StCDF1: A ‘jack of all trades’ clock output with a central role in regulating potato nitrate reduction activity

Maroof Ahmed Shaikh, Lorena Ramírez-Gonzales, José M. Franco-Zorrilla, Evyatar Steiner, Marian Oortwijn, Christian W.B. Bachem*, Salomé Prat*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Transcription factors of the CYCLING DOF FACTOR (CDF) family activate in potato the SP6A FT tuberization signal in leaves. In modern cultivars, truncated StCDF1.2 alleles override strict SD control by stabilizing the StCDF1 protein, which leads to StCOL1 suppression and impaired activation of the antagonic SP5G paralog. By using DAP-seq and RNA-seq studies, we here show that StCDF1 not only acts as an upstream regulator of the day length pathway but also directly regulates several N assimilation and transport genes. StCDF1 directly represses expression of NITRATE REDUCTASE (NR/NIA), which catalyses the first reduction step in nitrate assimilation, and is encoded by a single potato locus. StCDF1 knock-down lines performed better in N-limiting conditions, and this phenotype correlated with derepressed StNR expression. Also, deletion of the StNR DAP-seq region abolished repression by StCDF1, while it did not affect NLP7-dependent activation of the StNR promoter. We identified multiple nucleotide polymorphisms in the DAP-seq region in potato cultivars with early StCDF1 alleles, suggesting that this genetic variation was selected as compensatory mechanism to the negative impact of StCDF1 stabilization. Thereby, directed modification of the StCDF1-recognition elements emerges as a promising strategy to enhance limiting StNR activity in potato.

Original languageEnglish
Pages (from-to)282-298
Number of pages17
JournalNew Phytologist
Volume245
Issue number1
Early online date6 Nov 2024
DOIs
Publication statusPublished - 2025

Keywords

  • DAP-seq
  • nitrate reductase
  • promoter polymorphism
  • Solanum tuberosum L.
  • StCDF1 transcription factor

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