Keyphrases
PARP Inhibitor (PARPi)
100%
Chromatin
70%
Free DNA
39%
Binding Mode
39%
Histone Chaperone
38%
Automodification
35%
Architectural Proteins
35%
Fluorescence Strategy
30%
Polymerase I
30%
High-throughput Quantification
30%
Protein-protein Interaction
30%
Poly(ADP-ribose) Polymerase
30%
Biophysical Methods
30%
Protein Quantification
30%
Biochemical Methods
30%
DNA Damage
30%
First Responders
9%
Interaction Mode
9%
Gene Regulation
8%
High-throughput Characterization
7%
Large Database
7%
High Affinity
7%
Affinity Protein
7%
In-solution
7%
Single-molecule Fluorescence Resonance Energy Transfer (smFRET)
7%
High Sensitivity
7%
DNA Binding
7%
Histone H2A
7%
DNA Repair Enzymes
7%
Protein Network
7%
Experimental Strategies
7%
Broad Dynamic Range
7%
Protein-DNA Complex
7%
High-throughput
7%
Protein-DNA Interaction
7%
Easy-to-implement
7%
Cell Function
7%
NAP1
7%
Linker Histone
7%
H2A-H2B
7%
Thermodynamics
7%
Chromatin Damage
5%
Damage Model
5%
Inactive State
5%
Native Chromatin
5%
High-throughput Measurement
5%
Biophysical Techniques
5%
Quantitative Measurement
5%
Biochemistry, Genetics and Molecular Biology
Poly ADP Ribose Polymerase
92%
Nucleosome
52%
Histone
41%
Protein Interaction
30%
DNA Damage
20%
DNA Binding
10%
Fluorescence Resonance Energy Transfer
10%
Solution and Solubility
10%
PARP1
10%
Histone H2A
10%
Cell Function
10%
DNA Ligase
10%
Protein-Protein Interaction
10%
Histone H1
10%
Adenosine Diphosphate Ribose
8%
Gene Expression
8%