Unveiling the catalytical roles of three glycosyltransferases in triterpenoid saponins in quinoa [0.03%]
鉴定三种半乳糖转移酶在藜中三萜皂苷生物合成中的催化作用
Yiming Zhang,Peng Zhu,Long Wu et al.
Yiming Zhang et al.
Saponins constitute a class of characteristic compounds within quinoa grains. In this study, metabolomic analysis identified 20 triterpene saponins, the majority of which were exclusively localized within the pericarp. Furthermore, three cr...
Understanding plant phenotypes in crop breeding through explainable AI [0.03%]
通过可解释的人工智能理解植物表型在作物育种中的作用
Monica F Danilevicz,Shriprabha R Upadhyaya,Jacqueline Batley et al.
Monica F Danilevicz et al.
Machine learning use in plant phenotyping has grown exponentially. These algorithms empowered the use of image data to measure plant traits rapidly and to predict the effect of genetic and environmental conditions on plant phenotype. Howeve...
High-permeability cellulose nanocrystals mediate systemic zinc redistribution through nsLTP2-dependent immune potentiation in plants [0.03%]
高通透性纤维素纳米晶体通过植物nsLTP2依赖的免疫增强介导系统性锌重新分布
Jing Wang,Shunyu Xiang,Xiaoyan Wang et al.
Jing Wang et al.
Zinc (Zn2+) is an essential micronutrient that regulates plant growth, immunity and antiviral defence mechanisms. However, its limited bioavailability often necessitates excessive application, resulting in inefficiencies in production and e...
Genome-wide association study uncovers a novel gene responsible for rice seedling submergence tolerance [0.03%]
全基因组关联分析发掘水稻幼苗耐淹新基因
Xueli Lu,Long Yang,Lan Shen et al.
Xueli Lu et al.
Submergence tolerance is crucial for the direct seeding of rice, yet long-term domestication and breeding have inadvertently reduced the adaptability of cultivated rice to submergence stress. Here, we identify a nucleic acid excision repair...
Largest genome assembly in Brassicaceae: retrotransposon-driven genome expansion and karyotype evolution in Matthiola incana [0.03%]
十字花科最大的基因组组装:长末端重复序列驱动的拟丽铃花基因组扩张和染色体进化
Daozong Chen,Taihua Yang,Haidong Chen et al.
Daozong Chen et al.
Matthiola incana, commonly known as stock and gillyflower, is a widely grown ornamental plant whose genome is significantly larger than that of other species in the mustard family. However, the evolutionary history behind such a large genom...
Ripening-induced defence signalling in Botrytis cinerea-infected tomato fruits involves activation of ERF.F4 by a MYC2-NOR/RIN protein complex [0.03%]
灰葡萄孢侵染的番茄果实中MYC2-NOR/RIN蛋白复合体活化ERF.F4诱导成熟信号转导
Shan Li,Yulin Huang,Yu Zhao et al.
Shan Li et al.
Fleshy fruits are commercially and nutritionally important but become more susceptible to pathogens as they ripen. Active defence mechanisms continue to function in ripe fruits but they are influenced by ripening regulators and ripening out...
Developing downstream processes for the purification of recombinant proteins and small molecules from Nicotiana benthamiana biomass [0.03%]
来自弯胞斑纹烟草生物量的重组蛋白和小分子的下游工艺开发及纯化过程
J F Buyel
J F Buyel
Nicotiana benthamiana (Australian tobacco) has become a major host for plant-based recombinant protein production, especially using transient expression. Once a candidate protein has been designed and produced in a suitable variety (e.g. fa...
N6-methyladenosine RNA modification regulates light intensity-dependent terpenoid biosynthesis in Schizonepeta tenuifolia [0.03%]
北丹参中N6-甲基腺苷rna修饰调控光照强度依赖性倍半萜生物合成
Man Zhang,Qingyi Zhang,Zhirong Chen et al.
Man Zhang et al.
Schizonepeta tenuifolia Briq. (S. tenuifolia) is a traditional Chinese medicinal plant widely used to treat colds, fever and respiratory diseases. Volatile oils including the monoterpenoids limonene, pulegone and menthone are major constitu...
TCP19 regulates nitrogen-dependent sheath blight susceptibility by modulating nitrogen uptake and signalling in rice [0.03%]
氮依赖的水稻白叶枯病敏感性调控基因TCP19的克隆及功能分析
Tiange Zhou,Huan Chen,Xu Jiang et al.
Tiange Zhou et al.
The excessive application of nitrogen fertilization improves rice yield, but increases disease severity. However, the underlying molecular mechanisms remain unclear. Here, we conducted a comparative analysis of nitrogen- and R. solani-regul...
Planthopper protein Nlsp5 is essential for salivary sheath formation and acts as a HAMP inducing plant resistance to insects [0.03%]
_planthopper蛋白Nlsp5在唾液鞘形成中起重要作用并充当HAMP以诱导植物抗虫性_
Liangxuan Qi,Jing Li,Han Wang et al.
Liangxuan Qi et al.
During herbivore feeding, plants can recognize herbivore-associated molecular patterns (HAMPs) present in saliva and trigger pattern-triggered immunity (PTI). Piercing-sucking insects secrete gel saliva, forming salivary sheaths that aid in...