Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)

Cetaceans are remarkable among mammals for their numerous adaptations to an aquatic existence, yet many aspects of their phylogeny and molecular evolution remain unresolved. Olfactory receptor (OR) subgenomes of eight cetacean species from four families were sequenced and a multigene tree constructe...

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Bibliographic Details
Main Author: McGowen, Michael
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: eScholarship, University of California 2010
Subjects:
Systematic biology
cetacean
Delphinidae
dolphin
Evolution
microcephalin
olfactory
baleen whales
Online Access:http://www.escholarship.org/uc/item/6qv2v28s
http://n2t.net/ark:/13030/m59k4c20
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spelling ftcdlib:qt6qv2v28s 2023-05-15T15:37:16+02:00 Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae) McGowen, Michael 214 2010-01-01 application/pdf http://www.escholarship.org/uc/item/6qv2v28s http://n2t.net/ark:/13030/m59k4c20 en eng eScholarship, University of California http://www.escholarship.org/uc/item/6qv2v28s qt6qv2v28s http://n2t.net/ark:/13030/m59k4c20 public McGowen, Michael. (2010). Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae). UC Riverside: Evolution, Ecology and Organismal Biology. Retrieved from: http://www.escholarship.org/uc/item/6qv2v28s Systematic biology cetacean Delphinidae dolphin Evolution microcephalin olfactory dissertation 2010 ftcdlib 2016-04-02T18:47:32Z Cetaceans are remarkable among mammals for their numerous adaptations to an aquatic existence, yet many aspects of their phylogeny and molecular evolution remain unresolved. Olfactory receptor (OR) subgenomes of eight cetacean species from four families were sequenced and a multigene tree constructed. Phylogenetic analyses of OR pseudogenes using both gene-tree reconciliation and supermatrix methods yielded resolved, consistently-supported relationships among members of four delphinid subfamilies. Novel DNA sequence data for six nuclear loci and three mitochondrial genes provided an independent test of OR trees. Nucleotide substitutions and indels in OR pseudogenes showed a very low degree of homoplasy in comparison to mitochondrial DNA and, on average, provided more variation than single-copy nuclear DNA. I also merged 37 new sequences from RAG1 and PRM1 with most published molecular data for Cetacea and generated a supermatrix consisting of 42,335 characters. The great majority of these data have never been combined. Model-based analyses of the supermatrix produced a consistent phylogenetic hypothesis for 87 cetacean species. Bayesian analyses corroborated odontocete monophyly, stabilized basal odontocete relationships, and completely resolved branching events within Mysticeti and Delphinidae. The brain development gene microcephalin (MCPH1) was sequenced in 38 cetacean species. Alignments of these data and a published complete sequence from the common bottlenose dolphin with primate MCPH1 were utilized in phylogenetic analyses and to reconstruct patterns of selection intensity using site, branch, and clade models of molecular evolution. I found evidence for positive selection on the lineage leading to Tursiops and a parallel trend of adaptive molecular evolution in hominid primates. However, the strongest signal of positive selection was identified in the hypervariable exon 8 region of MCPH1 from baleen whales. Finally, I combined existing and newly generated sequences from four mitochondrial (mt) genes and 20 nuclear (nu) genes to reconstruct a well supported phylogenetic hypothesis for Delphinidae. This study compared multiple concatenated methods with Bayesian concordance analysis (BCA). Despite finding discordance between mtDNA and individual nuDNA loci, the concatenated matrix recovered a completely resolved and robustly supported phylogeny that was also broadly congruent with BCA trees. Doctoral or Postdoctoral Thesis baleen whales University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language English
topic Systematic biology
cetacean
Delphinidae
dolphin
Evolution
microcephalin
olfactory
spellingShingle Systematic biology
cetacean
Delphinidae
dolphin
Evolution
microcephalin
olfactory
McGowen, Michael
Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)
topic_facet Systematic biology
cetacean
Delphinidae
dolphin
Evolution
microcephalin
olfactory
description Cetaceans are remarkable among mammals for their numerous adaptations to an aquatic existence, yet many aspects of their phylogeny and molecular evolution remain unresolved. Olfactory receptor (OR) subgenomes of eight cetacean species from four families were sequenced and a multigene tree constructed. Phylogenetic analyses of OR pseudogenes using both gene-tree reconciliation and supermatrix methods yielded resolved, consistently-supported relationships among members of four delphinid subfamilies. Novel DNA sequence data for six nuclear loci and three mitochondrial genes provided an independent test of OR trees. Nucleotide substitutions and indels in OR pseudogenes showed a very low degree of homoplasy in comparison to mitochondrial DNA and, on average, provided more variation than single-copy nuclear DNA. I also merged 37 new sequences from RAG1 and PRM1 with most published molecular data for Cetacea and generated a supermatrix consisting of 42,335 characters. The great majority of these data have never been combined. Model-based analyses of the supermatrix produced a consistent phylogenetic hypothesis for 87 cetacean species. Bayesian analyses corroborated odontocete monophyly, stabilized basal odontocete relationships, and completely resolved branching events within Mysticeti and Delphinidae. The brain development gene microcephalin (MCPH1) was sequenced in 38 cetacean species. Alignments of these data and a published complete sequence from the common bottlenose dolphin with primate MCPH1 were utilized in phylogenetic analyses and to reconstruct patterns of selection intensity using site, branch, and clade models of molecular evolution. I found evidence for positive selection on the lineage leading to Tursiops and a parallel trend of adaptive molecular evolution in hominid primates. However, the strongest signal of positive selection was identified in the hypervariable exon 8 region of MCPH1 from baleen whales. Finally, I combined existing and newly generated sequences from four mitochondrial (mt) genes and 20 nuclear (nu) genes to reconstruct a well supported phylogenetic hypothesis for Delphinidae. This study compared multiple concatenated methods with Bayesian concordance analysis (BCA). Despite finding discordance between mtDNA and individual nuDNA loci, the concatenated matrix recovered a completely resolved and robustly supported phylogeny that was also broadly congruent with BCA trees.
format Doctoral or Postdoctoral Thesis
author McGowen, Michael
author_facet McGowen, Michael
author_sort McGowen, Michael
title Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)
title_short Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)
title_full Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)
title_fullStr Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)
title_full_unstemmed Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae)
title_sort phylogenetics and molecular evolution of cetaceans with emphasis on the rapid radiation of oceanic dolphins (delphinidae)
publisher eScholarship, University of California
publishDate 2010
url http://www.escholarship.org/uc/item/6qv2v28s
http://n2t.net/ark:/13030/m59k4c20
op_coverage 214
genre baleen whales
genre_facet baleen whales
op_source McGowen, Michael. (2010). Phylogenetics and Molecular Evolution of Cetaceans with Emphasis on the Rapid Radiation of Oceanic Dolphins (Delphinidae). UC Riverside: Evolution, Ecology and Organismal Biology. Retrieved from: http://www.escholarship.org/uc/item/6qv2v28s
op_relation http://www.escholarship.org/uc/item/6qv2v28s
qt6qv2v28s
http://n2t.net/ark:/13030/m59k4c20
op_rights public
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