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College of Arts and Sciences

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Michael Shamblott

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The study of genes offers a crucial understanding in the evolution of species and the many abilities an organism may have, including language. The FOXP2 gene encodes for the protein forkhead box P2, a transcription factor that is active in the development of speech and language during embryogenesis. Several single-nucleotide polymorphisms of this gene in humans have been linked to the speech and language disorder, childhood apraxia of speech, further supporting the gene’s role in human speech and language. The FOXP2 gene is highly conserved across vertebrates, even in species with limited vocalizations. This is particularly true among humans, chimpanzees, and other primates. In a pairwise global amino acid alignment of the human FOXP2 amino acid sequence and the chimpanzee FOXP2 amino acid sequence, only three key differences are found to differ between the two. These changes are suggested to be a factor in the genetic development of speech in humans. In addition, a global alignment of the FOXP2 gene in humans, chimpanzees, bonobos, gorillas, orangutans, and mice shows the conservation of the gene in primates and mice. The evolutionary conservation in FOXP2 highlights its vital role in the language, speech, and vocalizations across vertebrate species, while offering insight into the development of speech and language in humans.

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Evolutionary Conservation and the Role of FOXP2 in Human Speech and Language Development

The study of genes offers a crucial understanding in the evolution of species and the many abilities an organism may have, including language. The FOXP2 gene encodes for the protein forkhead box P2, a transcription factor that is active in the development of speech and language during embryogenesis. Several single-nucleotide polymorphisms of this gene in humans have been linked to the speech and language disorder, childhood apraxia of speech, further supporting the gene’s role in human speech and language. The FOXP2 gene is highly conserved across vertebrates, even in species with limited vocalizations. This is particularly true among humans, chimpanzees, and other primates. In a pairwise global amino acid alignment of the human FOXP2 amino acid sequence and the chimpanzee FOXP2 amino acid sequence, only three key differences are found to differ between the two. These changes are suggested to be a factor in the genetic development of speech in humans. In addition, a global alignment of the FOXP2 gene in humans, chimpanzees, bonobos, gorillas, orangutans, and mice shows the conservation of the gene in primates and mice. The evolutionary conservation in FOXP2 highlights its vital role in the language, speech, and vocalizations across vertebrate species, while offering insight into the development of speech and language in humans.