OsSIZ1 regulates rice nitrogen-use efficiency and grain yield by modulating auxin levels [0.03%]
OsSIZ1通过调节生长素水平调控水稻氮素利用效率和产量
Bingyu Jiang,Yunzhi Huang,Siyu Zhang et al.
Bingyu Jiang et al.
Auxin plays a pivotal role in regulating crop nitrogen (N)-use efficiency (NUE), coordinating both N-responsive root development and the expression of N metabolism genes. In our previous work, we identified DULL NITROGEN RESPONSE1 (DNR1) as...
Klebsiella sp. strain B7 enhances alkaline tolerance by secreting pyruvic acid to accelerate L-malic acid accumulation in soybean [0.03%]
大豆菌根真菌 Klebsiella 菌株 B7 通过分泌丙酮酸促进 L-苹果酸积累以提高耐碱性
Yingxue Cao,Yijia Jiang,Yang Li et al.
Yingxue Cao et al.
Alkaline stress is a major constraint on crop growth and development and negatively impacts soybean (Glycine max) production and yield. Despite the remarkable progress that has been made in investigating beneficial microbes that facilitate ...
OVATE family protein 6 controls leaf angle through dual regulation of cytokinin catabolism and leaf dorsiventrality in lettuce [0.03%]
莴苣叶片夹角由OVATE家族蛋白6通过调控细胞分裂素降解及叶两面性发育决定
Ruiyu Chen,Wei Shao,Weizhen Guo et al.
Ruiyu Chen et al.
Leaf angle is a key agronomic trait for improving planting density and yield in lettuce, particularly in controlled-environment agriculture and high-density field cultivation. Leaf angle regulation is well studied in monocots; however, the ...
The transcription factors TaABI4 and TaNAC-A1 fine-tune TaCYP94-A1 transcription to modulate seed dormancy in wheat [0.03%]
TaABI4和TaNAC-A1通过精细调节TaCYP94-A1转录以调控小麦种子休眠
Litian Zhang,Yuhui Fang,Yunfei Zhou et al.
Litian Zhang et al.
Seed dormancy (SD) is the primary genetic determinant of pre-harvest sprouting (PHS) resistance. However, the molecular mechanisms underlying SD remain incompletely understood. Here, we identified a wheat cytochrome P450 gene, TaCYP94-A1, t...
Yongqi Chang,Lili Zhou,Tongtong Zhu et al.
Yongqi Chang et al.
The rice blast fungal effector AVR-PikC binds to the rice protein HIPP19, which may contribute to plant susceptibility. The compound B93 induces the interaction between the rice E3 ligase APIP6 and AVR-PikC, which results in the ubiquitinat...
Yunhe Wang,Xiaofeng Fang
Yunhe Wang
OsPDCB1 mediates plasmodesmal callose defense and is targeted by a conserved planthopper effector [0.03%]
OsPDCB1介导胞间连丝葡聚糖防御并被一种保守的稻飞虱效应子靶向攻击
Hou-Hong Yang,Peng-Fei Chen,Fang Liu et al.
Hou-Hong Yang et al.
The brown planthopper (Nilaparvata lugens Stål, BPH) is a major rice pest that feeds on sieve tubes, where plants respond by depositing callose to restrict phloem sap ingestion. However, the molecular basis of how rice stabilizes callose a...
Pan-genome analysis reveals the evolutionary dynamics and functional divergence of the O-methyltransferase gene family in tomato [0.03%]
泛基因组分析揭示了番茄O-甲基转移酶基因家族的进化动力学和功能分歧
Haibin Wang,Xumin Ou,Jianing Zhang et al.
Haibin Wang et al.
O-Methyltransferases (OMTs) play crucial roles in plant defense, environmental adaptation, and quality formation by catalyzing the biosynthesis of diverse methylated metabolites. Although OMT (COMT and CCoAOMT) genes have been functionally ...
Yixuan Yang,Junqi Hou,Yuanli Wang et al.
Yixuan Yang et al.
The BARELY ANY MERISTEM 1-AVRPPHB SUSCEPTIBLE 1 (PBS1) module is an early plasma membrane switch activating reactive oxygen species-dependent heat responses. PBS1 may integrate heat and immunity, offering targets for breeding climate-resili...
OsFKBP20-1b stabilizes OsUPF1 and OsUPF2 to promote the degradation of aberrant mRNAs during dehydration stress [0.03%]
OsFKBP20-1b通过稳定OsUPF1和OsUPF2在脱水胁迫期间促进异常mRNA的降解
Haemyeong Jung,Hyun Ji Park,Seung Hee Jo et al.
Haemyeong Jung et al.
The selective degradation of aberrant mRNAs plays a vital role in ensuring cellular survival under stress conditions. Here, we investigated the role of OsFKBP20-1b, a splicing factor, in dehydration stress response in rice (Oryza sativa). W...