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Hui Dong
Agriculture
Nanjing Agricultural University
Language: Chinese, English
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Keywords
Gene Cloning Rice Grain Development Rice Quality Ubiquitination Grain Size Plant Development Environmental Response Molecular Breeding Gene Editing Molecular Markers
Areas of Focus
  • Cloning genes regulating rice grain development and quality
  • Exploring new factors in ubiquitination regulating grain size
  • Plant grain development and rice quality response mechanisms to the environment
Publications
  • A natural gene drive system confers reproductive isolation in rice., Wang Chaolong et al., 2023
  • Rice FLOURY ENDOSPERM22, encoding a pentatricopeptide repeat protein, is involved in both mitochondrial RNA splicing and editing and is crucial for endosperm development, Yang Hang et al., 2023
  • OsMADS1 Regulates Grain Quality, Gene Expressions, and Regulatory Networks of Starch and Storage Protein Metabolisms in Rice, Liu Zhijian et al., 2023
  • Tetrapyrrole biosynthesis pathway regulates plastid-to-nucleus signaling by controlling plastid gene expression in plants, Wang Yunlong et al., 2023
  • The transcriptional hub SHORT INTERNODES1 integrates hormone signals to orchestrate rice growth and development, Duan Erchao et al., 2023
  • Fructose-6-phosphate-2-kinase/fructose-2,6-bisphosphatase regulates energy metabolism and synthesis of storage products in developing rice endosperm, Chen Xiaoli et al., 2023
Post a Project
Related Professors
Xie Chaojie - China Agricultural University
Area of Focus
Wheat | Genetics | Breeding | Disease Resistance | Crop Improvement | Molecular Markers | Genetic Resources | Allele Variation | Pathogen Identification | Gene Cloning
Weibin Song - China Agricultural University
Area of Focus
Maize | Functional Genomics | Molecular Breeding | Gene Cloning | Drought Resistance | Gene Engineering | High Yield | Quality Traits | Genetic Improvement | Haploid Induction
Zhenqi Su - China Agricultural University
Area of Focus
Fusarium Head Blight | Genetic Resistance | Gene Cloning | Mechanism Analysis | Wheat | High-Yield | High-Quality | Breeding | Agronomic Traits | Molecular Breeding
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