Biochemistry, Genetics and Molecular Biology
Small Molecule
100%
Luciferase
83%
Protein Kinases
83%
Surface Property
80%
DNA Binding
68%
Dimerization
53%
DNA Sequence
52%
DNA-binding Protein
52%
DNA Methylation
52%
Leucine Zipper
48%
Phage Display
41%
Amyloid
41%
Circular Dichroism
38%
Targeting Protein
36%
Phosphotransferase
36%
Kinase
36%
Transcription Factors
35%
Eicosanoid Receptor
31%
Methylation
31%
Oligonucleotide
31%
Basic Helix-Loop-Helix
29%
Coiled Coil
27%
Active Site
26%
Staurosporine
25%
Denaturation
25%
Protein Secondary Structure
23%
Alanine
23%
Point Mutation
20%
Molecule
20%
Bcl-2
20%
Nucleic Acid
20%
Dasatinib
20%
Protein G
20%
Biochemistry
20%
Protein Kinase A
20%
Single-Stranded DNA
20%
Dynamics
20%
Genetics
20%
Thrombin
20%
Biogenesis
20%
Avidin
20%
P53
20%
NeutrAvidin
20%
Immunoglobulin Enhancer Binding Protein
20%
DNA Denaturation
20%
Amyloidosis
20%
Tyrosine Phosphorylation
20%
Renaturation
20%
Biopolymer
20%
Epigenetics
20%
Keyphrases
Intracellular Delivery
41%
Tyrosine Phosphorylation
41%
Split Luciferase
41%
Benzene
41%
Diazonium Ions
41%
Ligand-gated
20%
Cd Doping
20%
Blue Photoluminescence
20%
Enhancer-binding Protein
20%
Selective Synthesis
20%
Directed Evolution
20%
ZnSe Quantum Dots
20%
Miniature Protein
20%
Molecule-responsive
20%
Chemically Induced Dimerization
20%
Damage Sensor
20%
Dimerization
20%
Peptide Macrocycles
20%
Protease Sensor
20%
Juxtamembrane Region
20%
DNA Binding
20%
Amyloid Fibrillation
20%
Bivalent Ligand
20%
Phage Display Technology
20%
Bivalent Inhibitors
20%
Phage Display
20%
Peptide Ligand
20%
Library Discovery
20%
Neutravidin
20%
DNA Repair
20%
Cell Death
20%
Multivalent Supramolecular Assembly
20%
CAMP-dependent Protein Kinase
20%
Tethered Peptides
20%
Hyperthermophilic
20%
Direct Detection
20%
BH3I-1
20%
DNA Detection
20%
Protein Kinase Inhibitors
20%
DNA Diagnostics
20%
Coiled Coil
20%
Transcription Factor
20%
Peptide Affinity Tags
20%
Corresponding Author
20%
AGC Kinase
20%
Supramolecule
20%
Structure Function
20%
Tinkering
20%
Cell-free Approach
20%
Binding Epitope
20%