Transcription factor MdNAC33 is involved in ALA-induced anthocyanin accumulation in apples [0.03%]
MdNAC33转录因子参与ALA诱导的苹果花青素积累
Liuzi Zhang,Jiangting Zhang,Bo Wei et al.
Liuzi Zhang et al.
5-Aminolevulinic acid (ALA), as a new natural plant growth regulator, has a significant function in promoting anthocyanin accumulation in many species of fruits. However, the mechanisms underlying remain obscure. In a transcriptome study of...
Cucumis sativus CsbZIP90 suppresses Podosphaera xanthii resistance by modulating reactive oxygen species [0.03%]
黄瓜CsbZIP90通过调控活性氧抑制西瓜枯萎病菌感染响应的机制研究
Linghao Liu,Lifeng Ma,Yongbo Yu et al.
Linghao Liu et al.
Resistance to disease in plants requires the coordinated action of multiple functionally related genes, as it is difficult to improve disease resistance with a single functional gene. Therefore, the use of transcription factors to regulate ...
The Golgi-localized transporter OsPML4 contributes to manganese homeostasis in rice [0.03%]
水稻高尔基体定位的转运蛋白OsPML4参与锰稳态调节
Ending Xu,Yu Zou,Guang Yang et al.
Ending Xu et al.
Manganese (Mn), an indispensable plant micronutrient, functions as a vital enzyme co-factor in numerous biochemical reactions. In rice, the Golgi-localized PHOTOSYNTHESIS-AFFECTED MUTANT 71-LIKE 3 (OsPML3), a member of the UNCHARACTERIZED P...
Improvement of qualitative and quantitative traits in cotton under normal and stressed environments using genomics and biotechnological tools: A review [0.03%]
利用基因组和生物技术工具改进棉田常规和应激环境下的质量及数量性状:综述
Aarti Gupta,Manoj Kumar,Baohong Zhang et al.
Aarti Gupta et al.
Due to the increasing demand for high-quality and high fiber-yielding cotton (Gossypium spp.), research into the development of stress-resilient cotton cultivars has acquired greater significance. Various biotic and abiotic stressors greatl...
Differential influence of Bacillus subtilis strains on Arabidopsis root architecture through common and distinct plant hormonal pathways [0.03%]
植物通过共同的和不同的植物激素途径受芽孢杆菌菌株影响根系构型的不同作用机制
Camilla Niketa Gadomska Jensen,Janet Ka Yan Pang,Charlotte Marie Hahn et al.
Camilla Niketa Gadomska Jensen et al.
Plant growth-promoting microbes (PGPM) can enhance crop yield and health, but knowledge of their mode-of-action is limited. We studied the influence of two Bacillus subtilis strains, the natural isolate ALC_02 and the domesticated 168 Gö, ...
Herbicide resistance evolution, fitness cost, and the fear of the superweeds [0.03%]
杂草抗药性进化、负效应及其超级杂草风险研究进展
Christos A Damalas,Spyridon D Koutroubas
Christos A Damalas
Despite considerable differences in cropping systems around the globe, chemical weed control is a key tool in conventional agroecosystems, which has led to an increase in herbicide resistance. Although mutations causing resistance are thoug...
Function identification of Arabidopsis GPAT4 and GPAT8 in the biosynthesis of suberin and cuticular wax [0.03%]
拟南芥GPAT4和GPAT8在树脂复合物及角质蜡生物合成中的功能鉴定
Xuanhao Zhang,Huani Gao,Yi Liu et al.
Xuanhao Zhang et al.
Surface lipids in plants include cutin, cuticular wax and suberin. sn-Glycerol-3-phosphate acyltransferases (GPATs) facilitate the acylation of sn-glycerol-3-phosphate (G3P) utilizing a fatty acyl group from acyl-coenzyme A (acyl-CoA) or ac...
Identification of nitric oxide regulated low abundant myrosinases from seeds and seedlings of Brassica juncea [0.03%]
从印度芥菜种子和幼苗中鉴定一氧化氮调控的低丰度葡萄糖硫苷 mustard酶
Yaiphabi Sougrakpam,Renu Deswal
Yaiphabi Sougrakpam
Myrosinases constitute an important component of the glucosinolate-myrosinase system responsible for interaction of plants with microorganisms, insects, pest, and herbivores. It is a distinctive feature of Brassicales. Multiple isozymes of ...
Using an embryo specific promoter to modify iron distribution pattern in Arabidopsis [0.03%]
利用胚胎特异性启动子改造拟南芥铁分布模式
Marlene Fuenzalida,María Isabel Gómez,Evandro Ferrada et al.
Marlene Fuenzalida et al.
Iron is an essential micronutrient for life. During the development of the seed, iron accumulates during embryo maturation. In Arabidopsis thaliana, iron mainly accumulates in the vacuoles of only one cell type, the cell layer that surround...
Exogenous riboflavin (vitamin B2) application enhances salinity tolerance through the activation of its biosynthesis in rice seedlings under salinity stress [0.03%]
外源核黄素(维生素B2)通过激活其生物合成提高盐胁迫下水稻幼苗的耐盐性
Kamonthip Jiadkong,Anisa Nazera Fauzia,Nobuo Yamaguchi et al.
Kamonthip Jiadkong et al.
Salinity stress triggers the accumulation of reactive oxygen species (ROS), leading to impaired plant growth. Riboflavin (RIB; vitamin B2) is synthesized by plants, fungi, and microorganisms and is a precursor of the coenzymes, flavin adeni...