Strigolactones enhance apple drought resistance via the MsABI5-MsSMXL1-MsNAC022 cascade [0.03%]
独脚金内酯通过MsABI5-MsSMXL1-MsNAC022信号级联增强苹果抗旱性
Xiang Zhang,BingYang Du,Maihemuti Turupu et al.
Xiang Zhang et al.
Drought stress limits plant growth, development, and yield in apple (Malus). Strigolactones (SLs) work with abscisic acid (ABA) to improve drought resistance in plants, but how this synergistic mechanism functions remains unclear. Here, we ...
The SmWRKY32-SmbHLH65/SmbHLH85 regulatory module mediates tanshinone biosynthesis in Salvia miltiorrhiza [0.03%]
SmWRKY32-SmbHLH65/SmbHLH85调控模块介导了丹参中丹参酮的生物合成
Xiumin Nie,Xueying Li,Bingbing Lv et al.
Xiumin Nie et al.
Tanshinones are valuable compounds found in Salvia miltiorrhiza, and gaining a deeper understanding of their transcriptional regulation mechanisms is a key strategy for increasing their content. Previous research revealed that SmWRKY32 acts...
Evergreen citrus trees exhibit distinct seasonal nitrogen remobilization patterns between mature leaves and bark [0.03%]
柑橘类树木的成熟叶片和树皮间具有明显的季节性氮再利用模式
Huaye Xiong,Bin Hu,Jie Wang et al.
Huaye Xiong et al.
Seasonal nitrogen (N) storage and remobilization are critical for tree growth. Deciduous trees primarily store N in bark; evergreen trees utilize both mature leaves and bark. Citrus is an evergreen species; leaf N storage and remobilization...
A single-base mutation in promoter of CsTPR enhances the negative regulation on mechanical-related leaf drooping in tea plants [0.03%]
茶树叶片机械性垂下的单碱基突变体CsTPR的研究
Haoran Liu,Lingxiao Duan,Chaqin Tang et al.
Haoran Liu et al.
Mechanical harvesting in the tea industry has become increasingly essential due to its advantages in increasing productivity and reducing labor costs. Leaf droopiness caused a high rate of broken leaves, hindering the mechanized harvesting ...
Nitrogen addition influences tomato resistance to the destructive invasive pest Tuta absoluta [0.03%]
施氮影响番茄对破坏性入侵害虫西红柿叶miner的抗性研究
Zichao Song,Cheng Qu,Ziying Liu et al.
Zichao Song et al.
VaMIEL1-mediated ubiquitination of VaMYB4a orchestrates cold tolerance through integrated transcriptional and oxidative stress pathways in grapevine [0.03%]
瓦葡萄中的VaMIEL1介导的VaMYB4a泛素化通过转录和氧化应激通路整合调控耐冷性
Yaping Xie,Kai Lv,Qinhan Yu et al.
Yaping Xie et al.
Cold stress poses a significant threat to viticulture, particularly under the increasing pressures of climate change. In this study, we identified VaMIEL1, a RING-type E3 ubiquitin ligase from Vitis amurensis, as a negative regulator of col...
Correction to: A high-quality Bougainvillea genome provides new insights into evolutionary history and pigment biosynthetic pathways in the Caryophyllales [0.03%]
correction to:高质量的三角梅基因组为理解蓼科植物进化历史和色素生物合成途径提供新见解
[This corrects the article DOI: 10.1093/hr/uhad124.]. © The Author(s) 2024. Published by Oxford University Press on behalf of Nanjing Agricultural Unive...
Published Erratum
Horticulture research. 2023 Jun 13;11(1):uhad264. DOI:10.1093/hr/uhad264 2023
Metabolite-mediated responses of phyllosphere microbiota to powdery mildew infection in resistant and susceptible black currant cultivars [0.03%]
抗病和感病黑加仑品种叶片微生物群对白粉病侵染的代谢介导响应
Xueying Zhao,Along Chen,Xiaonan Gong et al.
Xueying Zhao et al.
Plant-metabolite-microbe interactions play essential roles in disease suppression. Most studies focus on the root exudates and rhizosphere microbiota to fight soil-borne pathogens, but it is poorly understood whether the changes in phyllosp...
Loss-of-function mutations in the fruit softening gene POLYGALACTURONASE1 doubled fruit firmness in strawberry [0.03%]
草莓软化基因POLYGALACTURONASE1的功能丧失型突变使果实硬度增加一倍
Nicolás P Jiménez,Marta Bjornson,Randi A Famula et al.
Nicolás P Jiménez et al.
Wildtype fruit of cultivated strawberry (Fragaria [Formula: see text] ananassa) are typically soft and highly perishable when fully ripe. The development of firm-fruited cultivars by phenotypic selection has greatly increased shelf-life, de...
Genomic data uncover complex hybridization and evolutionary history of the bunchberry species complex (Cornus L., Cornaceae) [0.03%]
基因组数据揭示了番珠属物种复合体(蔷薇虎耳草属 虎耳草科)复杂的杂交和进化历史
Yanxia Sun,Winbin Zhou,Qiu-Yun Jenny Xiang
Yanxia Sun