1. Patents

• 1.
• • Patent Title :
  • OsBCAT2 Gene Controlling Drought Tolerance of Plant and Uses Thereof
  • Filing Date :
  • 2022.10.14
  • Country Code :
  • Unite States (17/966,278), Brazil (BR 10 2022 020838 7), Argentina (P220102796), EU (22201496.1), China (202211260180.8)

• 2.
• • Patent Title :
  • NF-YA5/miR169a Module Controlling Nitrogen Utilization Efficency of Plant and Uses Thereof
  • Filing Date :
  • 2023.09.15
  • Country Code :
  • Unite States (18/368,607)

2. 특허 등록 (전용실시권 확보)

• 1.
• • Patent Title :
  • DIAT Gene Derived from Controlling Drought Stress Tolerance of a Plant and Uses Thereof
  • Filing Date :
  • 2021.06.29
  • Country Code :
  • Unite States (US 11,046,970 B2 )

• 2.
• • Patent Title :
  • OsNF-YA5 Gene from Oryza Sativa for Increasing Nitrogen Availability of Plant and Uses Thereof
  • Filing Date :
  • 2023.06.13
  • Country Code :
  • Unite States (US 11,674,148 )

3. 학술 논문

• 1.
• • 논문명 :
  • The rice NF-YA5/MIR169a module promotes OsNRT1.1A-mediated nitrogen utilization for adaptation to nitrogen deficiency
    (Plant Physiology, 2024)

• 2.
• • 논문명 :
  • Drought-induced BCAT expression promotes the accumulation of branched-chain amino acids to enhance drought tolerance
    (Plant Physiology, 2023)

• 3.
• • 논문명 :
  • Transcriptional activation of rice CINNAMOYL-CoA REDUCTASE 10 by OsNAC5, contributes to drought tolerance by modulating lignin accumulation in roots.
    (Plant Biotechnology Journal, 2022)

• 4.
• • 논문명 :
  • The rice GLYCINE-RICH PROTEIN 3 confers drought tolerance by regulating mRNA stability of ROS scavenging-related genes.
    (Rice, 2021)