Abscisic acid promotes RBOH-dependent reactive oxygen species production and lignin biosynthesis in pears via the PuABI5-PuMYB169 module [0.03%]
脱落酸通过PuABI5-PuMYB169模块促进RBOH依赖的活性氧产生和木脂素生物合成以抵御梨火疫病菌入侵
Huili Sun,Yinan Sun,Lijiao Lu et al.
Huili Sun et al.
Pear stone cell lignification, a critical determinant of fruit texture and quality, is regulated by developmental and environmental cues, with abscisic acid (ABA) playing a central role. However, the molecular mechanisms underlying its role...
A Scots pine 4-coumarate:CoA ligase with high cinnamic acid affinity is the primary candidate for pinosylvin biosynthesis [0.03%]
一种对桂皮酸亲和力强的松树杨梅4-香豆酸:CoA连接酶是松疏素生物合成的主要候选酶
Steven Taniwan,Renata Ndah,Kean-Jin Lim et al.
Steven Taniwan et al.
Pinosylvin and its derivatives are defense-related stilbenoids that contribute to pathogen and decay resistance of Scots pine (Pinus sylvestris L.) heartwood. While most enzymes in the pinosylvin biosynthesis pathway in Scots pine have been...
High-efficiency genome-editing, transgene evaluation, and antimicrobial efficacy testing using Citrus medica L. hairy roots [0.03%]
高效柑橘基因组编辑、转基因评价及抗菌效果测试利用芸香毛状根系进行
Aditya Kulshreshtha,Manikandan Ramasamy,Sonia Irigoyen et al.
Aditya Kulshreshtha et al.
Huanglongbing (HLB) disease, associated with the fastidious bacterium Candidatus Liberibacter asiaticus (CLas), has a significant impact on citrus production worldwide. Conventional biochemical and genetic evaluation studies to identify pot...
Abnormal meiocytes and tapetum 1 (OsAMT1) is essential for proper meiosis and tapetal development in rice [0.03%]
水稻异常孢母细胞和绒毡层1(OsAMT1) 基因对水稻减数分裂和绒毡层发育至关重要
Bowen Yao,Yang Hu,Hai Zheng et al.
Bowen Yao et al.
In higher plants, both normal meiosis and timely degradation of tapetal cells are crucial for gametophyte development, and abnormal reactive oxygen species (ROS) levels are detrimental to this process. However, the molecular mechanisms unde...
The CsMYB44-CsICE1 module mediates flavonoid and catechin biosynthesis to regulate cold tolerance in tea plants (Camellia sinensis) [0.03%]
CsMYB44-CsICE1模块介导类黄酮和儿茶素生物合成以调控茶树的耐冷性
Chenyu Shao,Qian Zhu,Rong Xu et al.
Chenyu Shao et al.
The tea plant is an economically important perennial crop whose yield and quality are severely constrained by cold stress. With the increasing frequency of extreme weather events, elucidating the molecular basis of cold tolerance is therefo...
Luis de Luna Valdez
Luis de Luna Valdez
Plasticity of sympodial leaves in the cotton boll-leaf system governs single boll weight by modulating photosynthetic assimilate supply [0.03%]
棉铃叶系统中的 sympodial 叶片的可塑性通过调节光合同化物供应控制单铃重
Peng Yan,Xuejiao Li,Wenhui Shan et al.
Peng Yan et al.
In the formation of cotton yield, the source-sink relationship exhibits inherent complexity, resulting in persistent controversy over photosynthetic organ contributions to single boll weight. In modern cultivars under high-density planting ...
Peptide signaling at the intersection of growth, nutrient sensing, and stress responses [0.03%]
肽信号在生长、营养感应和压力响应的交汇处的作用
Patricia Zecua-Ramirez,Vikram Jha,Martin Stegmann
Patricia Zecua-Ramirez
Plant endogenous peptides emerge as central regulators of multiple aspects of plant physiology. They are secreted from cells and perceived by plasma membrane localized receptors, which activate downstream signaling pathways to regulate grow...
How to host rhizobia: the role of EXPANSIN1 during rhizobial colonization in Lotus [0.03%]
宿根马利筋的EXPANSIN1在根瘤菌定殖中的作用
Gwendolyn K Kirschner
Gwendolyn K Kirschner
miR9772, a Triticum-specific miRNA involved in regulating wheat salt tolerance and grain size [0.03%]
特异性的Triticum miR9772通过调控小麦的耐盐性及籽粒大小发挥作用
Wenqiu Pan,Chuyang He,Longjiao Hu et al.
Wenqiu Pan et al.
Salt stress severely impairs crop productivity worldwide. MicroRNAs (miRNAs) are a class of endogenous small noncoding RNAs, which played the crucial role in regulating plant growth, development as well as stress responses at the posttransc...