From fundamental understanding to engineering carboxysomes for biotechnological applications [0.03%]
从基础研究到工程化利用羧酶体用于生物技术应用
Tianpei Li,Weixian Chen,Vincent Chriscoli et al.
Tianpei Li et al.
Carboxysomes are self-assembling proteinaceous microcompartments that encapsulate ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) and carbonic anhydrase within a semi-permeable shell, thereby elevating local CO2 concentrations aro...
Decoupling the 'Attract-and-Kill' Strategy: Independent Functions for Zoospore Attraction and ROS-Executed Killing Synergize in Disease-Suppressive Intercropping [0.03%]
“诱杀”策略的解耦:“游动孢子吸引”和“ROS执行杀菌”在抑病轮作中的独立功能及其协同作用
Yixiang Liu,Jiaqing Wu,Yuxin Yang et al.
Yixiang Liu et al.
Soilborne Phytophthora diseases pose a major threat to agricultural sustainability. How non-host roots disrupt the transmission of soilborne Phytophthora pathogens without relying on classical antimicrobial exudates remains unknown. Through...
DockingDB: an online reverse docking database for plant hormone research [0.03%]
对接数据库:植物激素研究中的在线反向对接数据库
Yi-Xiong Guo,Fenmei Liu,Xin-Dong Xu et al.
Yi-Xiong Guo et al.
DeepTYLCV: An interpretable and experimentally validated AI model for predicting virulence of different tomato yellow leaf curl virus strains [0.03%]
深TYLCSV: 一种可解释且经过实验验证的AI模型用于预测不同番茄黄化曲叶病毒株系的致病性
Nattanong Bupi,Hariharan Sangaraju,Duong Thanh Tran et al.
Nattanong Bupi et al.
Tomato yellow leaf curl virus (TYLCV) is among the most devastating pathogens affecting tomato production worldwide, with emerging virulent strains increasingly overcoming genetic resistance and triggering severe outbreaks. Traditional fiel...
The dehydrin protein COR15 enhances antiviral RNA silencing by preventing viral protein-mediated SGS3 degradation and promoting SGS3 condensate formation [0.03%]
脱水素蛋白COR15通过防止病毒蛋白介导的SGS3降解和促进SGS3凝聚物形成来增强抗病毒RNA沉默反应
Yong-Le Zhang,Zuo-Kun Yang,Zhe Zhang et al.
Yong-Le Zhang et al.
RNA silencing, a conserved gene regulatory mechanism mediated by small interfering RNAs (siRNAs), is a major component of plant antiviral immunity. The plant RNA-binding protein SUPPRESSOR OF GENE SILENCING 3 (SGS3) forms condensates that d...
Cysteine-rich secreted protein OsCRRSP1 enhances rice defense by dual inhibition of pathogen and rice catalases [0.03%]
半胱氨酸丰富分泌蛋白OsCRRSP1通过双重抑制病原体和水稻催化酶来增强水稻防御能力
Zaofa Zhong,Zichao Zheng,Minghui Zhai et al.
Zaofa Zhong et al.
Plants utilize reactive oxygen species (ROS) as key defense signals, while pathogens evolve mechanisms to disrupt ROS homeostasis. However, plant factors that directly counter pathogen ROS-scavenging effectors remain elusive. Here, we ident...
A multiplex hextuple luciferase assay for advancing cellular signaling analysis in plant cells [0.03%]
一种用于推进植物细胞信号转导分析的多重六通道荧光素酶检测试剂盒
Shanshan Song,Saloni Darji,Nathaniel Carter et al.
Shanshan Song et al.
Plant cell-based assays offer substantial cost and throughput advantages over in planta testing. Current protoplast-based cellular activity assays are single biological measurements that require rigorous control to normalize inherent experi...
Molecular and hormonal regulation of plant responses to waterlogging stress: From fundamental mechanisms to potential strategies of crop tolerance engineering [0.03%]
植物淹水胁迫响应的分子及激素调控机制研究:从基础理论到作物耐受性改良策略探讨
Zhengyuan Xu,Zheng Wang,Nanfei Jin et al.
Zhengyuan Xu et al.
Waterlogging is a major environmental constraint that severely restricts plant growth by causing oxygen deprivation and metabolic disruption in root zones. In response, plants activate sophisticated physiological and molecular mechanisms me...
The OsGSK1-OsBZR3-OsJAZ4 module integrates nitrate signaling with brassinosteroid and jasmonic acid crosstalk to drive cell wall remodeling for salt recovery in rice [0.03%]
OsGSK1-OsBZR3-OsJAZ4模块整合硝酸盐信号与油菜素和茉莉酸的交叉对话以驱动水稻盐分吸收中的细胞壁重塑
Huijing Yang,Kunyang Song,Hang Yu et al.
Huijing Yang et al.
Salinity stress severely limits rice productivity. Understanding how crops sustain growth during prolonged salt stress exposure is therefore of critical importance. Here, we demonstrate that a brassinosteroid (BR)-jasmonic acid (JA) signali...
The MBD4 chromatin reader regulates transcription related to temperature and flowering responses through recognition of histone arginine methylation in Arabidopsis thaliana and Brassica napus [0.03%]
MBD4染色质阅读蛋白通过识别组蛋白精氨酸甲基化调控拟南芥和油菜中与温度及开花相关的基因表达
José A Abelenda,Gerardo Carrera-Castaño,Julián Calleja et al.
José A Abelenda et al.
Precise regulation of flowering time in plants is achieved through the tight transcriptional control of master regulators, fine-tuned by the dynamics of histone modifications and structural chromatin alterations. In our search for flowering...