INIS
reentry
100%
cell cycle
100%
adults
100%
mice
100%
vertebrates
66%
epithelium
66%
transcription factors
66%
balances
66%
modifications
66%
hearings
66%
acylation
50%
proteins
50%
hydrolysis
50%
anhydrides
50%
residues
41%
humans
41%
ears
33%
stimuli
33%
control
33%
capacity
33%
monoclonal antibodies
33%
impulse
33%
conversion
33%
apoptosis
33%
drugs
33%
mammals
33%
specificity
33%
correlations
33%
regeneration
33%
data
33%
hypothesis
33%
injuries
33%
lysine
8%
accumulation
8%
neurons
8%
hydrolases
8%
metabolites
8%
synthesis
8%
damage
8%
mutations
8%
genes
8%
losses
8%
Keyphrases
Utricle
100%
Cell Cycle Re-entry
100%
Supporting Cells
100%
YAP-TEAD
100%
Molecular Mechanism
100%
Acylation
50%
DJ-1
50%
Hydrolysis
50%
Anhydride
50%
Hair Cell
42%
Sensory Epithelium
28%
Coregulators
28%
Vertebrates
28%
Transcription Factor
28%
Stem Cells
14%
Sense of Hearing
14%
Hair Cell Progenitor
14%
Binding Ability
14%
Sense of Balance
14%
Mechanical Stimulation
14%
Transcriptional Activity
14%
Inner Ear
14%
Balance Function
14%
Non-sensory
14%
Covalent Modification
14%
Adult Mice
14%
Hearing Function
14%
Bromodomain-containing Protein 4 (BRD4)
14%
Hair Cell Loss
14%
New Drug Targets
14%
Binding Specificity
14%
Monoclonal Antibody
14%
Faculty Development
14%
Regeneration
14%
Proliferative Activity
14%
Neonatal Mice
14%
Mechanosensory Hair Cell
14%
PARK7
5%
Unstable Intermediates
5%
Glycolytic
5%
Familial Parkinsonism
5%
Dopaminergic Neurons
5%
Kcat
5%
Enzymatic Activity
5%
Acid Hydrolysis
5%
Lysine Residue
5%
Molecular Function
5%
Effective Procedure
5%
Lines of Evidence
5%
Comprehensive Characterization
5%
Hydrolases
5%
Null Cell
5%
Simple Procedure
5%
Amino Group
5%
Electrophile
5%
Biochemistry, Genetics and Molecular Biology
Cell Cycle
100%
Mouse
100%
Transcription Factors
66%
Acylation
50%
Enzymatic Hydrolysis
50%
BRD4
33%
Cell Death
33%
Monoclonal Antibody
33%
Progenitor Cell
33%
Catalytic Efficiency
16%
PARK7
16%
Enzyme Activity
16%
Hydrolase
16%
Dopaminergic
16%
Lysine
16%
Metabolite
16%