Unlocking plant abiotic stress resilience through biostimulants and omics-driven innovations [0.03%]
基于组学的刺激物质驱动的植物非生物胁迫抗逆性研究进展
Muhammad Ateeq,Shariq Mahmood Alam,Muhammad Mohsin Kaleem et al.
Muhammad Ateeq et al.
Frequent changes in global climate enhance environmental cues, threaten agricultural systems, which jeopardizes food security, and impair the achievements of the United Nations Sustainable Development Goal 2 "Zero Hunger". To achieve a sust...
Exploration of diverse glycosyltransferases in Dracocephalum moldavica and engineering the production of bioactive flavonoid glycosides [0.03%]
Dracocephalum moldavica 植物中多样性的糖基转移酶的探究及活性黄酮糖苷的工程化生产研究
Dan-Dan Xu,Ni-Hong Du,Jia-Hui Li et al.
Dan-Dan Xu et al.
Dracocephalum moldavica L., an annual herb valued for its medicinal and ornamental properties, produces flavonoid glycosides like apigenin 7-O-glucuronide, scutellarein-7-O-glucuronide, and vitexin, which offer cardiovascular benefits. Howe...
A leucine-rich-repeat receptor-like kinase SERL1 phosphorylates and stabilizes OsALDH2B1 to promote alkaline tolerance and grain size in rice [0.03%]
水稻半胱氨酸丰富型脱氢酶OsALDH2B1的稳定化调控盐碱胁迫耐受及增粒分子机制研究
Zemin Ma,Xuanlin Gao,Shuaizu An et al.
Zemin Ma et al.
Enhancing crop resilience to guarantee stable, high yields under adverse conditions has long been a central goal of rice breeding, but it remains challenging because of inherent trade-offs. Here, we show that the transcriptional activity of...
Functional characterization of plant UGT93s producing prenylated phenolic glycosides [0.03%]
植物UGT93家族糖基转移酶的功能表征及其介导的茋类前药合成研究
Hong-Ye Li,Jian-Lin Zou,Bao Nie et al.
Hong-Ye Li et al.
Prenylated phenolic glycosides, such as nodakenin, represent a class of natural products with diverse bioactivities. Their metabolic engineering production remains largely unexplored, primarily due to the scarcity of efficient UDP-glycosylt...
Atypical NLR pairs in wheat: Sensor-helper NLRs conferring disease resistance [0.03%]
非典型的小麦NLR对:感病性NLR和抗病性NLR之间的相互作用
Yanbin Guan,Xuening Zhang,Zabta Khan Shinwari et al.
Yanbin Guan et al.
This commentary discusses new research showing that six structurally and functionally atypical NLR pairs in wheat confer disease resistance via a sensor NLR-helper NLR module. The functional mechanisms of some NLR pairs differ from the clas...
De novo stolon organogenesis in potato leaf callus elicited by Agrobacterium tumefaciens stimulus [0.03%]
植物病原菌诱导马铃薯愈伤组织产生新的匍匐茎器官发生的机理研究
Seung Yong Shin,Su-Jin Park,Ji-Sun Park et al.
Seung Yong Shin et al.
Plant cells can undergo cellular reprogramming, enabling pluripotent callus formation from excised leaves. Despite this pluripotency, organs regenerated from leaf callus have predominantly been confined to conventional shoots and roots, lea...
Tandemly duplicated TaERF109 genes confer drought tolerance and post-drought recovery in wheat [0.03%]
成对重复基因TaERF109赋予小麦抗旱性和灾后恢复力
Jun Chen,Shang Zhao,Wenjing Li et al.
Jun Chen et al.
To adapt to environmental challenges, plants have evolved extensive gene families through duplication events, generating multiple-copy genes that mediate stress responses. However, the function of these duplicated genes in wheat remains unc...
Correction to "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%]
关于“水稻黑条矮缩病毒编码的P6蛋白通过促进OsSCE1b泛素化降解来削弱OsPelota介导的抗病毒RNA降解防卫”的校正论文
Published Erratum
Journal of integrative plant biology. 2026 Feb 25. DOI:10.1111/jipb.70204 2026
Dissecting the genetic basis of climatic adaptation in wild relatives (Malus baccata) for climate-resilient apple breeding [0.03%]
解析野生苹果近缘种(西伯利亚 Crabapple, Malus baccata)的气候适应性遗传基础,助力培育抗逆性苹果新品种
Ying Su,Yani Hao,Xuejing Cao et al.
Ying Su et al.
Climate change poses an increasing threat to global biodiversity and food security. As a wild relative of cultivated apples, Malus baccata exhibits broad environmental adaptability and robust stress tolerance. However, its effective utiliza...
A prominent role of the circadian proteins PRR5 and PRR7 in governing Arabidopsis immunity [0.03%]
拟南芥节律蛋白PRR5和PRR7在调控植物免疫中的重要作用
Shaoqin Li,Hailin Wang,Zumei Ye et al.
Shaoqin Li et al.
The circadian clock is an endogenous timekeeping mechanism that coordinates diverse biological processes across diverse organisms. Emerging evidence recently underscores its critical role in modulating plant immune responses. Salicylic acid...