Identification and Expression Analysis of Folate-Biopterin Transporter (FBT) Genes in Grape Berry Reveals Candidates Associated with Fruit Ripening [0.03%]
葡萄浆果叶酸-蝶嘌呤核苷转运蛋白(FBT)基因的鉴定及表达分析发现与果实成熟的候选基因
Rui-Min Hu,Hao-Yu Hao,Jing Zhang et al.
Rui-Min Hu et al.
Folate-biopterin transporter (FBT) is a vital class of membrane transport proteins involved in folate and biopterin transport. Exogenous folate applied at the early stage of fruit development was shown to accelerate grape ripening; therefor...
Legume crops exhibited high P-acquisition capacity under low soil phosphorus conditions [0.03%]
豆科作物在低磷土壤条件下的高磷获取能力显示了其优势
Qiong-Mei Wang,Ning-Jiao Ma,Ying-Qian Zhang et al.
Qiong-Mei Wang et al.
Phosphorus (P) acquisition in plants involves a diverse array of strategies, yet our understanding of these mechanisms in legume versus non-legume crop species remains limited. We examined 11 legume and 11 non-legume crop species to explore...
Unveiling root morpho-anatomical traits driving tolerance to waterlogging, salinity, and their combination in Festuca arundinacea [0.03%]
揭示垂穗披碱草耐淹、耐盐及复合胁迫的根系形态解剖学特征
Carla Di Bella,Federico Menon-Martínez,Ana Calvete et al.
Carla Di Bella et al.
Understanding root traits that confer tolerance to multiple abiotic stresses is key to improving forage crop resilience. This study evaluated morpho-anatomical root traits associated with tolerance to waterlogging (W), salinity (S), and the...
Elucidating the growth dynamics of Triticum aestivum through quantitative analysis of chlorophyll fluorescence [0.03%]
定量分析叶绿素荧光阐明小麦生长动力学
Muhammad Jamil,Waseem Ahmad,Liaqat Ali et al.
Muhammad Jamil et al.
A comprehensive understanding of the quantitative relationship among phenotypic and photosynthetic traits at key growth stages in wheat can guide trait selection and management strategies that can contribute to increased productivity. In th...
Morpho-Physiological and Biochemical Responses of Maize (Zea mays L.) Cultivars to Drought Stress at Different Growth Stages [0.03%]
不同生长阶段适应干旱胁迫的玉米品种的形态生理和生化响应机制研究
Muhammad Arif,Ayesha Fazal Nawaz,Muhammad Amir Zia et al.
Muhammad Arif et al.
Background Drought is a major abiotic stress and a global threat to sustainable agriculture, severely constraining maize (Zea mays L.) productivity. It is estimated that drought stress can cause up to 15-20% grain yield losses in maize worl...
Pigment disorganization in Salvia rosmarinus under drought and nitrogen addition in a Mediterranean shrubland [0.03%]
地中海灌木丛中干旱和氮添加条件下香桃叶鼠尾草的色素紊乱
Raúl Ochoa-Hueso,Paschalis Chatzopoulos,Ramón Casimiro-Soriguer
Raúl Ochoa-Hueso
Mediterranean-basin shrublands are a hotspot of biodiversity that is currently at risk due to concurrent global change drivers. Here, we investigated the simultaneous effects of a prolonged drought period and increased atmospheric nitrogen ...
Corrigendum to: Trichome mediated external water transport may compensate for reduced vascular efficiency in atmospheric epiphytic Bromeliaceae [0.03%]
宿主寄生关系视角下凤梨科气生植物叶片水柱运输的补偿机制——对《凤梨科附生植物叶片外部水柱运输的机制》一文的补充与更正
Narcy Anai Pereira-Zaldívar,Luis David Patiño-López,Raúl Rodríguez-García et al.
Narcy Anai Pereira-Zaldívar et al.
Published Erratum
Functional plant biology : FPB. 2025 Dec 23;52(12):FP25140_CO. DOI:10.1071/FP25140_CO 2025
In silico perspectives on RuBisCo activase and its role in mangrove CO2 sequestration [0.03%]
计算分析揭示RuBisCo激活酶在红树CO2固定中的作用机制
Sonali Mazumder,Riya Bhosale,Ravindran Chinnarajan et al.
Sonali Mazumder et al.
Blue carbon, or carbon fixation, can reduce global CO2 emissions through green ecosystems, whereas the capacity of mangroves to fix atmospheric CO2 is five times higher than tropical or terrestrial land plants. Ribulose-1,5-bisphosphate car...
Melatonin-Mediated Functional Responses to Water Deficit in Phaseolus vulgaris L.: Mechanistic Insights Across Physiological, Biochemical, and Genomic Scales [0.03%]
墨西哥豆属莱夫勒属植物中由于缺水而产生的松果体介导的功能反应:从生理,生化到基因组学的见解
Gamal Zayed,Abdel-Haleem El-Shaieny,Hoida Zaki
Gamal Zayed
Agricultural productivity is increasingly constrained by water scarcity, which affects nearly one-quarter of cultivated land and is projected to intensify due to climate change and escalating freshwater demands. Melatonin is widely recogniz...
Identification of BGLC gene family in watermelon and analysis of its expression pattern under abiotic stresses [0.03%]
西瓜BGLC基因家族鉴定及非生物胁迫下的表达模式分析
MingXuan Li,Xiaoyu Wang,Fan Zhang et al.
MingXuan Li et al.
β-glucosidase, a key enzyme in plant sugar metabolism, belongs to the glycoside hydrolase family and plays a crucial role in plant defense against abiotic stresses. In this study, we conducted a comprehensive genome-wide analysis of the wa...