difficult to establish the homology of individual nucleotides across taxa. Alignment-based approaches so far relied on time-consuming manual alignments and discarded up to 50% of the sequenced nucleotides prior to phylogenetic inference. Here, we investigate the potential of the multiple analysis approach to infer a molecular phylogeny of all modern planktonic foraminiferal taxa by using a matrix of 146 new and 153 previously published SSU rDNA sequences. Our multiple analysis approach is based on eleven different automated alignments, analysed separately under the maximum likelihood criterion. The high degree of congruence between the phylogenies derived from our novel approach, traditional manually homologized culled alignments and the fossil record indicates that poorly resolved nucleotide homology does not represent the most significant obstacle when exploring the phylogenetic structure of the SSU rDNA in planktonic foraminifera. We show that approaches designed to extract phylogenetically valuable signals from complete sequences show more promise to resolve the backbone of the planktonic foraminifer tree than attempts to establish strictly homologous base calls in a manual alignment. Article in Journal/Newspaper Planktonic foraminifera Université Angers: Okina (Open Knowledge, INformation, Access)
institution Open Polar
collection Université Angers: Okina (Open Knowledge, INformation, Access)
op_collection_id ftunivangokina
language English
description The high sequence divergence within the small subunit ribosomal RNA gene (SSU rDNA) of foraminifera makes it difficult to establish the homology of individual nucleotides across taxa. Alignment-based approaches so far relied on time-consuming manual alignments and discarded up to 50% of the sequenced nucleotides prior to phylogenetic inference. Here, we investigate the potential of the multiple analysis approach to infer a molecular phylogeny of all modern planktonic foraminiferal taxa by using a matrix of 146 new and 153 previously published SSU rDNA sequences. Our multiple analysis approach is based on eleven different automated alignments, analysed separately under the maximum likelihood criterion. The high degree of congruence between the phylogenies derived from our novel approach, traditional manually homologized culled alignments and the fossil record indicates that poorly resolved nucleotide homology does not represent the most significant obstacle when exploring the phylogenetic structure of the SSU rDNA in planktonic foraminifera. We show that approaches designed to extract phylogenetically valuable signals from complete sequences show more promise to resolve the backbone of the planktonic foraminifer tree than attempts to establish strictly homologous base calls in a manual alignment.
format Article in Journal/Newspaper
author R. Aurahs
M. Göker
G.W. Grimm
V. Hemleben
C. Hemleben
R. Schiebel
M. Kučera
spellingShingle R. Aurahs
M. Göker
G.W. Grimm
V. Hemleben
C. Hemleben
R. Schiebel
M. Kučera
Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences
author_facet R. Aurahs
M. Göker
G.W. Grimm
V. Hemleben
C. Hemleben
R. Schiebel
M. Kučera
author_sort R. Aurahs
title Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences
title_short Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences
title_full Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences
title_fullStr Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences
title_full_unstemmed Using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic Foraminifera from highly divergent and length-polymorphic SSU rDNA sequences
title_sort using the multiple analysis approach to reconstruct phylogenetic relationships among planktonic foraminifera from highly divergent and length-polymorphic ssu rdna sequences
publisher Libertas Academica
publishDate 2009
url http://okina.univ-angers.fr/publications/ua3812
genre Planktonic foraminifera
genre_facet Planktonic foraminifera
op_source Bioinformatics and biology insights
_version_ 1766169722262388736

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