INIS
stem cells
100%
humans
84%
proteins
61%
mitochondria
57%
synthesis
38%
genes
35%
regulations
33%
mice
32%
maturation
29%
interactions
25%
oxidation
25%
modeling
23%
knock-out reactions
23%
fatty acids
22%
metabolism
22%
embryos
22%
pulps
19%
histones
19%
heme
19%
aging
19%
messenger-rna
19%
methyl transferases
19%
metabolites
19%
cardiolipin
19%
lysine
16%
mutants
16%
receptors
13%
diseases
13%
nicotinamide
12%
intermediate state
12%
blocking
12%
rna
12%
control
11%
screens
10%
in vitro
10%
methylation
9%
dna
9%
reviews
9%
cell cultures
9%
hydroxylase
9%
compartments
9%
g-proteins
9%
levels
9%
accumulation
7%
f states
6%
induction
6%
mass spectrometry
6%
cancer
6%
design
6%
affinity
6%
Keyphrases
Heme Synthesis
19%
Nicotinamide N-methyltransferase
19%
Human Pluripotency
19%
Folliculin
19%
Polycomb Repressive Complex 2 (PRC2)
19%
Stem Cell Aging
19%
Wnt Signaling Pathway
19%
Early Humans
19%
Cardiolipin Remodeling
19%
Human Cardiomyocytes
19%
Fatty Acid β-oxidation
19%
HADHA
19%
Epigenetic Landscape
19%
Mitochondrial Physiology
12%
Hepatospecific
12%
Implantation Stages
9%
Pluripotency Markers
7%
Metabolic Signature
7%
Developmental Transitions
6%
N-terminal Helix
6%
H3K27 Acetylation
6%
Substrate Recognition
6%
Methylase
6%
Recognition Function
6%
Temporal Precision
6%
Trimethyllysine
6%
Spatial Precision
6%
Applied Chemistry
6%
Metabolic Flow
6%
Energy Coupling
6%
Chemiosmotic Theory
6%
Proton Motive Force
6%
Respiratory State
6%
Respiratory Control
6%
Interdisciplinary Communication
6%
Communication Education
6%
International Unions
6%
Translational Efficiency
6%
Translational Repression
6%
Proteome Remodeling
6%
Polysome Profiling
6%
Exit from Pluripotency
6%
Global Reduction
6%
Metabolic Maturation
6%