Modulation of an evolutionarily conserved epigenetic regulon controlling abscisic acid catabolism enhances drought tolerance in wheat [0.03%]
调节进化上保守的脱落酸分解代谢表观遗传调控通路增强小麦抗旱性
Yunzhen Li,Liujie Jin,Wanying Li et al.
Yunzhen Li et al.
Drought stress significantly reduces crop yield by triggering abscisic acid (ABA) accumulation in plants. It involves the suppression of CYP707A genes, which encode enzymes that catalyze ABA. However, little is known about epigenetic contro...
PgF3H gene enhances drought tolerance in transgenic Arabidopsis by regulating flavonoid biosynthesis and stress response [0.03%]
PgF3H基因通过调节黄酮类生物合成和应激反应增强转基因拟南芥的抗旱性
Radha Shivhare,Priyamvada Mishra,Poorwa Kamal Badola et al.
Radha Shivhare et al.
Water stress stimulates plants to regulate flavonoid biosynthesis. Overexpression of the PgF3H gene increases flavonoid levels and drought tolerance in Arabidopsis, with stress-responsive elements in the PgF3H promoter indicating its role i...
Exogenous NO-mediated microRNA398a-3p -MsCSD2-2 modules negatively regulate the drought stress tolerance of alfalfa [0.03%]
外源NO介导的miR398a-3p-MsCSD2-2模块负调控紫花苜蓿干旱逆境耐受性
Qian Ruan,Xiaoming Bai,Yizhen Wang et al.
Qian Ruan et al.
Drought stress is a serious natural challenge facing alfalfa (Medicago sativa L.), seriously affecting its yield and quality. NO can enhance the activity of antioxidant enzymes and reduce oxidative damage, the core mechanism for plants to c...
NAC Transcription Factor LpNAC22 Positively Regulates Drought Tolerance in Perennial Ryegrass [0.03%]
NAC转录因子LpNAC22通过正向调节渗透胁迫/osmotic stress相关基因的表达来提高多年生黑麦草的耐旱性
Zhiquan Qiang,Zhen Zeng,Danfeng Ma et al.
Zhiquan Qiang et al.
Drought serves as a major environmental stress that restricts both the yield and quality of perennial ryegrass. Therefore, it is important to identify the essential genes that determine drought tolerance in perennial ryegrasses. In this pap...
WOX11-OsPRX130 module confers rice drought tolerance by maintaining ROS homeostasis in rice root [0.03%]
WOX11-OsPRX130模块通过在水稻根部维持ROS稳态来提高水稻抗旱性
Mingfang Tan,Yijie Wang,Yu Zhao
Mingfang Tan
Plants have evolved sophisticated mechanisms to cope with drought stress. A resilient root system, coupled with appropriate levels of reactive oxygen species (ROS), is crucial for optimal growth and increased yield under drought stress. Acc...
The CsUGT87A1 gene enhances drought stress tolerance in tea plants by modulating IAA homeostasis [0.03%]
CsUGT87A1基因通过调节生长素稳态来增强茶树的抗旱性
Salome Njeri Ndombi,Yiwen Chen,Qinqin Gao et al.
Salome Njeri Ndombi et al.
Drought is a major abiotic stressor that threatens global agriculture. Thus, it is imperative to unravel the molecular processes that underlie plant drought resistance. UDP-glycosyltransferases (UGTs), also known as family 1 glycosyltransfe...
MsPYL6 and MsPYL9 improves drought tolerance by regulating stomata in alfalfa (Medicago sativa) [0.03%]
MsPYL6和MsPYL9通过调节紫花苜蓿的气孔来提高其抗旱性
Lu Zhao,Xiaomei Ma,Wenxue Ma et al.
Lu Zhao et al.
Severe drought stress can significantly reduce alfalfa production, and the phytohormone abscisic acid plays a central role in responses to abiotic stress. As abscisic acid receptors, the PYRABACTIN RESISTANCE 1/PYR1-LIKE/ABA-binding REGULAT...
Seed Nanopriming with ZnO and SiO2 Enhances Germination, Seedling Vigor, and Antioxidant Defense Under Drought Stress [0.03%]
ZnO和SiO2种子纳米处理通过增强抗旱性来促进发芽和抗氧化防御
Erick H Ochoa-Chaparro,Juan J Patiño-Cruz,Julio C Anchondo-Páez et al.
Erick H Ochoa-Chaparro et al.
Drought stress is one of the main factors limiting seed germination and seedling establishment in field crops such as jalapeño peppers (Capsicum annuum L.). Nanopriming, a seed improvement technique using nanoparticle suspensions, has emer...
Soil-Gradient-Derived Bacterial Synthetic Communities Enhance Drought Tolerance in Quercus pubescens and Sorbus domestica Seedlings [0.03%]
土壤梯度衍生的细菌合成群落可提高辽东栎和野樱幼苗的抗旱性
Ivan Aleksieienko,Mariana Fernandes Hertel,Jérôme Reilhan et al.
Ivan Aleksieienko et al.
Climate-change-induced drought threatens forest restoration by limiting seedling establishment. To address this, we developed synthetic bacterial communities (SynComs) tailored to support drought tolerance in two Mediterranean tree species,...
Drought tolerance traits explain differential stem growth rates of evergreen and deciduous trees in a tropical karst forest [0.03%]
干旱耐受性状解释了喀斯特森林中常绿树和落叶树茎生长速率的差异
Yu-Mei Yan,Ze-Xin Fan,Pei-Li Fu et al.
Yu-Mei Yan et al.
The karst forest in southwestern China is characterized by thin soil layers, numerous fissures and holes, resulting in low soil water availability and poor water retention, making it challenging for plant growth and survival. While the rela...
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