A Recent Evolutionary Change Affects a Regulatory Element in the Human FOXP2 
Gene.

Maricic, Tomislav; Günther, Viola; Georgiev, Oleg; Gehre, Sabine; Curlin, Marija; Schreiweis, Christiane; Naumann, Ronald; Burbano, Hernán A; Meyer, Matthias; Lalueza-Fox, Carles; Rasilla, Marco de la; Rosas, Antonio; Gajovic, Srecko; Kelso, Janet; Enard, Wolfgang; Schaffner, Walter; Pääbo, Svante

アイテム詳細

登録内容を編集ファイル形式で保存

一時保存へ追加

タグ情報を表示リリース履歴を表示詳細要約

公開

学術論文

A Recent Evolutionary Change Affects a Regulatory Element in the Human FOXP2 Gene.

MPS-Authors

Gehre, Sabine
Max Planck Society;

/persons/resource/persons219480

Naumann, Ronald
Max Planck Institute of Molecular Cell Biology and Genetics, Max Planck Society;

External Resource

There are no locators available

Fulltext (restricted access)

There are currently no full texts shared for your IP range.

フルテキスト (公開)

公開されているフルテキストはありません

付随資料 (公開)

There is no public supplementary material available

引用

Maricic, T., Günther, V., Georgiev, O., Gehre, S., Curlin, M., Schreiweis, C., Naumann, R., Burbano, H. A., Meyer, M., Lalueza-Fox, C., Rasilla, M. d. l., Rosas, A., Gajovic, S., Kelso, J., Enard, W., Schaffner, W., & Pääbo, S. (2013). A Recent Evolutionary Change Affects a Regulatory Element in the Human FOXP2 Gene. Molecular Biology and Evolution, 30(4), 844-852.

引用: https://hdl.handle.net/21.11116/0000-0001-068A-D

要旨

The FOXP2 gene is required for normal development of speech and language. By isolating and sequencing FOXP2 genomic DNA fragments from a 49,000-year-old Iberian Neandertal and 50 present-day humans, we have identified substitutions in the gene shared by all or nearly all present-day humans but absent or polymorphic in Neandertals. One such substitution is localized in intron 8 and affects a binding site for the transcription factor POU3F2, which is highly conserved among vertebrates. We find that the derived allele of this site is less efficient than the ancestral allele in activating transcription from a reporter construct. The derived allele also binds less POU3F2 dimers than POU3F2 monomers compared with the ancestral allele. Because the substitution in the POU3F2 binding site is likely to alter the regulation of FOXP2 expression, and because it is localized in a region of the gene associated with a previously described signal of positive selection, it is a plausible candidate for having caused a recent selective sweep in the FOXP2 gene.