Biology-driven genebank pangenetics meet AI-powered predictions to transform crop breeding [0.03%]
以生物学驱动的基因库泛基因组与人工智能预测相结合,变革作物育种
Ragavendran Abbai,Thorsten Schnurbusch,Mark Cooper et al.
Ragavendran Abbai et al.
The modern era of crop improvement is characterized by two distinct paths: (i) biology-driven molecular genetics focused on dissecting the mechanisms underlying complex traits by reductionist approach, and (ii) data-driven quantitative gene...
Single-cell and haplotype-resolved transcriptomics reveal molecular signatures of orchid floral structures [0.03%]
单细胞和单倍体型解析转录组揭示兰科花部器官的分子特征
Yan Li,Songyao Zhang,Bin Zhang et al.
Yan Li et al.
Orchidaceae is among the largest families of flowering plants, yet the cell heterogeneity and molecular basis underlying specialized orchid floral structures remain largely unknown. Here, we report a spatially resolved single-cell transcrip...
The EAR motif-containing adaptor protein ECAP enhances the assembly of PYR1-ABI1 complex to promote ABA signaling in Arabidopsis [0.03%]
EAR基序含有的衔接蛋白ECAP通过促进PYR1-ABI1复合体组装正向调控ABA信号转导
Xing Li,Changjiang Li,Gaofeng Lv et al.
Xing Li et al.
The phytohormone abscisic acid (ABA) plays a pivotal role in plant growth, development, and stress responses. In the ABA signaling pathway, ABA-bound PYR1/PYL receptors form complexes with PP2Cs co-receptors, thereby releasing SnRK2 kinases...
Weijuan Hu,Yunbi Xu,Xiangdong Fu
Weijuan Hu
AI-driven protein engineering: A new paradigm for plant trait design [0.03%]
基于人工智能的蛋白质工程:植物性状设计的新范式
Ran Fu,Shan Jiang,Tianhao Wu et al.
Ran Fu et al.
Protein engineering modifies protein molecules to achieve specific biological or technological functions. Protein design forms the core methodology, and in recent years, artificial intelligence (AI)-driven approaches have enabled more preci...
Histone deacetylases and cell cycle regulators orchestrate cell identity transitions during Arabidopsis root regeneration [0.03%]
组蛋白去乙酰化酶和细胞周期调节因子在拟南芥根再生过程中协同调控细胞身份转变
Ramin Rahni,Laura R Lee,Graeme Vissers et al.
Ramin Rahni et al.
The widespread regenerative capacity of plants is mediated by the ability of specialized cells to reprogram their fate, but the sequential cellular states of regenerating plant cells remain an open question. Here, we characterize the trajec...
FT Florigen proteins in photoperiodic signaling: conservation and diversity in their regulation, structure and function [0.03%]
光周期信号转导中的FT成花素蛋白:其调控、结构和功能的保守性和多样性
He Gao,Na Ding,Yuang Wu et al.
He Gao et al.
Seasonal changes in day length regulate plant growth and development. FLOWERING LOCUS T (FT) proteins are widely-conserved effectors of photoperiod-induced flowering, and also promote tuberization in potato and bud growth in trees. We integ...
PlantScience.ai: An LLM-Powered Virtual Scientist for Plant Science [0.03%]
PlantScience.ai:植物科学领域的大型语言模型虚拟科学家
Haopeng Yu,Shasha Zhou,Mingyu Huang et al.
Haopeng Yu et al.
The accelerating growth of plant science knowledge presents a major challenge for researchers seeking to extract accurate, up-to-date knowledge from an increasingly fragmented and domain-specific corpus. General-purpose large language model...
Regulation of seed germination by a temperature-sensitive feedback mechanism that integrates environmental and hormonal signals [0.03%]
整合环境和激素信号调节种子萌发的温度敏感性反馈机制
Pannaga Krishnamurthy,Prakash P Kumar
Pannaga Krishnamurthy
High-density cultivation of synthetic apomictic hybrid rice achieves near-complete diploidization and parental-equivalent yield in field trials [0.03%]
高密度栽培合成无融合生殖杂交水稻实现近完整二倍体化并获得与亲本相当的产量(英文)
Mengqiu Song,Shengnan Li,Zuan Wang et al.
Mengqiu Song et al.