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Increased long-distance and homo-trans interactions related to H3K27me3 in Arabidopsis hybrids.

Zhaoxu GaoYanning SuLe ChangGuanzhong JiaoYang OuMei YangChao XuPengtao LiuZejia WangZewen QiWenwen LiuLinhua SunGuangming HeXing Wang DengHang He
Published in: Journal of integrative plant biology (2024)
In plants, the genome structure of hybrids changes compared with their parents, but the effects of these changes in hybrids remain elusive. Comparing reciprocal crosses between Col × C24 and C24 × Col in Arabidopsis using high-throughput chromosome conformation capture assay (Hi-C) analysis, we found that hybrid three-dimensional (3D) chromatin organization had more long-distance interactions relative to parents, and this was mainly located in promoter regions and enriched in genes with heterosis-related pathways. The interactions between euchromatin and heterochromatin were increased, and the compartment strength decreased in hybrids. In compartment domain (CD) boundaries, the distal interactions were more in hybrids than their parents. In the hybrids of CURLY LEAF (clf) mutants clf Col  × clf C24 and clf C24  × clf Col , the heterosis phenotype was damaged, and the long-distance interactions in hybrids were fewer than in their parents with lower H3K27me3. ChIP-seq data revealed higher levels of H3K27me3 in the region adjacent to the CD boundary and the same interactional homo-trans sites in the wild-type (WT) hybrids, which may have led to more long-distance interactions. In addition, the differentially expressed genes (DEGs) located in the boundaries of CDs and loop regions changed obviously in WT, and the functional enrichment for DEGs was different between WT and clf in the long-distance interactions and loop regions. Our findings may therefore propose a new epigenetic explanation of heterosis in the Arabidopsis hybrids and provide new insights into crop breeding and yield increase.
Keyphrases
  • transcription factor
  • high throughput
  • genome wide
  • gene expression
  • dna methylation
  • oxidative stress
  • dna damage
  • minimally invasive
  • climate change
  • copy number
  • genome wide identification
  • rna seq