INIS
proteins
100%
stability
62%
urea
60%
humans
56%
salmonella
48%
ph value
46%
simulation
45%
kinases
33%
carbonic anhydrase
33%
drugs
27%
dichroism
26%
residues
24%
in vitro
24%
curves
22%
interactions
22%
quercetin
21%
yeasts
20%
dehydrogenases
20%
cytochromes
20%
ligases
18%
purification
17%
molecules
16%
enzymes
16%
thermodynamics
16%
concentration
16%
nervous system diseases
15%
dynamics
15%
fluorescence
14%
cell wall
14%
mitochondria
14%
anthraquinones
13%
aggregation
13%
values
12%
screening
12%
molecular dynamics method
12%
biosynthesis
11%
affinity
10%
dna
10%
probes
10%
antibiotics
10%
chlorides
9%
calorimetry
9%
investigations
8%
cell division
8%
strains
8%
d states
8%
gibbs free energy
8%
fluorescence spectroscopy
8%
therapy
8%
applications
8%
Biochemistry, Genetics and Molecular Biology
Protein
67%
Urea
46%
Denaturation
46%
pH
39%
Cytochrome
26%
Yeast
26%
Carbonic Anhydrase
20%
Salmonella Enterica Serovar Typhi
20%
Tau
18%
Copurification
17%
Molten Globule
17%
Thermodynamics
16%
Ligase
16%
Circular Dichroism
16%
Dynamics
14%
N-Terminus
14%
Tinospora cordifolia
13%
Pyruvate Dehydrogenase Kinase
13%
Wild Type
12%
Amyloid
12%
Quercetin
12%
Energy
12%
Denatured State
10%
Fluorescence
9%
Probe
9%
Protein Stability
9%
Enzyme
8%
In Silico Study
8%
Comprehension
8%
Circular Dichroism
8%
Temperature
8%
Medicinal Plant
8%
Protein Folding
7%
Heat
7%
Guanidinium Chloride
7%
DNA
7%
Optics
7%
Scopoletin
7%
Computer Model
6%
Preclinical Study
6%
Ellagic Acid
6%
Oligonucleotide
6%
Protein Kinase
6%
Carbonic Anhydrase II
6%
Drive
6%
Serum Albumin
6%
Aptamer
6%
Allium
6%
Anticancer
6%
Calmodulin
6%
Keyphrases
Yeast iso-1-cytochrome c
16%
MurB
13%
Sestrin2
13%
Pre-molten Globule
8%
X States
8%
Scopoletin
7%
Protein Aggregation Diseases
6%
Graphene Sensors
6%
Dementia Biomarkers
6%
Cell Wall
6%
Recombinant Human
6%
Urea Denaturation
6%
Salmonella Typhi (S. Typhi)
6%
Allium Sativum
6%
Molten Globule State
6%
Natural Small Molecules
6%
MurE Ligase
6%
D-state
6%
Tinospora Cordifolia
6%
Carbonic Anhydrase VA
6%
Biophysical Approach
6%
Mitochondrial Carbonic Anhydrases
6%
Anthraquinone
6%
Computational Characterization
6%
Folding Intermediate
6%
Human Carbonic Anhydrase II
6%
Quercetin
6%
Computational Approach
6%
Sequential Deletion
6%
Heteroarenes
6%
Anthraquinone Derivatives
6%
Sheep Serum Albumin
6%
Benzethonium Chloride
6%
Prokaryotic System
6%
In Silico Study
6%
Bioorthogonal Click
6%
Click Labeling
6%
Mur Ligases
5%
Peptidoglycan Synthesis
5%
Natural Inhibitors
5%