CIPK9-PP2C39 module modulates the trade-off between abscisic acid-dependent drought tolerance and plant growth in Brassica napus L [0.03%]
油菜中CIPK9-PP2C39模块调控ABA依赖的干旱耐受性与植物生长间的权衡关系
Nan Wang,Jiaming Mai,Chao He et al.
Nan Wang et al.
Drought poses a critical threat to global agriculture, food security, and livestock sustainability. In Brassica napus L. (B. napus), a major oilseed crop, yield losses under water deficit underscore the urgent need for breeding strategies t...
Pohsphorylation of MAP4K1 and MAP4K2 by OST1 is required for drought tolerance [0.03%]
OST1对MAP4K1和MAP4K2的磷酸化作用可增强干旱抗性
Pengcheng Hu,Lipeng Zheng,Lan Chen et al.
Pengcheng Hu et al.
Protein phosphorylation has pivotal roles in ABA and dehydration stress signaling in higher plants. However, little is known about MITOGEN-ACTIVATED PROTEIN KINASE KINASE KINASE KINASE (MAP4K) in dehydration tolerance. Here, we report MAP4K...
Sex-specific ethylene responses drive floral sexual plasticity in Cannabis sativa [0.03%]
雌雄异花的乙烯响应机制:以大麻为例
Adrian S Monthony,Julien Roy,Maxime de Ronne et al.
Adrian S Monthony et al.
Cannabis sativa L. exhibits pronounced sexual plasticity in which both XX and XY plants can undergo floral phenotypic sex reversal in response to ethylene modulation, yet the underlying molecular mechanisms remain poorly defined. Here, we p...
CBL1/9-CIPK6 complex negatively regulates Respiratory burst oxidase homolog D in Arabidopsis thaliana [0.03%]
拟南芥CBL1/9-CIPK6复合体通过负调控RBOHD抑制植物免疫响应
Niraj Kumar Vishwakarma,Shalini Yadav,Atish Sardar et al.
Niraj Kumar Vishwakarma et al.
Plant innate immune response is a well-balanced process with positive and negative regulations for the plants to survive. Calcium signaling is essential for pathogen-associated molecular pattern (PAMP)-driven respiratory burst oxidase homol...
The transcription factor NO TRANSMITTING TRACT/WIP2 modulates cytokinin homeostasis in Arabidopsis [0.03%]
拟南芥中的转录因子NO TRANSMITTING TRACT/WIP2调节细胞分裂素稳态
David Díaz-Ramírez,Edgar Demesa-Arevalo,Yolanda Durán-Medina et al.
David Díaz-Ramírez et al.
The transcription factor WIP2/NO TRANSMITTING TRACT (WIP2/NTT) belongs to the WIP zinc finger family. Loss of WIP/NTT function in Arabidopsis thaliana causes alterations in specific tissues in the gynoecium. It also impairs root development...
Thermal acclimation of Pinus massoniana to warming depends on water conditions and climate of origin [0.03%]
马尾松的热习化依赖其原产地气候和水分条件
Yong Cui,Mingkai Jiang,Ting Wu et al.
Yong Cui et al.
Future climatic conditions are projected to become warmer and drier, critically challenging tree growth and survival. Understanding how photosynthesis and respiration of tree seedlings acclimate to warming is pivotal for predicting seedling...
Multi-season analysis reveals hundreds of drought-responsive genes in sorghum [0.03%]
多季节分析揭示了数百个高抗干旱的基因存在于高丹草中
Benjamin Cole,Wenxin Zhang,Junming Shi et al.
Benjamin Cole et al.
Persistent drought affects global crop production and is becoming more severe in many parts of the world in recent decades. Deciphering how plants respond to drought will facilitate the development of flexible mitigation strategies. Sorghum...
Nuclear DNA of plastid origin (NUPTs), neglected driver of genome variation and evolutionary innovation [0.03%]
核基因组中的质体片断——常被忽视的变异和创新驱动因素
Lorenzo Carretero-Paulet,Juan Pablo Marczuk-Rojas,Aaron Gálvez-Salido
Lorenzo Carretero-Paulet
Plant nuclear genomes contain a variable, though typically minor, fraction of DNA sequences of plastid origin known as NUPTs. Unlike the massive transfer of DNA and genes from the proto-organelle genome to the nucleus that occurred during t...
A novel domain of unknown function 707 protein coordinates root growth and drought tolerance [0.03%]
一个新的未知功能域707蛋白协调根系生长和抗旱性
Qi Yan,Yunyue Xiao,Xue Li et al.
Qi Yan et al.
A well-developed root system is one of the morphological mechanisms through which xerophytes adapt to drought. However, the molecular mechanisms underlying root growth are not completely known. In this work, two domain of unknown function 7...
The OsBUL1-OsbHLH186-OsBC1 transcriptional complex regulates rice grain size and leaf angle through the brassinosteroid signaling pathway [0.03%]
OsBUL1-OsbHLH186-OsBC1转录复合体通过油菜素类固醇信号途径调控水稻粒重和叶夹角
Wei Chen,Yicong Cai,Laiyang Luo et al.
Wei Chen et al.
Grain size and leaf angle are closely related to the final yields of rice (Oryza sativa). Brassinosteroids (BRs) are plant-specific steroid hormones that play a crucial role in regulating grain size and leaf angle; however, the underlying m...