TgARAD1 regulated by TgERF8 enhances the tolerance of Torreya grandis to drought stress [0.03%]
受TgERF8调控的TgARAD1增强Torreya grandis的抗旱性
Ruoman Wang,Tongtong Wang,Ya Liu et al.
Ruoman Wang et al.
Upon exposure to drought conditions, plants rapidly shut their stomata to minimize water loss-a response critically influenced by the cell wall properties of guard cells. The ARABINAN DEFICIENT (ARAD) gene family modulates cell wall composi...
A single nucleotide deletion in CsSCP4 disrupts brassinosteroid biosynthesis and confers a super compact phenotype in cucumber [0.03%]
黄瓜CsSCP4基因单碱基缺失突变体的表型及功能分析
Qiming Hu,Hamza Sohail,Yuanyuan Bian et al.
Qiming Hu et al.
Dwarf mutants in higher plants serve as ideal models for studying the mechanisms underlying stem elongation and plant development. Moreover, the compact stature of dwarf plants renders them advantageous for high-density planting and mechani...
Root Hairs at the Frontline: Tiny Architects of Adaptive Responses to Salinity Stress [0.03%]
前端线的根毛:适应盐胁迫的微小建筑师
Purushottam,Nidhi Verma,Ratna Dubey et al.
Purushottam et al.
Root hairs (RHs) are unicellular extensions that aid in the absorptive surface in roots. These tiny architectures facilitate uptake of water and immobile nutrients from soil. RHs act as a frontline to perceive and respond to their environme...
Metabolomics-guided engineering of drought-resilient crops: Integrating multi-omics and AI for climate-smart agriculture [0.03%]
基于代谢组学的耐旱作物工程设计:多组学与人工智能在气候智能型农业中的整合应用指导原则
Cengiz Kaya
Cengiz Kaya
Drought stress is among the most critical threats to global food security, and its complex impact on plant physiology often exceeds the reach of traditional breeding approaches. Metabolomics has emerged as a transformative tool for dissecti...
Integrated QTL Mapping and Functional Analysis Reveal GmDWF4.2 as a Key Regulator of Soybean Plant Height [0.03%]
整合QTL定位和功能分析揭示了GmDWF4.2是调控大豆株高的关键因子
Lijuan Ai,Qiang Chen,Yuxin Liu et al.
Lijuan Ai et al.
Plant height is a key agronomic trait in soybean that is closely associated with yield potential. Nevertheless, the molecular mechanisms underlying its regulation remain largely elusive. In this study, we employed a recombinant inbred line ...
Glucose mitigates spatial heterogeneous cold damage in wheat via enhanced carbohydrate allocation to spike [0.03%]
糖缓解小麦花序冷害的时空异质性机制:增强碳向穗部运输的作用
Bing Dai,Pedro García-Caparros,Fasih Ullah Haider et al.
Bing Dai et al.
Low temperature during the reproductive stage, particularly late-spring cold events, severely threatens wheat (Triticum aestivum L.) yield. This study explored how exogenous glucose promotes the source-flow-sink balance under low temperatur...
Mechanisms of Trichoderma-induced plant immunity: an RNA-epigenetic perspective [0.03%]
从RNA表观遗传学角度解析木霉诱导的植物免疫机制
Yifan Dong,Golam Jalal Ahammed
Yifan Dong
Root-associated beneficial microbes can enhance plant resistance at the systemic level without triggering constitutive defense activation, yet how such durable and low-cost immune states are established remains poorly understood. Plant-Tric...
JsMYB170 modulates flavonols biosynthesis through facilitation of JsFLS1/5 expression in pellicle of Juglans sigillata Dode [0.03%]
JsMYB170通过促进JsFLS1/5在Juglans sigillata果皮中表达来调节黄酮醇生物合成
Tiantian Fei,Chunxiang Li,Na Wang et al.
Tiantian Fei et al.
J. sigillata produces abundant flavonols such as rutin and myricetin in pellicle, which provide various benefits to human health. However, the transcriptional regulation of flavonols biosynthesis in pellicle of J. sigillata remains unclear....
Multiple-layered fine-tuning of flowering locus C --- Flowering control and beyond [0.03%]
开花调控及其他:成花关键基因FT的多重顺式调控网络
Wenfeng Huang,Yujian Mo,Xiaolin Liang et al.
Wenfeng Huang et al.
FLOWERING LOCUS C (FLC) is a MADS-box transcription factor that integrates diverse internal and environmental signals to precisely regulate the growth and development of plants. While historically characterized as a key repressor of floweri...
Transcriptome profiling of AP2/ERF family members and functional characterization of CaAP2/ERF99 in pepper defense against Phytophthora capsici [0.03%]
基于转录组测序的辣椒AP2/ERF家族抗病基因CaAP2/ERF99的功能分析
Jie Wang,Muhammad Azeem,Yawei Li et al.
Jie Wang et al.
Phytophthora blight, caused by the notorious oomycete pathogen, Phytophthora capsici, is a devastating disease of pepper worldwide. Transcription factors (TFs) play pivotal roles in modulating host immune networks during pathogen attack. Am...