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Full-Text Articles in Medicine and Health Sciences
A Supermatrix Analysis Of Genomic, Morphological, And Paleontological Data From Crown Cetacea, Jonathan H. Geisler, Michael R. Mcgowen, Guang Yang, John Gatesy
A Supermatrix Analysis Of Genomic, Morphological, And Paleontological Data From Crown Cetacea, Jonathan H. Geisler, Michael R. Mcgowen, Guang Yang, John Gatesy
Wayne State University Associated BioMed Central Scholarship
Abstract
Background
Cetacea (dolphins, porpoises, and whales) is a clade of aquatic species that includes the most massive, deepest diving, and largest brained mammals. Understanding the temporal pattern of diversification in the group as well as the evolution of cetacean anatomy and behavior requires a robust and well-resolved phylogenetic hypothesis. Although a large body of molecular data has accumulated over the past 20 years, DNA sequences of cetaceans have not been directly integrated with the rich, cetacean fossil record to reconcile discrepancies among molecular and morphological characters.
Results
We combined new nuclear DNA sequences, including segments of six genes (~2800 …
Phylogeny And Adaptive Evolution Of The Brain-Development Gene Microcephalin (Mcph1) In Cetaceans, Michael R. Mcgowen, Stephen H. Montgomery, Clay Clark, John Gatesy
Phylogeny And Adaptive Evolution Of The Brain-Development Gene Microcephalin (Mcph1) In Cetaceans, Michael R. Mcgowen, Stephen H. Montgomery, Clay Clark, John Gatesy
Wayne State University Associated BioMed Central Scholarship
Abstract
Background
Representatives of Cetacea have the greatest absolute brain size among animals, and the largest relative brain size aside from humans. Despite this, genes implicated in the evolution of large brain size in primates have yet to be surveyed in cetaceans.
Results
We sequenced ~1240 basepairs of the brain development gene microcephalin (MCPH1) in 38 cetacean species. Alignments of these data and a published complete sequence from Tursiops truncatus with primate MCPH1 were utilized in phylogenetic analyses and to estimate ω (rate of nonsynonymous substitution/rate of synonymous substitution) using site and branch models of molecular evolution. We also tested …