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A natural variation in SlSCaBP8 promoter contributes to the loss of saline-alkaline tolerance during tomato improvement.

Jian LiuChi ZhangHeyao SunYinqiang ZangXianwen MengHuawei ZhaiQian ChenChuan-You Li
Published in: Horticulture research (2024)
Saline-alkaline stress is a worldwide problem that threatens the growth and yield of crops. However, how crops adapt to saline-alkaline stress remains less studied. Here we show that saline-alkaline tolerance was compromised during tomato domestication and improvement, and a natural variation in the promoter of SlSCaBP8 , an EF-hand Ca 2+ binding protein, contributed to the loss of saline-alkaline tolerance during tomato improvement. The biochemical and genetic data showed that SlSCaBP8 is a positive regulator of saline-alkaline tolerance in tomato. The introgression line Pi-75, derived from a cross between wild Solanum pimpinellifolium LA1589 and cultivar E6203, containing the SlSCaBP8 LA1589 locus, showed stronger saline-alkaline tolerance than E6203. Pi-75 and LA1589 also showed enhanced saline-alkaline-induced SlSCaBP8 expression than that of E6203. By sequence analysis, a natural variation was found in the promoter of SlSCaBP8 and the accessions with the wild haplotype showed enhanced saline-alkaline tolerance compared with the cultivar haplotype. Our studies clarify the mechanism of saline-alkaline tolerance conferred by SlSCaBP8 and provide an important natural variation in the promoter of SlSCaBP8 for tomato breeding.
Keyphrases
  • anaerobic digestion
  • dna methylation
  • transcription factor
  • gene expression
  • binding protein
  • poor prognosis
  • oxidative stress
  • long non coding rna
  • stress induced
  • diabetic rats
  • amino acid