Immunology and Microbiology
Dynamics
100%
Protein Phosphorylation
100%
Fatty Acid Metabolism
100%
Metabolism
100%
Nerve Cell Plasticity
100%
Insulin Resistance
100%
Cell Cycle Progression
100%
Intracellular Signaling
100%
Citric Acid Cycle
100%
Biosynthesis
100%
Substrate Concentration
100%
Nucleotide Metabolism
100%
Keyphrases
Polypeptide
100%
Transferases
100%
O-linked N-acetylglucosamine (O-GlcNAc)
100%
UDP-GlcNAc
100%
O-GlcNAc Transferase
100%
O-GlcNAcylation
57%
Donor Substrate
28%
In Cancer
14%
Diabetes
14%
Glycolysis
14%
Intracellular Signaling
14%
Biological Pathways
14%
Dysregulation
14%
Tumor Protein p53 (TP53)
14%
Neural Plasticity
14%
Amino Acids
14%
Nuclear Proteins
14%
Cytoplasmic Proteins
14%
Insulin Resistance
14%
Neurodegenerative Diseases
14%
Threonine
14%
Fatty Acid Metabolism
14%
Cell Cycle Progression
14%
N-acetylglucosamine
14%
Protein Phosphorylation
14%
Saccharides
14%
Sugar Modifications
14%
Metabolic Pathway
14%
Cell Concentration
14%
All-affected
14%
N-acetylglucosaminyltransferase
14%
Rapid Cycling
14%
Krebs Cycle
14%
Substrate Concentration
14%
Oncogenic Proteins
14%
Nucleotide Biosynthesis
14%
Glucose Toxicity
14%
Hexosamine Pathway
14%
Nutrient Sensing
14%
Oligosaccharide Chains
14%
Nutrient Sensors
14%
O-linked
14%
Protein O-GlcNAcylation
14%
Substoichiometric
14%
Stress Sensor
14%
Glucose Flux
14%
Neuroscience
Polypeptide
100%
Transferase
100%
N Acetylglucosaminyltransferase
100%
Uridine Diphosphate
100%
N Acetylglucosamine
100%
Metabolic Pathway
28%
Anabolism
28%
Serine
14%
Amino Acid
14%
Neuronal Plasticity
14%
Threonine
14%
Neurodegenerative Disorder
14%
Nuclear Protein
14%
Fatty Acids
14%
Carbohydrates
14%
Protein Phosphorylation
14%
Intracellular Signaling
14%
Oligosaccharide
14%
Cell Cycle Progression
14%
Cytoplasm Protein
14%
Citric Acid Cycle
14%
Hexosamine
14%
Biochemistry, Genetics and Molecular Biology
N-Acetylglucosamine
100%
Transferase
100%
Uridine Diphosphate
100%
Dynamics
14%
Transcription
14%
Oligosaccharide
14%
Amino Acids
14%
Metabolic Pathway
14%
Insulin Resistance
14%
Tumor Suppressor Protein
14%
Intracellular Signaling
14%
Threonine
14%
Serine
14%
Fatty Acid Metabolism
14%
Cell Cycle Progression
14%
Anabolism
14%
Protein Phosphorylation
14%
Citric Acid Cycle
14%
Nerve Cell Plasticity
14%
Substrate Concentration
14%
Saccharide
14%
Hexosamine
14%
Nucleotide Metabolism
14%
Krebs Cycle
14%
Chemistry
N-Acetylglucosamine
100%
Polypeptide
100%
UDP
100%
Donor
28%
Amino Acid
14%
Oligosaccharide
14%
Saccharide
14%
Metabolic
14%
Serine
14%
Threonine Residue
14%
Protein Phosphorylation
14%
Oncogenic
14%
Hexosamine
14%
Cellular Concentration
14%
Chemical Engineering
Polypeptide
100%
Oligosaccharide
50%
Fatty Acids
50%