Keyphrases
Nucleotide Sugars
100%
Liquid Chromatography-tandem Mass Spectrometry (LC-MS/MS)
75%
Reversed-phase HPLC
50%
Nucleotide Sugar Metabolism
50%
Isotope Tracing
50%
Human Fibroblasts
50%
Human Pluripotent Stem Cells (hPSCs)
50%
Weak Anion Exchange
50%
Induced Pluripotent Stem Cells (iPSCs)
37%
Customizable
25%
Stem Cell Culture
25%
Cell Behavior
25%
Metabolic Pathway
25%
Diphosphate
14%
Ribitol
14%
Stem Cell Activation
12%
N-glycosylation
12%
Glycolysis
12%
UDP-galactose
12%
UDP-glucose
12%
Glucose Metabolism
12%
Carbon Incorporation
12%
Phosphoglucomutase
12%
Metabolite Interference
12%
Tracer-based Metabolomics
12%
Metabolic Tracing
12%
Stable Isotopes
12%
Metabolism
12%
Pentose Phosphate Pathway
12%
Glucose Feeding
12%
C-13
12%
Self-renewal
12%
Isotopically Labeled
12%
O-GlcNAcylation
12%
Embryonic Stem Cells
12%
Pluripotency
12%
Metabolic Modulation
12%
Chemically Defined
12%
MS Method
12%
N-acetylneuraminic Acid
7%
Genetic Defects
7%
Guanosine
7%
Reversed-phase Chromatography
7%
Uridine 5′-monophosphate
7%
Living Organisms
7%
Transition Metal Ions
7%
Glycoconjugates
7%
Order of Magnitude
7%
Coefficient of Variation
7%
Fibroblasts
7%
INIS
humans
100%
sugars
100%
nucleotides
100%
stem cells
50%
ion exchange
50%
sugar
50%
metabolism
50%
fibroblasts
50%
glucose
28%
phosphates
25%
biosynthesis
20%
synthesis
14%
cell cultures
14%
metabolic pathways
14%
liquid column chromatography
13%
patients
13%
range
12%
mannose
12%
defects
12%
cytidine
12%
genetics
12%
mass spectrometry
7%
tools
7%
carbon
7%
nutrients
7%
pentoses
7%
stable isotopes
7%
energy
7%
feeding
7%
modulation
7%
enzymes
7%
proteins
7%
glycolysis
7%
galactose
7%
interference
7%
substrates
6%
guanosine
6%
variations
6%
chromatography
6%
levels
6%
hybrids
6%
ions
6%
kinases
6%
applications
6%
Biochemistry, Genetics and Molecular Biology
Nucleotide Sugar
50%
Metabolic Pathway
50%
Stem Cell
50%
Cell Function
21%
Liquid Chromatography-Mass Spectrometry
14%
Anabolism
14%
Stem Cell Culture
14%
Cytidine
14%
Tandem Mass Spectrometry
7%
Glycosylation
7%
Uridine Diphosphate Glucose
7%
Enzyme
7%
Embryonic Stem Cell
7%
Uridine Diphosphate Galactose
7%
Induced Pluripotent Stem Cell
7%
Pentose Phosphate Pathway
7%
Phosphoglucomutase
7%
Glucose Metabolism
7%
Metabolomics
7%