BMC Genomics (May 2009)

DDX11L: a novel transcript family emerging from human subtelomeric regions

  • D'Urso Michele,
  • Matarazzo Maria R,
  • Gianfrancesco Fernando,
  • Roberto Roberta,
  • Casamassimi Amelia,
  • Costa Valerio,
  • D'Esposito Maurizio,
  • Rocchi Mariano,
  • Ciccodicola Alfredo

DOI
https://doi.org/10.1186/1471-2164-10-250
Journal volume & issue
Vol. 10, no. 1
p. 250

Abstract

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Abstract Background The subtelomeric regions of human chromosomes exhibit an extraordinary plasticity. To date, due to the high GC content and to the presence of telomeric repeats, the subtelomeric sequences are underrepresented in the genomic libraries and consequently their sequences are incomplete in the finished human genome sequence, and still much remains to be learned about subtelomere organization, evolution and function. Indeed, only in recent years, several studies have disclosed, within human subtelomeres, novel gene family members. Results During a project aimed to analyze genes located in the telomeric region of the long arm of the human X chromosome, we have identified a novel transcript family, DDX11L, members of which map to 1pter, 2q13/14.1, 2qter, 3qter, 6pter, 9pter/9qter, 11pter, 12pter, 15qter, 16pter, 17pter, 19pter, 20pter/20qter, Xpter/Xqter and Yqter. Furthermore, we partially sequenced the underrepresented subtelomeres of human chromosomes showing a common evolutionary origin. Conclusion Our data indicate that an ancestral gene, originated as a rearranged portion of the primate DDX11 gene, and propagated along many subtelomeric locations, is emerging within subtelomeres of human chromosomes, defining a novel gene family. These findings support the possibility that the high plasticity of these regions, sites of DNA exchange among different chromosomes, could trigger the emergence of new genes.