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...
Insights into Morphological, Anatomical, and Molecular traits for Superior Fiber Yield and Quality in Dark Jute [0.03%]
优质暗紫贝母草纤维育种的形态、解剖及分子标记研究
Sourav Hazari,Sri Sai Dash,Bikramjeet Ghose et al.
Sourav Hazari et al.
The lignocellulosic fibres obtained from dark jute are of superior strength but their coarseness often limits its industrial value, while fibre quality estimation processes further complicates plant selection.The lignocellulosic fibres obta...
Functional characterization of a novel bark-specific multi-product monoterpene synthase from the rubber tree (Hevea brasiliensis) [0.03%]
橡胶树(海桑氏巴西木)一种新型树皮特异性的多功能单萜烯合酶的功能表征
Huong Tran,Thai Le,Binh Pham et al.
Huong Tran et al.
The rubber tree ( Hevea brasiliensis ) is highly valued for its wood and latex. Along with being a rich source of polyterpenes in the latex, rubber trees are notable for their significant emission of volatile monoterpenes that may contribut...
The architecture of submergence escape in two contrasting accessions of the stoloniferous grass Paspalum denticulatum [0.03%]
水下逃生的架构:匍匐生长草Paspalum denticulatum两种不同获取方式的对比分析
David Pinilla,Frederico Mollard,Gustavo Striker et al.
David Pinilla et al.
Floodplains worldwide face an increasing risk of inundation due to climate change, underscoring the need to identify plant species capable of withstanding flooding. Paspalum denticulatum Trin. is a wetland stoloniferous grass emerging as su...
Activity of SDH, QDH, and PAL in species, accumulating different types of tannins [0.03%]
积累不同类型的单宁的物种中SDH、QDH和PAL的活性
Anna Sereda,Sergey Bondarev,Grigory Adamov et al.
Anna Sereda et al.
The biosynthesis of different classes of tannins in plants is a complex process that remains insufficiently studied. This study aimed to evaluate the activity of shikimate dehydrogenase (SDH), quinate dehydrogenase (QDH), and phenylalanine ...
Differential ozone-induced alterations in the photosynthetic apparatus and chlorophyll fluorescence dynamics of two pea cultivars (Pisum sativum L.) [0.03%]
两种豌豆品种(Pisum sativum L。)的光合机构和叶绿素荧光动力学对臭氧的差异化响应
Gereraj Sen Gupta,Parvati Madheshiya,Supriya Tiwari
Gereraj Sen Gupta
The phytotoxic nature of tropospheric ozone (O₃) has led to substantial declines in global crop productivity. Given their nutritional richness, legumes serve as vital dietary staples, valued for their high protein, oil, and fiber content. ...
Cassava Mosaic Disease Impairs Photosynthesis and Sugar Metabolism: Varietal Susceptibility and Key Metabolic Disruptions [0.03%]
cassava花叶病影响光合作用和糖代谢:品系易感性和关键代谢干扰
Saravanan Raju,Makeshkumar Thangaraj,Aparna Rajan et al.
Saravanan Raju et al.
Cassava Mosaic Disease (CMD) is a major threat to cassava production, causing significant disruptions in photosynthesis, carbohydrate metabolism, and leaf structure, severely reducing crop productivity. This study investigates CMD's physiol...
Myoinositol Enhances Heat Tolerance in Chenopodium quinoa Through Integrated Physiological, Biochemical, and Molecular Responses [0.03%]
肌醇通过生理、生化和分子综合反应增强藜的耐热性
Abeer A Alshammari,Abdelghafar M Abu-Elsaoud,Wasimah Alshammari et al.
Abeer A Alshammari et al.
As global temperatures continue to rise, heat stress poses a serious threat to crop productivity and food security. Developing effective strategies to enhance thermotolerance is therefore critical. This study investigates the physiological,...