Keyphrases
Grapevine
100%
Proteomic Analysis
100%
Vitis Vinifera
100%
Autotrophic
100%
Autotrophy
100%
Light Irradiance
100%
Heterotrophic
81%
Oxidative Stress Response
27%
Young Leaves
27%
High Light Intensity
27%
Biological Significance
18%
Proteomic Approach
18%
Light Stress
18%
Trophic State
18%
Physiological Characteristics
9%
Stress Proteins
9%
Protein Folding
9%
Antioxidant System
9%
Plant Species
9%
Environmental Factors
9%
Photosynthesis
9%
Protein Synthesis
9%
Protein Degradation
9%
Molecular Characteristics
9%
Physiological Changes
9%
Anatomical Features
9%
Carbon Source
9%
Genetic Control
9%
Carbon Fixation
9%
Major Change
9%
Proteome
9%
Water Supply
9%
Molecular Changes
9%
Low Sensitivity
9%
Temperature Water
9%
Sink Organ
9%
Full-size
9%
Stressful Conditions
9%
Light Exposure
9%
Differential Accumulation
9%
Molecular Data
9%
Grapevine Buds
9%
Protein Spots
9%
High Light Stress
9%
High Light Treatment
9%
Light Stimulus
9%
Chloroplast Development
9%
Protective Mechanism
9%
Potential Control
9%
Leaf Proteome
9%
Protein Dynamics
9%
Bud Burst
9%
Mineral nutrition
9%
Springtime
9%
Anatomical Changes
9%
Two-dimensional Gel
9%
High Light Irradiation
9%
Biochemistry, Genetics and Molecular Biology
Oxidative Stress
100%
Proteomics
100%
Vitis
100%
Light Stress
100%
Autotrophy
100%
Light Irradiance
100%
Light Intensity
100%
Proteome
66%
Genetics
33%
Protein Folding
33%
Heat Shock Protein
33%
Protein Biosynthesis
33%
Protein Catabolism
33%
Protein Dynamics
33%
Carbon Fixation
33%
Chloroplast
33%
Photosystem
33%
Water Temperature
33%
Light Exposure
33%
Immunology and Microbiology
Oxidative Stress
100%
Vitis
100%
Autotrophy
100%
Light Stress
100%
Light Intensity
100%
Light Irradiance
100%
Protein Folding
33%
Dynamics
33%
Protein Synthesis
33%
Protein Degradation
33%
Photosynthesis
33%
Chloroplast
33%
Carbon Fixation
33%
Light Exposure
33%