Rice black-streaked dwarf virus-encoded P6 protein impairs OsPelota-mediated antiviral RNA decay defense via promoting OsSCE1b ubiquitination and degradation in rice [0.03%]
水稻条纹病毒编码的P6蛋白通过促进OsSCE1b泛素化降解来干扰OsPelota介导的抗病毒RNA衰减防御反应
Yi Xie,Ming Zeng,Dan Wang et al.
Yi Xie et al.
Rice black-streaked dwarf virus (RBSDV) is a major viral pathogen threatening rice production worldwide. However, the molecular mechanisms underlying the arms race between RBSDV and its host remain largely elusive. Here, we demonstrate that...
Tomato TGase positively regulates thermotolerance by inducing polyamine to activate autophagy [0.03%]
番茄TGase通过诱导多胺激活自噬来正向调控热胁迫耐受性
Min Zhong,Qingshen Cui,Yan Yang et al.
Min Zhong et al.
Transglutaminases (TGases) are multifunctional enzymes involved in stress responses, while autophagy is a key cellular degradation process. However, the relationship between TGases and autophagy in the plant heat stress response remains poo...
TaIRE1-mediated unconventional splicing of the TabZIP60 mRNA and the miR172 precursor regulates heat stress tolerance in wheat [0.03%]
TaIRE1介导的小麦TabZIP60 mRNA和miR172前体非常规剪接调控热应激耐受性
Haoran Li,Zhen Qin,Xiaoli Geng et al.
Haoran Li et al.
INOSITOL-REQUIRING ENZYME 1 (IRE1) is conserved in plants and mammals to regulate stress responses. Here, we found that TaIRE1 is involved in the unconventional splicing of cell membrane-localized TabZIP60 messenger RNA (mRNA), which result...
The horizontally transferred gene, CsMTAN, rewired purine traffic to build caffeine factories in tea leaves [0.03%]
一个水平转座基因CsMTAN重新布线嘌呤运输在茶叶中建立咖啡因工厂
Xinxin Jia,Xiaoliang Zhang,Xueli Chen et al.
Xinxin Jia et al.
Purine-related metabolites are central to primary metabolic pathways in plants and serve as precursors for purine alkaloid biosynthesis in caffeinated species such as tea plants (Camellia sinensis). In this study, metabolite profiling of tw...
Genetic variation for adaptive evolution in response to changed environments in plants [0.03%]
植物适应性进化应对环境变化的遗传变异
Jing Hou,Meng Liu,Kai Yang et al.
Jing Hou et al.
Plants adapt to their local environments through natural or artificial selection of optimal phenotypes. Recent advances in genomics and computational biology, which integrate phenotypic and multi-omics data, have facilitated the rapid ident...
GIGANTEA-LATE ELONGATED HYPOCOTYL complex regulates citrus drought tolerance and drought induced flowering [0.03%]
GIGANTEA-LATE ELONGATED HYPOCOTYL复合体调控柑橘耐旱性和干旱诱导的开花反应
Tian-Liang Zhang,Min Chen,Yong-Huan Wan et al.
Tian-Liang Zhang et al.
Drought severely impedes plant growth and production as a primary abiotic stress. GIGANTEA (GI) regulates flowering and responds to various stresses in model plants; however, its function remains poorly understood in non-model plants. In th...
Mitochondrial complex I assembles via a distal-pump module (PD)-early and PD-late pathway in maize [0.03%]
玉米线粒体复合物I通过远-泵模块(PD)早期和PD晚期途径组装
Baoyin Chen,Manna Huang,Junjun Wang et al.
Baoyin Chen et al.
The L-shape mitochondrial complex I (CI) consists of four modules: nicotinamide-adenine dinucleotide hydrogen-binding module (N) and ubiquinone-binding module (Q) in the matrix arm and proximal-pump module (PP) and distal-pump module (PD) i...
A plant viral effector disrupts ALD1-OSB1 immunity module to suppress chloroplast defenses [0.03%]
一个植物病毒效应子通过破坏ALD1-OSB1免疫模块来抑制叶绿体防御反应
Zuxian Pan,Yaqin Wang,Fangfang Li et al.
Zuxian Pan et al.
Chloroplasts are central to plant immunity, with the chloroplast-localized protein AGD2-LIKE DEFENSE RESPONSE PROTEIN 1 (ALD1) playing a critical role in producing pipecolic acid (Pip), a key immune signal. However, the regulation of ALD1 a...
Leaf multi-dimensional stoichiometry as a robust predictor of productivity on the Tibetan Plateau [0.03%]
叶片多维化学计量学可作为青藏高原生产力的稳健预测指标
Xin Li,Jiahui Zhang,Kathrin Rousk et al.
Xin Li et al.
Accurately predicting gross primary productivity (GPP) is crucial for understanding carbon cycling; however, most studies have predominantly investigated GPP using only environmental metrics, overlooking the pivotal role of functional trait...
OsDNR1 as a key regulator of rice resistance to 4-hydroxyphenylpyruvate dioxygenase-inhibiting herbicides [0.03%]
OsDNR1作为水稻抵抗4-羟基苯丙酮酸双氧化酶抑制型除草剂的关键调控因子
Yang Li,Xitie Ling,Wenting Zhang et al.
Yang Li et al.
DULL NITROGEN RESPONSE 1 (OsDNR1) is a key gene in rice resistance to herbicides that target 4-hydroxyphenylpyruvate dioxygenase, which are phytotoxic due to their effects on homogentisic acid levels. Knocking out OsDNR1 leads to hydroxyphe...