Keyphrases
Post-translational Modification
100%
Damage Response
100%
Radiation Damage
100%
DNA Replication
100%
Ubiquitin
71%
DNA Repair
71%
DNA Damage
57%
Ionizing Radiation
57%
Premature Aging
57%
DNA Damage Response
57%
DNA Replication Control
42%
Chromatin
42%
Genome Stability
42%
Biological Approach
28%
Human Disease
28%
Ubiquitin-proteasome System
28%
Cancer Therapy
28%
AAA+ ATPase
28%
Spartan
28%
DNA-protein Crosslinks
28%
DNA Double-strand Break Repair
28%
System Aging
14%
Lynparza
14%
Local Accumulation
14%
Velcade
14%
Metalloprotease
14%
Molecular Mechanism
14%
Enzymatic Activity
14%
Genomic Instability
14%
DNA Lesions
14%
Ubiquitination
14%
Vertebrates
14%
Human Cells
14%
Group Work
14%
Proteomic Approach
14%
Potential Identification
14%
Cdc48
14%
Bortezomib
14%
Protein Turnover
14%
Protease Inhibitors
14%
Accelerated Aging
14%
Chromatin Biology
14%
PARP Inhibitor (PARPi)
14%
DNA Repair Pathways
14%
Drug Target
14%
Druggable Targets
14%
Protein Degradation
14%
Novel Therapeutics
14%
Oncogenesis
14%
Cancer Therapeutics
14%
Molecular Chaperone
14%
Normal Cell Line
14%
Replication Protein A
14%
Cancer Cell Lines
14%
Quantitative Proteomics
14%
Whole Genome Amplification
14%
Lower Eukaryotes
14%
Olaparib
14%
Chemoresistance
14%
SUMOylation
14%
Cancer Cells
14%
Chromatin-associated Proteins
14%
Altered Metabolism
14%
Neurodegeneration
14%
Biochemistry, Genetics and Molecular Biology
Posttranslational Modification
100%
P97
100%
DNA Synthesis
41%
Ubiquitin
29%
DNA Repair
25%
DNA Damage Response
16%
Genome Instability
16%
DNA Damage
12%
ATPase
8%
Cross-Link
8%
Cancer Cell
8%
Proteasome
8%
Protein Degradation
8%