Towards smart agriculture: AI-driven prediction of key genes for revolutionizing crop breeding [0.03%]
迈向智慧农业——人工智能驱动的关键基因预测以变革作物育种
Shaobo Cai,Changhui Sun,Jianhong Tian
Shaobo Cai
AI-driven key gene prediction is revolutionizing crop breeding, enhancing precision, efficiency, and sustainability while paving the way for intelligent, data-driven agricultural innovation. The integration of artificial intelligence (AI) i...
A perspective: A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species (Planta 149, 78-90) [0.03%]
C3植物叶片光合碳同化的生化模型及展望(PLANTA, Vol.149,PP.78-90)
Susanne von Caemmerer,Joseph A Berry,Graham D Farquhar
Susanne von Caemmerer
The model of C3 photosynthesis of Farquhar et al. (1980) integrated knowledge of the functioning of the biochemical components of photosynthetic carbon assimilation in C3 plants. The model linked equations describing activated Rubisco kinet...
The transcriptional mechanism behind Mimosa pudica leaf folding in response to mechanical disturbance [0.03%]
含羞草感应机械刺激后叶折叠的转录机制研究
Matteo Buti,Alice Checcucci,Chiara Vergata et al.
Matteo Buti et al.
Repeated stress in Mimosa pudica reduces photosystem efficiency, alters gene expression, shifting from flavonoid biosynthesis to stress resistance pathways, offering insights for sustainable plant stress defense strategies. Mimosa pudica is...
Morphoanatomy, patterns of development and types of feijoa (Acca sellowiana) flower buds in tropical and subtropical climates [0.03%]
热带和亚热带气候下巴西莓(Acca sellowiana)花芽的形态解剖、发育模式及类型研究
Anyela M Rojas-Molina,Edison Cardona-Medina,Marcia R Faita et al.
Anyela M Rojas-Molina et al.
Two distinct patterns of bud ontogenesis and development were found under subtropical and tropical climates, pointing to the potential plasticity under climatic variations. Acca sellowiana flourishes and sprouts in spring in subtropical cli...
Flavonoid characterization: It takes more than Arabidopsis seed colours! [0.03%]
黄酮类化合物表征:不仅仅局限于拟南芥种子颜色!
Jean-Marc Routaboul,Massimiliano Corso,Loïc Lepiniec
Jean-Marc Routaboul
Broccoli long non-coding RNA BroNR8 affects salt tolerance by mediating AtWRKY54-related reactive oxygen species homeostasis in Arabidopsis [0.03%]
broccoli长非编码RNA BroNR8通过介导拟南芥AtWRKY54相关的活性氧稳态影响盐胁迫耐受性
Hongli Yuan,Shengyi Liu,Shuting Ma et al.
Hongli Yuan et al.
BroNR8 regulates salt tolerance in Arabidopsis by upregulating AtWRKY54 and disrupting ROS homeostasis, revealing a key mechanism for salt sensitivity and offering insights for breeding salt-tolerant crops. Salt stress, which causes ion tox...
Arabidopsis Dynamin-Related Protein 1a is important for cell plate fusion with parent cell plasma membrane in cytokinesis during pollen mitosis I [0.03%]
拟南芥细胞板与父本胞质膜融合过程中DRP1A的重要性研究
Nan Wang,Qingchen Rui,Haoyue Xu et al.
Nan Wang et al.
Arabidopsis Dynamin-Related Protein 1a is important for mediating cell plate-parental membrane fusion during pollen mitosis I by regulating the formation of finger-like projections at the margin of the cell plate. Pollen mitosis I (PMI) is ...
Correction: Leaf anatomical traits shape lettuce physiological response to vapour pressure deficit and light intensity [0.03%]
订正:蒸气压差和光照强度下的生菜生理反应由叶解剖特征决定
Chiara Amitrano,Murat Kacira,Carmen Arena et al.
Chiara Amitrano et al.
Published Erratum
Planta. 2025 Sep 29;262(5):109. DOI:10.1007/s00425-025-04831-w 2025
AtPrx71-mediated regulation of stem elongation, gravitropic response, and IAA accumulation in Arabidopsis [0.03%]
拟南芥中ATPRX71介导的茎伸长、向地性和生长素积累的调节作用
Mami Kurumata-Shigeto,Zhou Ziyao,Diego Alonso Yoshikay-Benitez et al.
Mami Kurumata-Shigeto et al.
We demonstrated that Arabidopsis peroxidase AtPrx71 inhibits stem growth and gravitropism response via IAA catabolism, and speculate that other vascular plants, including poplar, may have the same functional peroxidase. Poplar peroxidase CW...
Integrative multi-omics and computer-aided biofungicide design approach to combat fusarium wilt of chickpea [0.03%]
整合多组学和计算机辅助生物杀菌剂设计方法防控 chickpea 枯萎病
Rosaleen Sahoo,Narendra Y Kadoo
Rosaleen Sahoo
Integrating multi-omics and computer-aided drug discovery approaches can overcome the limitations of traditional methods and help develop highly effective, specific, and environmentally safe biofungicides to control crop diseases. Chickpea ...