Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny

Phylogenetic analyses of closely related species should use information from multiple, independent genes with relatively high rates of sequence evolution. To investigate species for which there are few prior sequence data for single-copy nuclear (scnDNA) genes, primers for gene amplification can be...

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Published in:Molecular Biology and Evolution
Main Authors: Slade, R W, Moritz, C, Heideman, A
Format: Article in Journal/Newspaper
Language:unknown
Published: 1994
Subjects:
Psi
Elephant Seal
Southern Elephant Seal
Online Access:https://espace.library.uq.edu.au/view/UQ:698520
id ftunivqespace:oai:espace.library.uq.edu.au:UQ:698520
record_format openpolar
spelling ftunivqespace:oai:espace.library.uq.edu.au:UQ:698520 2023-05-15T16:05:17+02:00 Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny Slade, R W Moritz, C Heideman, A 1994-05-01 https://espace.library.uq.edu.au/view/UQ:698520 unknown doi:10.1093/oxfordjournals.molbev.a040117 issn:0737-4038 Journal Article 1994 ftunivqespace https://doi.org/10.1093/oxfordjournals.molbev.a040117 2020-08-18T03:42:24Z Phylogenetic analyses of closely related species should use information from multiple, independent genes with relatively high rates of sequence evolution. To investigate species for which there are few prior sequence data for single-copy nuclear (scnDNA) genes, primers for gene amplification can be designed to highly conserved regions of exons in order to amplify both coding (exons) and noncoding (introns) sequences. We have explored this approach in a phylogenetic analysis of six species of pinnipeds that, together with terrestrial carnivore outgroups, encompass divergence times < or = 40-50 Mya. We sequenced one intron from each of the aldolase A (ALD-A), aldolase C (ALD-C), and histone H2AF genes; one exon from the major-histocompatibility-complex DQA gene; a H2AF processed pseudogene (psi H2AF); and, for comparison with the nuclear genes, the 5' portion of the mitochondrial DNA (mtDNA) control region. The pinniped psi H2AF genes were found to be of limited use because they were paralogous with the gene in the outgroup. The rate of silent substitution in scnDNA (primarily introns) was 5-10-fold lower than that for mtDNA control region I, and scnDNA sequence divergence increased linearly with time < or = 40-50 Mya. Alleles at three polymorphic scnDNA loci (ALD-A, H2AF, and DQA) in the southern elephant seal were paraphyletic with respect to the allele from the closely related northern elephant seal, while the more numerous mtDNA alleles were monophyletic. This we attribute to the consequences of a higher mutation rate rather than to a lower effective population size of mtDNA compared with scnDNA. Within the short (i.e., < 500-bp) sequences of individual scnDNA sequences, phylogenetically informative variation was insufficient to obtain robust phylogenies. However, the combined scnDNA sequences produced a well-supported phylogeny congruent with that derived from mtDNA. This analysis illustrates the high resolution of mtDNA sequences compared with a similar length of scnDNA sequence, but it also demonstrates the utility of combining information from multiple short scnDNA sequences obtained using broadly applicable primers. Article in Journal/Newspaper Elephant Seal Southern Elephant Seal The University of Queensland: UQ eSpace Psi ENVELOPE(-63.000,-63.000,-64.300,-64.300) Molecular Biology and Evolution
institution Open Polar
collection The University of Queensland: UQ eSpace
op_collection_id ftunivqespace
language unknown
description Phylogenetic analyses of closely related species should use information from multiple, independent genes with relatively high rates of sequence evolution. To investigate species for which there are few prior sequence data for single-copy nuclear (scnDNA) genes, primers for gene amplification can be designed to highly conserved regions of exons in order to amplify both coding (exons) and noncoding (introns) sequences. We have explored this approach in a phylogenetic analysis of six species of pinnipeds that, together with terrestrial carnivore outgroups, encompass divergence times < or = 40-50 Mya. We sequenced one intron from each of the aldolase A (ALD-A), aldolase C (ALD-C), and histone H2AF genes; one exon from the major-histocompatibility-complex DQA gene; a H2AF processed pseudogene (psi H2AF); and, for comparison with the nuclear genes, the 5' portion of the mitochondrial DNA (mtDNA) control region. The pinniped psi H2AF genes were found to be of limited use because they were paralogous with the gene in the outgroup. The rate of silent substitution in scnDNA (primarily introns) was 5-10-fold lower than that for mtDNA control region I, and scnDNA sequence divergence increased linearly with time < or = 40-50 Mya. Alleles at three polymorphic scnDNA loci (ALD-A, H2AF, and DQA) in the southern elephant seal were paraphyletic with respect to the allele from the closely related northern elephant seal, while the more numerous mtDNA alleles were monophyletic. This we attribute to the consequences of a higher mutation rate rather than to a lower effective population size of mtDNA compared with scnDNA. Within the short (i.e., < 500-bp) sequences of individual scnDNA sequences, phylogenetically informative variation was insufficient to obtain robust phylogenies. However, the combined scnDNA sequences produced a well-supported phylogeny congruent with that derived from mtDNA. This analysis illustrates the high resolution of mtDNA sequences compared with a similar length of scnDNA sequence, but it also demonstrates the utility of combining information from multiple short scnDNA sequences obtained using broadly applicable primers.
format Article in Journal/Newspaper
author Slade, R W
Moritz, C
Heideman, A
spellingShingle Slade, R W
Moritz, C
Heideman, A
Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny
author_facet Slade, R W
Moritz, C
Heideman, A
author_sort Slade, R W
title Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny
title_short Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny
title_full Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny
title_fullStr Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny
title_full_unstemmed Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny
title_sort multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial dna gene phylogeny
publishDate 1994
url https://espace.library.uq.edu.au/view/UQ:698520
long_lat ENVELOPE(-63.000,-63.000,-64.300,-64.300)
geographic Psi
geographic_facet Psi
genre Elephant Seal
Southern Elephant Seal
genre_facet Elephant Seal
Southern Elephant Seal
op_relation doi:10.1093/oxfordjournals.molbev.a040117
issn:0737-4038
op_doi https://doi.org/10.1093/oxfordjournals.molbev.a040117
container_title Molecular Biology and Evolution
_version_ 1766401183203721216

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