INIS
comparative evaluations
100%
oligonucleotides
100%
dynamics
100%
protons
100%
cytosine
100%
dna damages
66%
nmr
66%
resonance
66%
hydrogen
66%
dna
33%
interactions
33%
stability
33%
inflammation
33%
signals
33%
repair
33%
molecules
33%
resolution
33%
mimic
33%
substrates
33%
solutions
33%
methylation
33%
excision repair
33%
isotopes
33%
perturbations
33%
crystallography
33%
rotation
33%
enrichment
33%
geometry
33%
thermodynamics
33%
electrons
33%
chemical shift
33%
nitrogen 15
33%
bonding
33%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
5-Methylcytosine
100%
Oligonucleotide
30%
Proton
30%
Cytosine
30%
DNA Damage
20%
Molecule
10%
Methylation
10%
Solution and Solubility
10%
DNA Sequence
10%
Base Excision Repair
10%
Thermodynamics
10%
Epigenetics
10%
Chemical Shift
10%
Electron
10%
Crystal Structure
10%
Hydrogen Bond
10%
Rotation
10%
Pharmacology, Toxicology and Pharmaceutical Science
5 Methylcytosine
100%
Dinucleotide
100%
DNA
30%
Oligonucleotide
30%
Cytosine
30%
Proton
30%
Inflammation
10%
Isotope
10%
Hydrogen Bond
10%
Hydrogen
10%
Nitrogen 15
10%
Keyphrases
Dynamic Effects
100%
Structural Effect
100%
15N Enrichment
10%
Rmsd
10%
Slow Rotation
10%