Metabolomics and Transcriptomic Analysis Revealed the Response Mechanism of Maize to Saline-Alkali Stress [0.03%]
代谢组学和转录组学分析揭示了玉米对盐碱胁迫的响应机制
Chunlai Wang,Xiaotong Wei,Yimeng Wang et al.
Chunlai Wang et al.
Saline-alkali stress inhibited the normal growth and development of plants, which seriously restricted the yield of crops. Maize is one of the most important crops in the world. However, the mechanism of maize in response to saline-alkali s...
An Ultra-Sensitive Quarantine Pathogen On-Site Detection Based on a One-Pot Asymmetric Recombinase Polymerase Amplification and MNAzyme-Assisted Target Recycling Biosensor (OAR-MNA) [0.03%]
基于一次性不对称重组酶聚合酶扩增和MNayme辅助目标再循环生物传感器的超高灵敏度检疫病原体现场检测法(OAR-MNA)
Lei Yang,Guanwei Chen,Yongming Bo et al.
Lei Yang et al.
The dissemination of quarantine pathogens poses a significant risk to global crop production, threatening crop health and disrupting agroecosystems. Timely and accurate on-site detection is crucial to prevent outbreaks. Recombinase polymera...
The Module WmABF1-1-WmMYB111 Manipulates the Leaf Senescence of Welwitschia by Integrative Regulation of Abscisic Acid Biosynthesis, Chlorophyll Degradation and Nitrogen Transportation [0.03%]
ABA生物合成、叶绿素降解和氮运输的整合调控基因模块WmABF1-1-WmMYB111控制露兜树叶片衰老
Han Xu,Qingqing Song,Junnan Wan et al.
Han Xu et al.
Welwitschia mirabilis has been well noted for its two continuously grown leaves which could survive for thousands of years in the desert. Compared to great efforts on elucidation of Welwitschia's leaf adaptivity to external stresses, the re...
The SNL Histone Deacetylase-Binding Factor GmHE13 Is a Novel Regulator of Soybean Hypocotyl Elongation [0.03%]
SNL组蛋白去乙酰化酶结合因子GmHE13调控大豆下胚轴伸长的新功能
Zhikang Shen,Lili Zhuang,Wenqian Zhang et al.
Zhikang Shen et al.
Hypocotyl elongation is one of the key events during seed germination and seedling establishment, determining the field performance and yield of soybean. In this study, using a genome-wide association study (GWAS) method, we identified a ca...
UV-B Responsive Flavonoid Synthesis Contributes to Tartary Buckwheat High-Altitude Adaption [0.03%]
UV-B响应的黄酮合成对苦荞高海拔适应性的贡献
Yuanfen Gao,Tanzim Jahan,Lin Hao et al.
Yuanfen Gao et al.
High-altitude environments expose plants to increased levels of UV-B radiation, necessitating the evolution of protective mechanisms to mitigate stress. Buckwheat is a flavonoid-rich pseudocereal naturally adapted to high-altitude environme...
Dual Regulation of Cuticle and Cell Wall Biosynthesis by BnaC9.MYB46 Confers Drought Tolerance in Brassica napus [0.03%]
油菜中超强MYB46通过双重调节调控角质层和细胞壁生物合成以响应干旱胁迫
Shurong Jing,Yuxin Wang,Yuyang Song et al.
Shurong Jing et al.
The plant cuticle and cell wall are pivotal extracellular barriers safeguarding crops against drought, yet their coordinated regulation remains poorly understood. Here, we identify BnaC9.MYB46, an R2R3-MYB transcription factor in the polypl...
Alfalfa Transcription Factor MsNAC2a Orchestrates the Homeostasis of Salt Stress Responses via Reactive Oxygen Species Accumulation and Hydrogen Sulphide Depletion [0.03%]
盐胁迫下MsNAC2a通过ROS积累和H₂S耗竭介导的逆境代谢平衡网络响应机制研究
Songchong Lu,Yan Sun,Zhaozi Wang et al.
Songchong Lu et al.
Soil salinisation poses a significant threat to alfalfa (Medicago sativa L.) growth and development, limiting its productivity and hindering its widespread cultivation. Hydrogen sulphide (H2S) serves as an important gaseous signalling molec...
Rice RING E3 Ligase OsRMT1 Negatively Regulates Salt Tolerance by Degrading the Canonical Salt-Responsive Protein OsMBL1 [0.03%]
OsRMT1通过降解典型盐响应蛋白OsMBL1负调控水稻耐盐性
Wenjuan Zhang,Kun Jing,Jun Zhu et al.
Wenjuan Zhang et al.
Excessive salinity is a major non-biological stressor that hinders plant development and reduces agricultural productivity. In rice, a jacalin-related mannose-binding lectin (OsMBL1) is known to be a canonical salt-responsive factor, but it...
Synthetic Polyploidisation Enhances Fusarium graminearum Tolerance in Wheat by Reshaping the Transcriptome and Strengthening the Microbiome [0.03%]
合成多倍体育种通过重塑转录组和增强微生物群来提高小麦对玉蜀黍赤霉菌的耐受性
Xin He,Xiaolin Wang,Hao Li et al.
Xin He et al.
Polyploidisation is a natural evolutionary mechanism that enhances plant stress tolerance and environmental adaptability; however, its impact on microbiome homeostasis remains poorly understood. In this study, we selected a nascent euploid ...
A Repression-Activation System Involving miR164a-NACs Regulates Tissue-Specific Anthocyanin Accumulation in Peach Fruit [0.03%]
miR164a-NACs抑制激活系统调控桃果实组织特异性花青素积累
Ling Liang,Jiazhen Zhu,Wanyi Yang et al.
Ling Liang et al.
Anthocyanins are often responsible for fruit colour, determining their commercial value and providing nutritional benefits. In this study, differential anthocyanin accumulation in peel, outer flesh near the peel (OF) and inner flesh around ...