Root carbon and protein metabolism associated with heat tolerance

Keyphrases

• Heat Tolerance 100%
• Carbon Metabolism 100%
• Thermotolerance 100%
• Protein Metabolism 100%
• Root Carbon 100%
• Root Proteins 100%
• Heat Stress 50%
• Perennial Grasses 50%
• Root System 25%
• Metabolism 25%
• Superoxide Dismutase 25%
• Comparative Analysis 25%
• Chaperone 25%
• Glutathione S-transferase 25%
• Soil Temperature 25%
• Heat Sensitivity 25%
• Energy Production 25%
• Plant Adaptation 25%
• Tolerance Mechanisms 25%
• Peroxidase 25%
• Antioxidant System 25%
• Physiological Factors 25%
• Protein Degradation 25%
• Suboptimal Temperature 25%
• Protein Turnover 25%
• Heat Shock Proteins 25%
• National Park 25%
• Proteomic Analysis 25%
• Metabolic Factors 25%
• Thermotolerant 25%
• Whole Plant 25%
• C3 Species 25%
• Root Response 25%
• Grass Species 25%
• Adaptation to Heat 25%
• Agrostis 25%
• Aboveground Organs 25%
• Defense Enzymes 25%
• Alternative Respiration 25%
• Agrostis Stolonifera 25%
• Carbon Investment 25%
• Geothermal Area 25%
• Metabolite Pools 25%
• Stress Defense 25%

Agricultural and Biological Sciences

• Critical Thermal Maximum 100%
• Protein Metabolism 100%
• Perennials 33%
• Root System 16%
• Antioxidant 16%
• Soil Temperature 16%
• Evolutionary Adaptation 16%
• Plant Adaptation 16%
• Acclimation 16%
• Superoxide Dismutase 16%
• National Parks 16%
• Glutathione Peroxidase 16%
• Proteomics 16%
• Transferase 16%
• Heat Shock Protein 16%
• Agrostis 16%
• Agrostis stolonifera 16%
• Carbon Partitioning 16%

Immunology and Microbiology

• Heat Tolerance 100%
• Protein Metabolism 100%
• Heat Stress 33%
• Heat Shock 16%
• Carbon Partitioning 16%
• Evolutionary Adaptation 16%
• Energy Yield 16%
• Root System 16%
• Respiration Control 16%
• Agrostis 16%
• Agrostis stolonifera 16%
• Proteomics 16%
• Glutathione 16%
• Peroxidase 16%
• Superoxide Dismutase 16%
• Protein Degradation 16%
• Defense Protein 16%