The SNARE gene CwSYP121 enhances Ca²⁺ secretion and calcium tolerance of Ceratostigma willmottianum by modulating vesicle trafficking [0.03%]
SNARE基因CwSYP121通过调节囊泡转运增强willmott秋葵Ca²⁺分泌和钙耐受性
Cailei Liu,Long Guo,Yirui Li et al.
Cailei Liu et al.
Calcium salts are ubiquitous in soil environments, and their elevated levels can constrain plant development and diminish crop productivity. The secretion of calcium carbonate (CaCO₃) by chalk glands prevents excessive intracellular calciu...
Digital dimension of plant science research: A bird's eye view of AI integration [0.03%]
植物科学研究的数字维度:AI集成概览
Shakti Mehrotra,Sonal Mishra,Vikas Srivastava et al.
Shakti Mehrotra et al.
Plant science is undergoing a transformation through the integration of artificial intelligence (AI), high-throughput phenotyping, plant biotechnology and multi-omics, and smart digital technologies. The digitization of plant data from mole...
Heterologous expression of banana-derived NCED genes in Arabidopsis thaliana reveals their role in ABA-mediated stress adaptation [0.03%]
香蕉来源的NCED基因在拟南芥中的异源表达揭示其在ABA介导的逆境抗性反应中的作用
Naveen Kumar,Praveen Awasthi,Siddharth Tiwari
Naveen Kumar
Abiotic stress poses a major constraint on the growth and productivity of climacteric crops worldwide, including banana. Abscisic acid (ABA) is a key phytohormone regulating plant responses to abiotic stresses, and its biosynthesis is there...
The GmCYCLOPS paralogs regulate soybean nodulation and exhibit signatures during domestication [0.03%]
大豆结节调控基因GmCYCLOPS在驯化过程中的表达特征分析
Yuanting Lei,Zhi Liu,Qiang Chen et al.
Yuanting Lei et al.
CYCLOPS functions as a central regulator in legume-rhizobia symbiosis, but its role in cultivated soybean remains incompletely characterized. Through homology-based sequence analysis using Lotus japonicus LjCYCLOPS as a query, two soybean o...
The SsEAR, SsPYL, and SsPP2C families in Scaevola sericea reveal dual regulatory roles in ABA-mediated plant growth and salt stress response [0.03%]
scaevola sericea 中 ssear,ss pyl 和 sspcc 家族在 ab 介导的植物生长和盐胁迫响应中的双重调控作用
Liyuan Wang,Feng Zheng,Dongming Liu et al.
Liyuan Wang et al.
The plant hormone abscisic acid (ABA) is vital for plant growth and response to environmental stresses. Nevertheless, detailed information regarding the EAR and PYR/PYL-PP2C-SnRK2 families, central components of the ABA signaling pathway, r...
Genome-wide study uncovering the role of GPAT gene family in watermelon and functional validation of ClGPAT8 against cold stress [0.03%]
全基因组研究揭示GPAT基因家族在西瓜中的作用及ClGPAT8抗冷胁迫的功能验证
Ali Aslam,Xiaomeng Wang,Muhammad Waseem et al.
Ali Aslam et al.
Glycerol-3-phosphoacyltransferase (GPAT) plays role in abiotic stress responses. An inclusive bioinformatics methodology identified 11 GPAT genes in watermelon (Citrullus lanatus L.), scattered across seven chromosomes. Gene structure analy...
Phosphate transporter OsPHT2;1 regulates Cd accumulation in rice via the regulation of phosphorus homeostasis [0.03%]
OsPHT2;1磷酸盐转运蛋白通过调节磷稳态调控水稻镉积累量
Jing Huang,Huai Kang Jing,Chuan Jin Shan et al.
Jing Huang et al.
While rice (Oryza sativa) phosphate (Pi) transporter 2;1 (OsPHT2;1) has been characterized as a low-affinity Pi transporter critical for phosphorus (P) accumulation and translocation in rice leaves, its function in modulating cadmium (Cd) a...
Junrui Fu,Mingyu Shao,Xiaoqin Liu
Junrui Fu
Stem rot, caused by the fungus Athelia rolfsii, severely reduces peanut yields, yet the molecular basis of peanut defense against this pathogen remains poorly defined. Here, we investigated defense responses in two Arachis hypogaea cultivar...
The Universal Stress Protein SlUSP1 modulates Botrytis cinerea resistance via ATP-dependent chitinase activation in tomato [0.03%]
拟南芥泛应力蛋白SlUSP1通过ATP依赖的几丁质酶活化调节番茄灰霉病抗性
Xiujing Hong,Yu Xu,Zirui Wu et al.
Xiujing Hong et al.
Universal Stress Proteins (USP) are involved in multiple stress responses across diverse species. In tomato (Solanum lycopersicum), the pathogen Botrytis cinerea causes significant yield losses. This study identifies tomato SlUSP1 as a cyto...
Uncovering the Central Role of GhSPL13 in Vegetative Growth, Root Architecture, and Stress Responses in Cotton [0.03%]
棉花分生增值蛋白GhSPL13在营养生长、根系构型及胁迫响应中的作用机制研究
Sahar Sadaqat,Muhammad Awais,Muhammad Saad Bin Tahir et al.
Sahar Sadaqat et al.
SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) transcription factors constitute a conserved family of key regulators orchestrating plant growth and development, with well-documented roles in hormone signaling pathways, secondary metabolism, a...