Keyphrases
Caenorhabditis Elegans
100%
Lamin
73%
Mammalian Target of Rapamycin (mTOR)
50%
Hutchinson-Gilford Progeria Syndrome
41%
Fibroblasts
35%
Dietary Restriction
35%
Nuclear Lamina
33%
Age-dependent
33%
Nuclear Morphology
33%
Proximity Labeling
33%
Masticatory mucosa
33%
Lining mucosa
33%
Target of Rapamycin Pathway
30%
Motility
28%
Mass Spectrometry
26%
Nuclear Structure
23%
Fat Content
21%
Mammalian Cells
21%
Gliotoxin
20%
Collagen
19%
Oral mucosa
19%
Farnesyltransferase Inhibitor
18%
Masticatory
17%
Prokaryotes
16%
Proliferation Rate
16%
Tissue Stress
16%
Adhesion
16%
Gene Expression Profile
16%
Protein Function
16%
Lamin C
16%
Immunorecognition
16%
Tissue Maintenance
16%
Antibody Recognition
16%
Fixed Tissue
16%
Secreted Proteins
16%
Fixed Cells
16%
Cell Behavior
16%
Caries
16%
Nuclear Activity
16%
Target Antigen
16%
Prenylation
16%
Biotinylation
16%
High-order
16%
Genome Organization
16%
Primary Tissue
16%
Human Gingival Fibroblasts
16%
Somatic mutation
16%
Dental Calculus
16%
Single-cell Transcriptome Analysis
16%
Collagen I
16%
Biochemistry, Genetics and Molecular Biology
Caenorhabditis Elegans
100%
Lamin
97%
Fibroblast
53%
Progeria
44%
Mechanistic Target of Rapamycin
44%
Lifespan
44%
Mucosa
33%
Mass Spectrometry
33%
Gene Expression
29%
Protein Characterization
25%
Farnesyltransferase
20%
Body Size
20%
Nuclear Lamina
17%
Mouth Flora
16%
Prokaryote
16%
Protein Function
16%
Biotin
16%
Proteomics
16%
Cell Function
16%
Stromal Cell
16%
Methylation
16%
Gene Expression Profiling
16%
Kidney Function
16%
Somatic Mutation
16%
Metabolic Pathway
16%
Genomic Organization
16%
Small GTPase
16%
Small Molecule
16%
Hypoxia Inducible Factor 1
16%
Mitochondrial Matrix
16%
Interactome
16%
Biotinylation
16%
Prenylation
16%
Repressor
16%
Cell Size
16%
Collagenase
16%
Pig
16%
Barrier-to-Autointegration Factor
16%
Mouth Mucosa
15%
Signal Transduction
13%
RHEB
13%
Downregulation
13%
Nuclear Membrane
13%
Gene Ontology
13%
Escherichia coli
13%
Phosphotransferase
12%
Kinase
12%
Eukaryote
11%
Hypoxia-Inducible Factors
11%
Mammalian Cell
11%