Pages that link to "Q41912505"

The following pages link to Characterization of metabolic states of Arabidopsis thaliana under diverse carbon and nitrogen nutrient conditions via targeted metabolomic analysis (Q41912505):

Displayed 16 items.

• Effects of Elevated Atmospheric CO2 on Primary Metabolite Levels in Arabidopsis thaliana Col-0 Leaves: An Examination of Metabolome Data (Q35794353) ‎ (← links)
• Regulation of senescence under elevated atmospheric CO₂ via ubiquitin modification (Q38205093) ‎ (← links)
• Emergence of a new step towards understanding the molecular mechanisms underlying nitrate-regulated gene expression (Q38227394) ‎ (← links)
• A network perspective on nitrogen metabolism from model to crop plants using integrated 'omics' approaches. (Q38240413) ‎ (← links)
• Interactions between nitrate and ammonium in their uptake, allocation, assimilation, and signaling in plants (Q39051083) ‎ (← links)
• Starch as a source, starch as a sink: the bifunctional role of starch in carbon allocation (Q47692116) ‎ (← links)
• Editorial: Plant and Cell Physiology--past, present and future (Q48569321) ‎ (← links)
• Elevated CO2 Induces Root Defensive Mechanisms in Tomato Plants When Dealing with Ammonium Toxicity. (Q50069170) ‎ (← links)
• Advances in understanding CO2 responsive plant metabolomes in the era of climate change (Q54990025) ‎ (← links)
• Plant Responses to CO2: Background and Perspectives (Q58763469) ‎ (← links)
• Complex regulatory network allows Myriophyllum aquaticum to thrive under high-concentration ammonia toxicity (Q64082976) ‎ (← links)
• Transcriptomic Sequencing and Co-Expression Network Analysis on Key Genes and Pathways Regulating Nitrogen Use Efficiency in (Q64103244) ‎ (← links)
• Increased biomass accumulation in maize grown in mixed nitrogen supply is mediated by auxin synthesis (Q64281183) ‎ (← links)
• Sugar-induced de novo cytokinin biosynthesis contributes to Arabidopsis growth under elevated CO2. (Q64889487) ‎ (← links)
• Repeated fed-batch strategy and metabolomic analysis to achieve high docosahexaenoic acid productivity in Crypthecodinium cohnii (Q91994583) ‎ (← links)
• Overexpression of OsMYB305 in Rice Enhances the Nitrogen Uptake Under Low-Nitrogen Condition (Q94464402) ‎ (← links)