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CW198 acts as a genetic insulator to block enhancer-promoter interaction in plants.

Li JiangYue LiuZhifeng WenYingjun YangStacy D SingerDennis BennettWenying XuZhen SuZhifang YuJosh CohnXi LuoZhongchi LiuHyunsook ChaeQiudeng QueZongrang Liu
Published in: Transgenic research (2022)
Insulators in vertebrates play a role in genome architecture and orchestrate temporo-spatial enhancer-promoter interactions. In plants, insulators and their associated binding factors have not been documented as of yet, largely as a result of a lack of characterized insulators. In this study, we took a comprehensive strategy to identify and validate the enhancer-blocking insulator CW198. We show that a 1.08-kb CW198 fragment from Arabidopsis can, when interposed between an enhancer and a promoter, efficiently abrogate the activation function of both constitutive and floral organ-specific enhancers in transgenic Arabidopsis and tobacco plants. In plants, both transcriptional crosstalk and spreading of histone modifications were rarely detectable across CW198, which resembles the insulation property observed across the CTCF insulator in the mammalian genome. Taken together, our findings support that CW198 acts as an enhancer-blocking insulator in both Arabidopsis and tobacco. The significance of the present findings and their relevance to the mitigation of mutual interference between enhancers and promoters, as well as multiple promoters in transgenes, is discussed.
Keyphrases
  • transcription factor
  • dna binding
  • binding protein
  • dna methylation
  • genome wide
  • gene expression
  • heat stress
  • plant growth