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T-DNA-genome junctions form early after infection and are influenced by the chromatin state of the host genome.

Shay ShiloPooja TripathiCathy Melamed-BessudoOren TzfadiaTheodore R MuthAvraham A Levy
Published in: PLoS genetics (2017)
Agrobacterium tumefaciens mediated T-DNA integration is a common tool for plant genome manipulation. However, there is controversy regarding whether T-DNA integration is biased towards genes or randomly distributed throughout the genome. In order to address this question, we performed high-throughput mapping of T-DNA-genome junctions obtained in the absence of selection at several time points after infection. T-DNA-genome junctions were detected as early as 6 hours post-infection. T-DNA distribution was apparently uniform throughout the chromosomes, yet local biases toward AT-rich motifs and T-DNA border sequence micro-homology were detected. Analysis of the epigenetic landscape of previously isolated sites of T-DNA integration in Kanamycin-selected transgenic plants showed an association with extremely low methylation and nucleosome occupancy. Conversely, non-selected junctions from this study showed no correlation with methylation and had chromatin marks, such as high nucleosome occupancy and high H3K27me3, that correspond to three-dimensional-interacting heterochromatin islands embedded within euchromatin. Such structures may play a role in capturing and silencing invading T-DNA.
Keyphrases
  • single molecule
  • circulating tumor
  • cell free
  • genome wide
  • gene expression
  • dna methylation
  • high throughput
  • transcription factor
  • circulating tumor cells
  • dna damage
  • oxidative stress