AI-enabled protein design facilitates future plant research and crop breeding [0.03%]
基于人工智能的蛋白质设计助力未来植物科学研究与作物育种
Yuxuan Lou,Tianhao Wu,Fan Xia et al.
Yuxuan Lou et al.
Artificial intelligence (AI) is poised to reshape the research paradigm of the life sciences by rapidly advancing the adoption of protein language models and their derivative tools. These technologies are increasingly being applied to prote...
Simplified mechanical organs in aquatic plants are associated with the loss of expansin genes [0.03%]
水生植物的简化机械器官与膨胀素基因丢失有关
Yue Zhang,Yves Van de Peer,Zhen Li et al.
Yue Zhang et al.
Transcriptome and functional analysis reveal the drought-alleviating ability of Bacillus on Paeonia lactiflora Pall [0.03%]
转录组和功能分析揭示芽孢杆菌缓解土壤干旱对毛白芍(Paeonia lactiflora Pall)伤害的能力
Xuening Kang,Ming Kan,Shixin Guan et al.
Xuening Kang et al.
Bacillus is a beneficial soil microorganism that enhances plant growth and stress resistance, yet its mechanism in boosting drought resistance remains unclear. This study explored its role in enhancing herbaceous peony (Paeonia lactiflora) ...
Transcriptomic and DNA methylation insights into polyploidy-enhanced heat tolerance in rice (Oryza sativa L.) [0.03%]
基于水稻泛基因组的多倍体增强热胁迫响应转录和DNA甲基化机制研究
Changjiang Zhang,Yu Wang,Weilong Meng et al.
Changjiang Zhang et al.
Extreme heat constrains global rice production. Polyploidy, a central driver of flowering plant evolution, is frequently associated with enhanced resilience to adverse environments. However, the epigenomic and transcriptomic programs that s...
Plastid perturbations trigger epigenetic programs during environmental sensing in plants [0.03%]
植物在环境感应过程中会发生质体扰动触发表观遗传程序的现象
Ha Eun Jeh,Isaac Dopp,Zizhang Li et al.
Ha Eun Jeh et al.
Plants adapt to environmental changes by adjusting growth and defense, and the role of epigenetic modifications in this process remains unclear. Sensing and adjusting to environmental changes are more pronounced in certain tissues such as e...
DDX6-like RNA helicases compromise salt-stress tolerance by facilitating mRNA decapping activity in Arabidopsis [0.03%]
拟南芥DDX6-like RNA解旋酶通过促进mRNA脱帽反应而影响植株耐盐性
Xian Duo Zhang,Jianbo Song,Xinyu Wu et al.
Xian Duo Zhang et al.
RNA helicases are a large family of ATPases that participate in RNA structure remodeling and ribonucleoprotein rearrangement to regulate plant growth, development, and responses to environmental stress. Here, we observed that the expression...
Metabolic flux, metabolite, and transcript analysis uncover reprogramming of metabolism toward higher seed oil [0.03%]
代谢通量、代谢单位和转录分析揭示向更高种子油含量代谢重编路径
Hai Shi,Michaela McGinn,Nathaphon Yu King Hing et al.
Hai Shi et al.
Overexpression of WRINKLED1 (WRI1), a master regulator of glycolysis and fatty acid biosynthesis, together with DIACYLGLYCEROL ACYLTRANSFERASE1 (DGAT1), which catalyzes the final step of triacylglycerol assembly, is a promising strategy for...
Lysine acetylation drives metabolic reprogramming for desiccation tolerance in the desert moss Syntrichia caninervis [0.03%]
沙漠地钱抗旱耐干的代谢重编程受赖氨酸乙酰化驱动
Amangul Hawar,Fangliu Yin,Xuncheng Liu et al.
Amangul Hawar et al.
Lysine acetylation represents a pivotal regulatory layer in plant stress responses, yet its functional significance in desiccation-tolerant (DT) species remains uncharacterized. Here, we report a comprehensive lysine acetylome of the extrem...
SlNOR interacts with SlMYB60 to regulate the jasmonic acid-mediated low-temperature stress response in tomato [0.03%]
SlNOR通过与斯洛文尼亚MYB60互作调节番茄茉莉酸介导的低温应答
Xiangguang Meng,Zhen Kang,Guo Chen et al.
Xiangguang Meng et al.
Low-temperature stress significantly affects plant growth and development. NAM, ATAF, and CUC transcription factors (NAC TFs) play a crucial role in enhancing plant tolerance to low-temperature, drought, and salinity stresses by promoting t...
Precise control of volatile glucosylation in tea plants by CBF4, WRKY4, and an atypical bHLH transcription factor [0.03%]
CBF4、WRKY4和非典型bHLH转录因子对茶树挥发性糖基化精细调控的作用
Keke Yu,Danyang Guo,Xiaoyan Tang et al.
Keke Yu et al.
Low temperature imposes a significant threat to plant development. Plants counteract cold stress through UDP-glycosyltransferase (UGT)-mediated glycosylation. Although nerolidol, a widely distributed phytohormone-like compound, participates...