The complete genome of a songbird

  1. Giulio Formenti
  2. Nivesh Jain
  3. Jack A. Medico
  4. Marco Sollitto
  5. Dmitry Antipov
  6. Suziane Barcellos
  7. Matthew Biegler
  8. Inês Borges
  9. J King Chang
  10. Ying Chen
  11. Haoyu Cheng
  12. Helena Conceição
  13. Matthew Davenport
  14. Lorraine De Oliveira
  15. Erick Duarte
  16. Gillian Durham
  17. Jonathan Fenn
  18. Niamh Forde
  19. Pedro A. Galante
  20. Kenji Gerhardt
  21. Alice M. Giani
  22. Simona Giunta
  23. Juhyun Kim
  24. Aleksey Komissarov
  25. Bonhwang Koo
  26. Sergey Koren
  27. Denis Larkin
  28. Chul Lee
  29. Heng Li
  30. Kateryna Makova
  31. Patrick Masterson
  32. Terence Murphy
  33. Kirsty McCaffrey
  34. Rafael L.V. Mercuri
  35. Yeojung Na
  36. Mary J. O’Connell
  37. Shujun Ou
  38. Adam Phillippy
  39. Marina Popova
  40. Arang Rhie
  41. Francisco J. Ruiz-Ruano
  42. Simona Secomandi
  43. Linnéa Smeds
  44. Alexander Suh
  45. Tatiana Tilley
  46. Niki Vontzou
  47. Paul D. Waters
  48. Jennifer Balacco
  49. Erich D. Jarvis
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Abstract

Bird genomes are the smallest among amniotes, but remain challenging to assemble due to their structural complexity. This study presents the first fully phased, diploid, telomere-to-telomere (T2T) reference genome for the zebra finch (Taeniopygia guttata), a model organism for neuroscience and evolutionary genomics. Combining multiple sequencing strategies resulted in closing nearly all gaps, adding ∼90 Mbp of previously missing sequence (7.8%). This includes T2T assemblies for all microchromosomes, including dot chromosomes, and the previously almost entirely missing chr16. The T2T genome is comprehensively annotated for genes, repeats, structural variants, and long-read methylation calls. Complete centromeric structures were assembled and annotated along with kinetochore binding sites. Relative to the previous high-quality reference of the Vertebrate Genomes Project, 2,778 (8.51%) previously unassembled or unannotated genes were identified, of which 9% overlap with segmental duplications. This first complete genome of a songbird, now the new public reference, illuminates avian genome architecture and function.

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