Biochemistry, Genetics and Molecular Biology
Histone
84%
Lysine
74%
Nucleosome
65%
Tudor Domain
49%
P53
47%
Ubiquitination
41%
Ubiquitin
37%
Methylation
35%
C-Terminus
35%
DNA Synthesis
33%
Acetylation
33%
Nuclear Magnetic Resonance Spectroscopy
33%
BRCA1
32%
Double-Strand DNA Break
29%
Solution Structure
28%
DNA Repair
28%
BRCT Domain
28%
Conformation
28%
DNA Damage Response
27%
Histone H3
26%
N-Terminus
26%
Binding Domain
25%
DNA Damage
25%
Amino Acids
24%
Dynamics
21%
Posttranslational Modification
20%
Transcription
20%
Binding Protein
20%
Cell Cycle
19%
Histone H4
17%
RNA
17%
Disulfide
17%
Cryoelectron Microscopy
17%
N-Acetyltransferase
17%
Adenosine Triphosphate
17%
Small Molecule
16%
Missense
16%
Ubiquitin-Conjugating Enzyme
16%
Arginine
16%
Homologous Recombination
15%
Conformational Change
15%
DNA Polymerase
14%
Protease
14%
Ubiquitin Ligase
14%
Translesion Synthesis
14%
Elongin
13%
SPOP
13%
JMJD2A
13%
DNA Methyltransferase
13%
RNA-binding Protein
13%
Keyphrases
53BP1
100%
Tudor
41%
DNA Damage
40%
Tudor Domain
39%
Histone
38%
Solution Structure
32%
Ubiquitin
30%
Breast Cancer Susceptibility Gene 1 (BRCA1)
30%
DNA Methyltransferase 1 (DNMT1)
27%
Chromatin
26%
Ubiquitylation
26%
Chaperone
24%
Methyllysine
24%
3D Structure
23%
NMR Spectroscopy
23%
DNA Damage Response
22%
BRCT Domain
22%
Cryogenic Electron Microscopy
22%
MCPH1
20%
Nucleosome Recognition
20%
RNF168
20%
DNA Replication
20%
Conformational Change
19%
Facilitates Chromatin Transcription
17%
Distal Hereditary Motor Neuropathy (dHMN)
17%
H3-H4
16%
Methylation
16%
H3K4me3
16%
H4K20me1
16%
Methyl-lysine Binding
16%
DNA Repair
15%
Dementia
15%
Post-translational Modification
15%
Ubiquitin Ligase
14%
Binding Mode
14%
SPOP mutation
14%
Hearing Impairment
14%
Phosphorylation
14%
Elongin C
13%
PHF20
13%
JMJD2A
13%
Histone H3K4
13%
MDC1
13%
Rtt106
13%
Conformational Flexibility
13%
Von Hippel-Lindau
13%
Proteinase Inhibitor
13%
Breast Cancer
13%
Histone H4
12%
Disulfide Bridge
12%
