SnRK1A-Interacting Negative Regulators Modulate the Nutrient Starvation Signaling Sensor SnRK1 in Source-Sink Communication in Cereal Seedlings under Abiotic Stress [C] [W]

@article{Lin2014SnRK1AInteractingNR,
  title={SnRK1A-Interacting Negative Regulators Modulate the Nutrient Starvation Signaling Sensor SnRK1 in Source-Sink Communication in Cereal Seedlings under Abiotic Stress [C] [W]},
  author={Chien-Ru Lin and K. Lee and C. Chen and Ya-fang Hong and Jyh-Long Chen and Chung-An Lu and Ku-Ting Chen and T. Ho and S. Yu},
  journal={Plant Cell},
  year={2014},
  volume={26},
  pages={808 - 827}
}
  • Chien-Ru Lin, K. Lee, +6 authors S. Yu
  • Published 2014
  • Biology, Medicine
  • Plant Cell
  • This work identifies a family of plant-specific SnRK1A-interacting negative regulators, SKINs, which repress SnRK1A-dependent sugar/nutrient starvation signaling by inhibiting the induction of enzyme expression facilitating nutrient mobilization under abiotic stress conditions. In plants, source-sink communication plays a pivotal role in crop productivity, yet the underlying regulatory mechanisms are largely unknown. The SnRK1A protein kinase and transcription factor MYBS1 regulate the sugar… CONTINUE READING
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