Add to ORKGAbstract Gibbons (Hylobatidae) shared a common ancestor with the other hominoids only 15-18 million years ago. Nevertheless, gibbons show very distinctive features that include heavily rearranged chromosomes. Previous observations indicate that this phenomenon may be linked to the attenuated epigenetic repression of transposable elements (TEs) in gibbon species. Here we describe the massive expansion of a repeat in almost all the centromeres of the eastern hoolock gibbon (Hoolock leuconedys). We discovered that this repeat is a new composite TE originating from the combination of portions of three other elements (L1ME5, AluSz6, and SVA_A) and thus named it LAVA. We determined that this repeat is found in all the gibbons but does not occur i...
Gibbons are the most speciose family of living apes, characterized by a strikingly diverse chromosom...
The gibbon karyotype is known to be extensively rearranged when compared to the human and to the anc...
Gibbons have experienced extensive karyotype rearrangements during evolution and represent an ideal ...
Gibbons (Hylobatidae) shared a common ancestor with the other hominoids only 15-18 million years ago...
Gibbons are small arboreal apes that display an accelerated rate of evolutionary chromosomal rearran...
Co-option of transposable elements (TEs) to become part of existing or new enhancers is an important...
Transposable elements (TEs) can shape gene regulation networks by being co-opted as enhancers. Howev...
Gibbon species have accumulated an unusually high number of chromosomal changes since diverging from...
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype ...
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype ...
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype ...
In this study we characterized the extension, reciprocal arrangement, and orientation of syntenic ch...
Chromosome rearrangements in small apes are up to 20 times more frequent than in most mammals. Becau...
The gibbon genome exhibits extensive karyotypic diversity with an increased rate of chromosomal rear...
Gibbons are the most speciose family of living apes, characterized by a strikingly diverse chromosom...
The gibbon karyotype is known to be extensively rearranged when compared to the human and to the anc...
Gibbons have experienced extensive karyotype rearrangements during evolution and represent an ideal ...
Gibbons (Hylobatidae) shared a common ancestor with the other hominoids only 15-18 million years ago...
Gibbons are small arboreal apes that display an accelerated rate of evolutionary chromosomal rearran...
Co-option of transposable elements (TEs) to become part of existing or new enhancers is an important...
Transposable elements (TEs) can shape gene regulation networks by being co-opted as enhancers. Howev...
Gibbon species have accumulated an unusually high number of chromosomal changes since diverging from...
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype ...
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype ...
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype ...
In this study we characterized the extension, reciprocal arrangement, and orientation of syntenic ch...
Chromosome rearrangements in small apes are up to 20 times more frequent than in most mammals. Becau...
The gibbon genome exhibits extensive karyotypic diversity with an increased rate of chromosomal rear...
Gibbons are the most speciose family of living apes, characterized by a strikingly diverse chromosom...
The gibbon karyotype is known to be extensively rearranged when compared to the human and to the anc...
Gibbons have experienced extensive karyotype rearrangements during evolution and represent an ideal ...