Biochemistry, Genetics and Molecular Biology
Adenosine Diphosphate
12%
Adenosine Triphosphate
39%
Amino Acids
10%
Anisotropy
12%
AP-1 Transcription Factor
9%
Binding Site
11%
C-Terminus
9%
Carrier Protein
9%
Conformation
19%
Conformational Change
14%
Cooperation
13%
DNA Binding
33%
DNA Binding Site
9%
DNA Denaturation
12%
DNA Polymerase
21%
DNA Synthesis
24%
DNA Template
8%
DNA-binding Domain
9%
DNA-binding Protein
24%
DnaB Helicase
14%
DnaC
28%
Dynamics
15%
Energy Transfer
10%
Enzyme
33%
Escherichia coli
52%
Fluorescence Anisotropy
8%
Fluorescence Energy Transfer
9%
Genome Instability
8%
Helicase
61%
Kinetics
11%
Ligand Binding
9%
Macromolecule
9%
Mitochondrial Membrane Transport Protein
9%
Nucleic Acid
9%
Nucleotide Binding Site
7%
Plasmid
9%
Polymerase
34%
Processivity
9%
Proliferating Cell Nuclear Antigen
9%
Quantitative Technique
9%
Rap1
13%
Repressor
10%
Saccharomyces cerevisiae
25%
Shelterin
7%
Single-Stranded DNA
55%
Solution and Solubility
10%
Stoichiometry
18%
Telomere
19%
Translocase
9%
Tryptophan
10%
Keyphrases
Activator protein-1 (AP-1)
9%
Binding Mode
13%
Binding Site
9%
Conformational Transition
11%
Cooperativity
11%
DNA Binding
25%
DNA Binding Sites
7%
DNA Helicase
27%
DNA Polymerase
19%
DNA Recognition
12%
DNA Replication
12%
DNA Substrates
13%
DNA Unwinding
10%
DNA-binding Domain
9%
DnaC
28%
Escherichia Coli
50%
Fluorescence Anisotropy
11%
Fluorescence Intensity
9%
G-quadruplex
10%
Gapped DNA
14%
Helicase
27%
Hexamer
14%
Hexameric Helicase
13%
Intrinsic Affinity
9%
Kinetic Mechanism
11%
Lagging Strand
9%
Macromolecules
9%
Magnesium
8%
Nucleic Acids
8%
Nucleotide Binding Site
7%
Nucleotide Cofactor
20%
Pif1
46%
Pif1 Helicase
9%
Plasmid
9%
Polymerase
32%
Processivity
7%
Protein-DNA Interaction
7%
Rap1
13%
RepA
9%
Replication Factor
23%
Repressor
10%
Saccharomyces Cerevisiae
24%
Shelterin
7%
Single-stranded DNA (ssDNA)
100%
Single-stranded DNA Binding
9%
Single-stranded DNA-binding Protein
17%
Stoichiometry
17%
Stopped Flow
9%
Stopped-flow Analysis
9%
Telomere
16%