Blue-Light Only: How Horsetails Broke the Rules of Stomatal Control [0.03%]
破常规:瓶尔小草属植物如何只在蓝光下控制气孔发育
Ritu Singh,Erin Cullen
Ritu Singh
B-BOX22 isoforms activate expression of MYBs and elicit blue light-induced flavonoid biosynthesis in soybean [0.03%]
GmB-Box22 通过激活GmMYBL2和GmMYB109的表达诱导大豆黄酮类生物合成响应蓝光信号
Junyi Zhan,Haixia Wang,Mengyang Niu et al.
Junyi Zhan et al.
Soybean (Glycine max) accumulates a substantial amount of flavonoids, including anthocyanins and flavonols, which play essential roles in both plant growth and human health. While blue light promotes flavonoid biosynthesis, the regulatory c...
The peptide hormone RGF1 modulates PLETHORA2 stability via reactive oxygen species-dependent regulation of a cysteine residue [0.03%]
肽激素RGF1通过依赖活性氧的胱氨酸残基调节来调控PLETHOORMA2稳定性
Yu-Chun Hsiao,Shiau-Yu Shiue,Ming-Ren Yen et al.
Yu-Chun Hsiao et al.
The Root meristem growth factor 1 (RGF1) peptide extends the PLETHORA2 (PLT2) protein gradient by altering the distinct localization of superoxide (O2-) and hydrogen peroxide (H2O2) among the root developmental zones. However, the underlyin...
Focus Issue Editorial: Numeracy, Realism and Relevance in Plant Science [0.03%]
主题专刊:植物科学研究的量化、现实性和相关性
Jennifer A N Brophy,Yann-Rong Lin,Jacqueline V Shanks et al.
Jennifer A N Brophy et al.
ETHYLENE INSENSITIVE2-like protein mediates submergence and drought responses in Physcomitrium patens [0.03%]
地钱中乙烯不敏感蛋白参与淹水和干旱胁迫响应
Md Masudul Karim,Mousona Islam,Marcos Takeshi Miyabe et al.
Md Masudul Karim et al.
ETHYLENE INSENSITIVE 2 (EIN2) is an Nramp family transmembrane protein recognized as an essential component of ethylene signaling in angiosperms. However, its functions in other plant systems are not fully understood. Here, we demonstrate t...
The susceptibility factor RTP1 negatively regulates Arabidopsis immunity by interacting with the cytochrome P450 protein CYP71B3 [0.03%]
感病基因RTP1通过与细胞色素P450蛋白CYP71B3互作抑制拟南芥免疫反应
Yushu Wei,Deqian Zong,Yaling Tang et al.
Yushu Wei et al.
Oomycetes, particularly Phytophthora species, cause destructive plant diseases that severely threaten sustainable crop production. Due to the loss of genotype-specific disease resistance, it is important to identify and understand immune fa...
Light-regulated dual-targeting of NUCLEAR CONTROL OF PEP ACTIVITY establishes photomorphogenesis via interorganellar communication [0.03%]
光调控的NUCLEAR CONTROL OF PEP ACTIVITY双定位通过器官间通讯建立光形态发生
Jae-Hyung Lee,Thu Minh Doan,Abigail Bruzual et al.
Jae-Hyung Lee et al.
Interorganellar communication is essential for maintaining cellular and organellar functions and adapting to dynamic environmental changes in eukaryotic cells. In angiosperms, light initiates photomorphogenesis, a developmental program char...
A comprehensive model of tomato fruit ripening regulation by the transcription factors NOR-like1, NAC-NOR, and MADS-RIN [0.03%]
转录因子NOR-like1、NAC-NOR和MADS-RIN调控番茄果实成熟的综合模型
Victor Aprilyanto,Xiaowei Wang,Rufang Wang et al.
Victor Aprilyanto et al.
Tomato (Solanum lycopersicum) fruit ripening involves climacteric ethylene production, lycopene accumulation, texture softening, and flavour enhancement, a highly coordinated process accompanied by profound gene expression changes. To const...
The Transcription Factor LpWRKY65 Enhances Embryogenic Capacity through ROS Scavenging during Somatic Embryogenesis of Larch [0.03%]
油松体胚发生过程中转录因子LpWRKY65通过清除ROS提高合子胚的胚状体发生能力
Xiaoyi Chen,Luyao Zhang,Chengbi Liu et al.
Xiaoyi Chen et al.
Somatic embryogenesis is a powerful system for studying embryo development and scaling up the production of elite genetic material. Somatic embryogenesis has been well established in Larix principis-rupprechtii, a Chinese larch species domi...
The NLR protein CbAR9 and the hydrolase CbSAHH form a module driving systemic acquired resistance against Colletotrichum in pepper [0.03%]
辣椒中NLR蛋白CaAR9和水解酶CaSAHH形成模块驱动Colletotrichum的系统获得性抗性
Gunhee Lee,Sang Ryeol Park,Yujeong Jeong et al.
Gunhee Lee et al.
Anthracnose, which is caused by fungal pathogens of the genus Colletotrichum, poses a substantial threat to global pepper (Capsicum spp.) production. However, the principal regulators and signaling pathways that mediate anthracnose resistan...