BMC Biology (Dec 2019)

Multi-species annotation of transcriptome and chromatin structure in domesticated animals

  • Sylvain Foissac,
  • Sarah Djebali,
  • Kylie Munyard,
  • Nathalie Vialaneix,
  • Andrea Rau,
  • Kevin Muret,
  • Diane Esquerré,
  • Matthias Zytnicki,
  • Thomas Derrien,
  • Philippe Bardou,
  • Fany Blanc,
  • Cédric Cabau,
  • Elisa Crisci,
  • Sophie Dhorne-Pollet,
  • Françoise Drouet,
  • Thomas Faraut,
  • Ignacio Gonzalez,
  • Adeline Goubil,
  • Sonia Lacroix-Lamandé,
  • Fabrice Laurent,
  • Sylvain Marthey,
  • Maria Marti-Marimon,
  • Raphaelle Momal-Leisenring,
  • Florence Mompart,
  • Pascale Quéré,
  • David Robelin,
  • Magali San Cristobal,
  • Gwenola Tosser-Klopp,
  • Silvia Vincent-Naulleau,
  • Stéphane Fabre,
  • Marie-Hélène Pinard-Van der Laan,
  • Christophe Klopp,
  • Michèle Tixier-Boichard,
  • Hervé Acloque,
  • Sandrine Lagarrigue,
  • Elisabetta Giuffra

DOI
https://doi.org/10.1186/s12915-019-0726-5
Journal volume & issue
Vol. 17, no. 1
pp. 1 – 25

Abstract

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Abstract Background Comparative genomics studies are central in identifying the coding and non-coding elements associated with complex traits, and the functional annotation of genomes is a critical step to decipher the genotype-to-phenotype relationships in livestock animals. As part of the Functional Annotation of Animal Genomes (FAANG) action, the FR-AgENCODE project aimed to create reference functional maps of domesticated animals by profiling the landscape of transcription (RNA-seq), chromatin accessibility (ATAC-seq) and conformation (Hi-C) in species representing ruminants (cattle, goat), monogastrics (pig) and birds (chicken), using three target samples related to metabolism (liver) and immunity (CD4+ and CD8+ T cells). Results RNA-seq assays considerably extended the available catalog of annotated transcripts and identified differentially expressed genes with unknown function, including new syntenic lncRNAs. ATAC-seq highlighted an enrichment for transcription factor binding sites in differentially accessible regions of the chromatin. Comparative analyses revealed a core set of conserved regulatory regions across species. Topologically associating domains (TADs) and epigenetic A/B compartments annotated from Hi-C data were consistent with RNA-seq and ATAC-seq data. Multi-species comparisons showed that conserved TAD boundaries had stronger insulation properties than species-specific ones and that the genomic distribution of orthologous genes in A/B compartments was significantly conserved across species. Conclusions We report the first multi-species and multi-assay genome annotation results obtained by a FAANG project. Beyond the generation of reference annotations and the confirmation of previous findings on model animals, the integrative analysis of data from multiple assays and species sheds a new light on the multi-scale selective pressure shaping genome organization from birds to mammals. Overall, these results emphasize the value of FAANG for research on domesticated animals and reinforces the importance of future meta-analyses of the reference datasets being generated by this community on different species.

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