Identification and functional analysis of CLE genes associated with drought tolerance in pepper [0.03%]
与辣椒抗旱性相关的CLE基因的鉴定及功能分析
Chae Woo Lim,Yeongil Bae,Dae Sung Kim et al.
Chae Woo Lim et al.
CLAVATA3/EMBRYO SURROUNDING REGION (CLE) peptides constitute one of the largest families of small signaling peptides, playing crucial roles in plant development and stress responses. Despite extensive research on CLE genes in various specie...
Potato transcription factor StMYB19 enhances drought tolerance by regulating ROS homeostasis and JA signalling pathway [0.03%]
土豆转录因子StMYB19通过调节ROS稳态和JA信号传导途径增强干旱胁迫耐受性
Xiaoxiao Wang,Haotian Liu,Han Wei et al.
Xiaoxiao Wang et al.
The MYB transcription factor family plays important regulatory roles in plant growth and development. In this study, a investigation was conducted to elucidate R1-MYB transcription factor StMYB19 biological function in drought stress respon...
Stomatal and leaf hydraulic conductivity responses to changing light and CO2 conditions in Phaseolus vulgaris [0.03%]
光强和二氧化碳浓度变化对菜豆气孔和叶片液压传导度的影响
Andrew Ogolla Egesa,Divya Rana,Jessica Barrera-Solis et al.
Andrew Ogolla Egesa et al.
Extreme conditions brought up by climate change have a negative impact on plant photosynthesis. However, characterizing and exploiting extant genetic variation in plants for structure and function could lead to the assembly of genotypes ada...
VvWRKY70, a Newly Identified Grape WRKY Transcription Factor, Confers Drought Tolerance via Coordinated Physiological and Molecular Responses [0.03%]
一个新的葡萄WRKY转录因子VvWRKY70通过生理和分子的协同反应来提高植物抗旱性
Lijuan Li,Jinyuan Li,Lihong Hao et al.
Lijuan Li et al.
Drought is a key factor limiting grape yield, making it crucial to reveal the underlying response mechanisms of plants to environmental stress. Although WRKY transcription factors play multiple roles in plant development and stress response...
Exogenous glutathione inhibits SlMYB48 expression and enhances salt resistance in tomato seedlings through the antioxidant system and osmotic adjustment [0.03%]
外源谷胱甘肽通过抗氧化系统和渗透调节抑制SlMYB48表达并增强番茄幼苗的耐盐性
Xuezhen Li,Yuanxin Li,Yujie Shi et al.
Xuezhen Li et al.
Glutathione (GSH) serves as a redox-active molecule and the predominant non-protein sulfhydryl compound in plants and a critical regulator in alleviating abiotic stress. Our previous research has demonstrated that foliar application of exog...
Deciphering serotonin's functional role in postharvest: fruit-specific preservation of red fruit quality [0.03%]
解码五羟色胺在采后管理中的功能作用:果实特异性保持红色水果品质
Alba Arabia,Paula Muñoz,Sofía Álvarez-Real et al.
Alba Arabia et al.
Serotonin is a widely conserved signaling molecule essential for plant development and stress responses, but its role in fruit postharvest physiology remains largely unexplored. This study aimed to evaluate the effects of 100μM exogenous s...
Development of Spring-Type Brassica napus Single-Gene Lines for Differentiating Plasmodiophora brassicae Races [0.03%]
春甘蓝型油菜单基因系的育种及其鉴别霜霉病菌生理小种的研究
Yan Zhang,Hao Hu,Jinghe Wang et al.
Yan Zhang et al.
Clubroot, caused by Plasmodiophora brassicae, is a major threat to Brassica crops, including canola (Brassica napus). We developed six spring-type B. napus single-gene lines (SGLs), each carrying a distinct clubroot resistance (CR) gene (Rc...
A series of BrGA1 allelic mutations impair gibberellin biosynthesis to affect heading in Chinese cabbage [0.03%]
一系列BrGA1等位基因突变通过影响赤霉素生物合成调控白菜抽薹性状
Chong Tan,Yonghui Zhao,Zifan Zhao et al.
Chong Tan et al.
Chinese cabbage, an economically important Brassicaceae vegetable widely cultivated in China, features a leafy heading trait that dictates its yield and quality. As a complex biological process, the regulatory mechanisms of leafy head forma...
The cytochrome P450 protein AtCYP85A2 increases stresses tolerance through promoting brassinosteroid biosynthesis in transgenic tomato [0.03%]
超定型番茄中细胞色素P450蛋白AtCYP85A2通过促进油菜素内酯生物合成提高植物抗逆性
Yuanyuan Shang,Zhaoyang Tian,Kaifeng Lu et al.
Yuanyuan Shang et al.
The cytochrome P450 (CYP) gene family plays crucial roles in plant growth and development under various conditions through controlling brassinosteroid (BR) biosynthesis, but its functions in fruit crops remain largely unexplored. Here, the ...
The mechanistic insights into sex determination of melon: integrating environmental factors, hormones and genetic regulation [0.03%]
甜瓜性别决定的机制见解:整合环境因素、激素和遗传调控
Wensheng Zhao,Kaidi Zhu,Jiangtao Ma et al.
Wensheng Zhao et al.
Melon (Cucumis melo L.) is an important horticultural and economic crop. The flowers of melon can be classified into male flowers, female flowers and bisexual flowers, and different sex types such as andromonoecy, monoecy and androecy are c...