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Allele-specific Expression of AP2-like ABA repressor 1 Regulates Iron Uptake by Modulating Rhizosphere pH in Apple.

Huaying MaMengmeng FuZhen XuZicheng ChuJi TianYi WangXin Zhong ZhangZhenyun HanTing Wu
Published in: Plant physiology (2024)
Genetic variation within a species can result in allelic expression for natural selection or breeding efforts. Here, we identified an iron (Fe) deficiency-inducible gene, AP2-like ABA repressor 1 (MdABR1), in apple (Malus domestica). MdABR1 exhibited differential expression at the allelic level (MdABR131A and MdABR131G) in response to Fe deficiency. The W-box insertion in the promoter of MdABR131A is essential for its induced expression and its positive role under Fe deficiency stress. MdABR1 binds to the promoter of basic-helix-loop-helix 105 (MdbHLH105), participating in the Fe-deficiency response, and activates its transcription. MdABR131A exerts a more pronounced transcriptional activation effect on MdbHLH105. Suppression of MdABR1 expression leads to reduced rhizosphere acidification in apple, and MdABR131A exhibits allelic expression under Fe-deficiency stress, which is substantially upregulated and then activates the expression of MdbHLH105, promoting the accumulation of plasma membrane proton ATPase 8 (MdAHA8) transcripts in response to proton extrusion, thereby promoting rhizosphere acidification. Therefore, variation in the ABR1 alleles results in variable gene expression and enables apple plants to exhibit a wider tolerance capability and Fe deficiency response. These findings also shed light on the molecular mechanisms of allele-specific expression in woody plants.
Keyphrases
  • poor prognosis
  • transcription factor
  • gene expression
  • binding protein
  • dna methylation
  • microbial community
  • long non coding rna
  • genome wide
  • copy number
  • endothelial cells
  • stress induced
  • drug induced
  • heat stress