Suppression of TaHDA8-mediated lysine deacetylation of TaAREB3 acts as a drought adaptive mechanism in wheat root development [0.03%]
TaHDA8介导的TaAREB3赖氨酸脱乙酰化在小麦根系发育抗旱适应机制中的作用
Zehui Liu,Qun Yang,Xingbei Liu et al.
Zehui Liu et al.
Wheat root systems undergo dynamic and adaptive changes to mitigate the adverse effects through elaborate regulatory mechanisms under drought stress. Elucidating and utilizing these mechanisms is highly important for breeding drought resist...
Genomic and Population Evidence Uncovers Divergent Improvement of Vegetable Soybean from Grain Soybean [0.03%]
基因组和群体证据揭示了蔬菜大豆与粮食作物大豆的分歧改良
Na Liu,Wanjie Feng,Guwen Zhang et al.
Na Liu et al.
Structural insights of gibberellin-mediated DELLA protein degradation [0.03%]
赤霉素介导的DELLA蛋白降解机理的结构洞察
Soyaab Islam,Kunwoong Park,Jing Xia et al.
Soyaab Islam et al.
Gibberellin promotes plant growth by downregulating DELLA proteins, which act as growth repressors. In the presence of gibberellin, the gibberellin receptor GID1 binds to DELLA proteins, triggering their degradation through polyubiquitinati...
Vincent E Cerbantez-Bueno,G Venugopala Reddy
Vincent E Cerbantez-Bueno
The transcription factor MYB44 suppresses starch synthesis to negatively regulate grain weight and yield in wheat and rice [0.03%]
小麦和水稻的转录因子MYB44通过抑制淀粉合成负调控籽粒重量和产量
Yunchuan Liu,Mingming Wang,Yaojia Wang et al.
Yunchuan Liu et al.
Starch is the principal storage compound in wheat grain, essential for flour quality and grain weight. In this study, we identified TaMYB44, an R2R3-MYB transcription factor gene, through a genome-wide association study. The TaMYB44 homoeol...
Root bacteria fine-tune tillering in rice through phytohormone interference and mimicry [0.03%]
根际细菌通过植物激素干扰和模拟精细调节水稻分蘖
Esteban Veliz,Venkatesan Sundaresan
Esteban Veliz
BAI1: A Plant Transcription Factor Governing Nuclear and Plastid Gene Expression [0.03%]
植物转录因子BAI1调控核基因和叶绿体基因表达
Nicolaj Jeran,Simona Masiero,Paolo Pesaresi
Nicolaj Jeran
Phosphorylation-activated G-Protein signaling stabilizes TCP14 and JAZ3 to repress JA signaling and enhance plant immunity [0.03%]
磷酸化激活的G蛋白信号转导通过稳定TCP14和JAZ3来抑制JA信号传导并增强植物免疫能力
Haiyan Jia,Natalie Hewitt,Lucia Jorda et al.
Haiyan Jia et al.
The plant hormones salicylic acid (SA) and jasmonic acid (JA) act in mutual negative-feedback regulation to balance the plant growth-defense trade-off. Heterotrimeric Gα-Gβ-Gγ proteins are hubs that regulate defense signaling. In Arabido...
Lingran Zhang,Vishal,Manman Hu et al.
Lingran Zhang et al.