Ancheng Ma,Shuaibin Wang,Xinxi He et al.
Ancheng Ma et al.
The epigenomic landscape regulates gene expression and chromatin dynamics, with histone and RNA modifications playing crucial roles. Although studies have elucidated the interactions among chromatin modifications, DNA methylation, and mRNA ...
DU-Net-L: an effective and lightweight segmentation model for alfalfa images that integrates the strengths of DeepLabV3+ and U-Net [0.03%]
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Wei Tian,Kang Chong,Jingyu Zhang
Wei Tian
Alfalfa (Medicago sativa), a globally important crop known for its high yields, wide adaptability, and high protein content, provides an excellent feed source for livestock. Smart breeding, an emerging technology that integrates genomics an...
Robustness in jasmonate signaling: mechanisms of concerted regulation and implications for crop improvement [0.03%]
茉莉酸信号的鲁棒性:协同调控机制及其在作物改良中的应用
Ke Zhou,Tiantian Han,Bingqing Pan et al.
Ke Zhou et al.
The jasmonate signaling pathway coordinates plant defenses and growth, thereby enhancing fitness in changing conditions. Jasmonate-mediated responses are triggered by the recognition of external signals via pattern recognition receptors (PR...
FHBDSR-Net: automated measurement of diseased spikelet rate of Fusarium Head Blight on wheat spikes [0.03%]
基于深度学习的TKMP数据驱动模型:自动测量小麦穗赤霉病小穗率
Ze Wu,Haowei Zhao,Zeyu Chen et al.
Ze Wu et al.
Fusarium Head Blight (FHB), a fungal wheat (Triticum aestivum) disease that threatens global food security, requires precise quantification of diseased spikelet rate (DSR) as a phenotypic indicator for resistance breeding. Most techniques f...
The peanut Ubiquitin4 promoter drives stable gene overexpression and efficient multiplex CRISPR/Cas9 gene editing in peanut [0.03%]
花生Ubiquitin4启动子驱动稳定过表达和高效多重CRISPR/Cas9基因编辑
Yuanyuan Cui,Qianqian Zhang,Qingjing Meng et al.
Yuanyuan Cui et al.
The development of effective genetic transformation tools is crucial for advancing molecular breeding in peanut (Arachis hypogaea). In this study, we identified and characterized a Ubiquitin (UBQ) promoter from peanut and evaluated its pote...
The role of isoprenoids in the chemical interaction between plants and other organisms in their rhizosphere [0.03%]
异戊二烯类化合物在植物与其他根际生物之间化学作用中的作用
Harro Bouwmeester,Philipp Zerbe,Reuben J Peters et al.
Harro Bouwmeester et al.
Agriculture has become one of the largest users of non-renewable resources in the world and contributes heavily to resource depletion, environmental pollution, and climate change. Solutions to these problems are in dire need and these can p...
Nutrient storage and release in uninfected cells of soybean nodules support symbiotic nitrogen fixation in infected cells [0.03%]
大豆根瘤中非感染细胞的养分储存与释放支持感染细胞的共生固氮作用
Qian Liu,Qian Dong,Zhi-Chang Chen
Qian Liu
Symbiotic nitrogen fixation (SNF) between legumes and rhizobia contributes to sustainable agriculture. In root nodules, infected cells (ICs) are the primary sites of rhizobial colonization and nitrogen fixation. However, the function of the...
SnRK1 and TOR: central regulators of autophagy in plant energy stress responses [0.03%]
植物能量胁迫反应中自噬的核心调控因子SnRK1和TOR
Lei Feng,Xibao Li,Xuan-Ang Zheng et al.
Lei Feng et al.
Plants harness light through photosynthesis to produce chemical energy, a cornerstone of life on Earth. However, environmental challenges, such as insufficient light, nutrient deficiencies, and abiotic stresses, often disrupt energy availab...
Molecular mechanisms and crop improvement potential of RNA N6-methyladenosine in plants [0.03%]
植物中RNA的N6-甲基腺苷的分子机制及其在农作物改良中的潜在作用
Diyi Fu,Huiyuan Wang,Bochen Jiang
Diyi Fu
N6-methyladenosine (m6A) is the most prevalent internal modification in eukaryotic mRNAs and contributes to the post-transcriptional regulation of gene expression. In plants, m6A modulates RNA splicing, stability, and translation, thereby i...
Correction: Soyasaponin β-glucosidase confers soybean resistance to pod borer (Leguminivora glycinivorella) [0.03%]
订正:大豆皂苷β-葡萄糖甘酶使大豆具有抗食豆虫(Leguminivora glycinivorella)的能力
Chengyong Feng,Xindan Xu,Jia Yuan et al.
Chengyong Feng et al.
[This corrects the article DOI: 10.1007/s42994-025-00214-7.]. © The Author(s) 2025.
Published Erratum
aBIOTECH. 2025 Aug 5;6(3):580-585. DOI:10.1007/s42994-025-00219-2 2025