PsGA2ox2 is a novel target of miR159 involved in endodormancy regulation in tree peony (Paeonia suffruticosa) [0.03%]
miR159通过靶标PsGA2ox2参与牡丹芽休眠调控
Wenyu Gai,Xinyu Wang,Yongli Zhao et al.
Wenyu Gai et al.
In deciduous woody plants, buds enter endodormancy in late autumn, and endodormancy release (EDR) is a essential for regrowth. In tree peony, endodormancy is a major obstacle to forcing culture, an important component of its industry. Both ...
Genetic control of tomato fruit cracking through SlPMEI27-dependent pectin modification [0.03%]
SlPMEI27依赖的果胶修饰控制番茄果实日灼病遗传机制
Fanyue Meng,Haonan Qi,Zhen Ding et al.
Fanyue Meng et al.
Fruit cracking severely affects tomato quality and yield. By utilizing genetic transformation, knockout of the SlPMEI27 gene can enhance the activity of pectin methylesterases (PMEs). Here, by conducting an immunofluorescence analysis, we o...
Cold storage delays peach fruit softening via m6A reader PpYTHDFE1 liquid-liquid phase separation-mediated degradation of cell wall-loosening transcript PpEXP3 [0.03%]
冷贮藏通过PpYTHDFE1介导的液-液相分离降解细胞壁松弛转录本PpEXP3来抑制桃果实软化
Hanqing Wang,Hanxiao Bian,Xubin Wu et al.
Hanqing Wang et al.
N6-methyladenosine (m6A), the most prevalent epitranscriptomic modification in plant mRNAs, functions as a critical regulatory layer governing environmental response. Refrigeration reduces transcripts of cell wall enzymes to delay softening...
Convergent roles of BcGUN4.1, BcSG1, BcCHLH, and BcTPR4 in regulating the leaf greenness of non-heading Chinese cabbage [0.03%]
BcGUN4.1、BcSG1、BcCHLH 和 BcTPR4 在不结球白菜叶片绿色度调控中的收敛作用
Aimei Bai,Li Gong,Xinya Wang et al.
Aimei Bai et al.
Non-heading Chinese cabbage (NHCC) extensively cultivated as a leafy vegetable in China, displays diverse leaf coloration, with green being an essential trait. Leaf greenness, determined by chlorophyll and carotenoid contents, is a crucial ...
LncRNA7503 decreases peach (Prunus persica) branch number and angle by inducing pre-miR395a degradation and reducing bioactive BR content [0.03%]
桃(Persica comm.)长非编码RNA LncRNA7503通过诱导pre-miR395a降解和降低生物活性BR含量来减少分枝数量和角度
Xiaobei Wang,Hefang Xie,Wan Pei et al.
Xiaobei Wang et al.
Peach (Prunus persica L.) branch number and angle significantly influence orchard management efficiency, fruit yield, and quality. However, few reports exist on genes regulating both traits characteristics. This study utilized miRNA sequenc...
Epitranscriptomic profiling of cytosine N4 acetylation (ac4C) in Solanum lycopersicum and dynamic changes under heat stress condition [0.03%]
番茄tRNA中N4-乙酰基胞嘧啶的表观转录组学分析及热胁迫响应动态变化
Wanhong Zhang,Yubing Jiao,Yanxiao Bu et al.
Wanhong Zhang et al.
N4-acetylcytidine (ac4C), which is an evolutionarily conserved RNA modification in eukaryotes, functions as a critical epitranscriptomic regulator that enhances mRNA stability and translation efficiency. In Arabidopsis thaliana and Oryza sa...
Carotenoid aggregates negatively impact chlorophyll levels and disrupt chloroplast development in peaches [0.03%]
类胡萝卜素聚合物通过干扰叶绿体发育从而影响叶片中叶绿素的水平及含量——以桃树为例研究
Pengfei Wang,Xulei Zhao,Lipeng Liu et al.
Pengfei Wang et al.
Peach (Prunus persica L. Batsch) is among the most economically important fruit tree crops. Carotenoids in peach fruit have been intensively studied because of their relationship with fruit color and nutritional value. High carotenoid accum...
High-quality genome assembly of Aglaia odorata reveals evolution, terpenes diversity and abundance in Meliaceae [0.03%]
高良姜高质量基因组组装揭示了麻树科的进化、萜类多样性及丰富度
Zhiyu Chen,Xingyu Yang,Tianyu Yang et al.
Zhiyu Chen et al.
Meliaceae species are known for producing diverse metabolites, yet the role of whole-genome duplication (WGD) in shaping this diversity remains unclear. In this study, we analyzed volatile metabolites in Azadirachta indica, Toona ciliata an...
Dissecting G-protein signaling pathways in the fruit pathogen Penicillium expansum: implications for pathogenesis and patulin production [0.03%]
灰绿青霉中G蛋白信号通路的解析:对致病性和.patulin产生的影响
Yong Chen,Dongying Xu,Mengyang Xing et al.
Yong Chen et al.
Penicillium expansum causes blue mold in various fruits and produces patulin, a mycotoxin of significant economic and food safety concern. Fungal infection relies on sensing and adapting to environmental cues via G-protein signaling pathway...
Haplotype-resolved genome assembly provides insights into the unique floral scent of Rosa rugosa originated in China [0.03%]
单倍体型基因组解析揭示了中国原产玫瑰的特有花香特色
Xi Cheng,Xin Geng,Dan Gao et al.
Xi Cheng et al.
Rosa rugosa is an important aromatic plant and produces flowers that are used in medicine, food, plant essential oils, hydrosols, and other aromatic products. 2-phenylethanol (2-PE) is the main effective substance in the volatile organic co...