Wheat chromatin architecture is organized in genome territories and transcription factories

  • Lorenzo Concia (Creator)
  • Alaguraj Veluchamy (Creator)
  • Juan S. Ramirez-Prado (Creator)
  • Azahara Martin-Ramirez (Creator)
  • Ying Huang (Creator)
  • Magali Perez (Creator)
  • Séverine Domenichini (Creator)
  • Natalia Y. Rodriguez-Granados (Creator)
  • SoonKap Kim (Creator)
  • Thomas Blein (Creator)
  • Susan Duncan (Creator)
  • Clement Pichot (Creator)
  • Deborah Manza-Mianza (Creator)
  • Caroline Juery (Creator)
  • Etienne Paux (Creator)
  • Graham Moore (Creator)
  • Heribert Hirt (Creator)
  • Catherine Bergounioux (Creator)
  • Martin Crespi (Creator)
  • Magdy Mahfouz (Creator)
  • Abdelhafid Bendahmane (Creator)
  • Chang Liu (Creator)
  • Anthony Hall (Creator)
  • Cécile Raynaud (Creator)
  • David Latrasse (Creator)
  • Moussa Benhamed (Creator)
  • Lorenzo Concia (Creator)
  • Juan S. Ramirez-Prado (Creator)
  • Azahara Martin-Ramirez (Creator)
  • Ying Huang (Creator)
  • Magali Perez (Creator)
  • Séverine Domenichini (Creator)
  • Natalia Y. Rodriguez-Granados (Creator)
  • Thomas Blein (Creator)
  • Susan Duncan (Creator)
  • Clement Pichot (Creator)
  • Deborah Manza-Mianza (Creator)
  • Caroline Juery (Creator)
  • Etienne Paux (Creator)
  • Graham Moore (Creator)
  • Catherine Bergounioux (Creator)
  • Martin Crespi (Creator)
  • Abdelhafid Bendahmane (Creator)
  • Chang Liu (Creator)
  • Anthony Hall (Creator)
  • Cécile Raynaud (Creator)
  • David Latrasse (Creator)
  • Moussa Benhamed (Creator)

Dataset

Description

Abstract Background Polyploidy is ubiquitous in eukaryotic plant and fungal lineages, and it leads to the co-existence of several copies of similar or related genomes in one nucleus. In plants, polyploidy is considered a major factor in successful domestication. However, polyploidy challenges chromosome folding architecture in the nucleus to establish functional structures. Results We examine the hexaploid wheat nuclear architecture by integrating RNA-seq, ChIP-seq, ATAC-seq, Hi-C, and Hi-ChIP data. Our results highlight the presence of three levels of large-scale spatial organization: the arrangement into genome territories, the diametrical separation between facultative and constitutive heterochromatin, and the organization of RNA polymerase II around transcription factories. We demonstrate the micro-compartmentalization of transcriptionally active genes determined by physical interactions between genes with specific euchromatic histone modifications. Both intra- and interchromosomal RNA polymerase-associated contacts involve multiple genes displaying similar expression levels. Conclusions Our results provide new insights into the physical chromosome organization of a polyploid genome, as well as on the relationship between epigenetic marks and chromosome conformation to determine a 3D spatial organization of gene expression, a key factor governing gene transcription in polyploids.
Date made available2020
Publisherfigshare

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