Molecular decay of the tooth gene Enamelin (ENAM) mirrors the loss of enamel in the fossil record of placental mammals

Vestigial structures occur at both the anatomical and molecular levels, but studies documenting the co-occurrence of morphological degeneration in the fossil record and molecular decay in the genome are rare. Here, we use morphology, the fossil record, and phylogenetics to predict the occurrence of...

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Veröffentlicht in:	PLoS genetics 2009-09, Vol.5 (9), p.e1000634-e1000634
Hauptverfasser:	Meredith, Robert W, Gatesy, John, Murphy, William J, Ryder, Oliver A, Springer, Mark S
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Base Sequence Dental Enamel - chemistry Dental Enamel - metabolism Dental Enamel Proteins - chemistry Dental Enamel Proteins - genetics Enamel Enamel, Dental Evolution, Molecular Evolutionary Biology Evolutionary Biology/Animal Genetics Evolutionary Biology/Evolutionary and Comparative Genetics Evolutionary Biology/Genomics Fossils Genetic aspects Genetics and Genomics/Animal Genetics Genetics and Genomics/Comparative Genomics Genomes Hydroxyapatite Hypotheses Mammals - classification Mammals - genetics Mammals - metabolism Molecular Sequence Data Mutation Phylogeny Proteins Sequence Alignment Teeth
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description	Vestigial structures occur at both the anatomical and molecular levels, but studies documenting the co-occurrence of morphological degeneration in the fossil record and molecular decay in the genome are rare. Here, we use morphology, the fossil record, and phylogenetics to predict the occurrence of "molecular fossils" of the enamelin (ENAM) gene in four different orders of placental mammals (Tubulidentata, Pholidota, Cetacea, Xenarthra) with toothless and/or enamelless taxa. Our results support the "molecular fossil" hypothesis and demonstrate the occurrence of frameshift mutations and/or stop codons in all toothless and enamelless taxa. We then use a novel method based on selection intensity estimates for codons (omega) to calculate the timing of iterated enamel loss in the fossil record of aardvarks and pangolins, and further show that the molecular evolutionary history of ENAM predicts the occurrence of enamel in basal representatives of Xenarthra (sloths, anteaters, armadillos) even though frameshift mutations are ubiquitous in ENAM sequences of living xenarthrans. The molecular decay of ENAM parallels the morphological degeneration of enamel in the fossil record of placental mammals and provides manifest evidence for the predictive power of Darwin's theory.
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subjects	Animals Base Sequence Dental Enamel - chemistry Dental Enamel - metabolism Dental Enamel Proteins - chemistry Dental Enamel Proteins - genetics Enamel Enamel, Dental Evolution, Molecular Evolutionary Biology Evolutionary Biology/Animal Genetics Evolutionary Biology/Evolutionary and Comparative Genetics Evolutionary Biology/Genomics Fossils Genetic aspects Genetics and Genomics/Animal Genetics Genetics and Genomics/Comparative Genomics Genomes Hydroxyapatite Hypotheses Mammals - classification Mammals - genetics Mammals - metabolism Molecular Sequence Data Mutation Phylogeny Proteins Sequence Alignment Teeth
title	Molecular decay of the tooth gene Enamelin (ENAM) mirrors the loss of enamel in the fossil record of placental mammals
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