Biochemistry, Genetics and Molecular Biology
Protein Folding
100%
Phosphotransferase
100%
Kinase
100%
Cell Growth
86%
Kinetics
83%
Budding Yeast
83%
Bacterial Immunity
83%
Environmental Stress
66%
Tryptophan
66%
Denaturation
66%
Osmotic Stress
66%
Pyrophosphate
66%
Folding Mechanism
66%
Inositol
66%
Surface Area
66%
Protein Kinases
66%
Gene Expression
66%
Protein Structure
50%
Messenger RNA
50%
Transcription Factors
50%
Signal Transduction
50%
Saccharomyces cerevisiae
45%
Promoter Region
40%
Eukaryote
40%
Conformational Change
40%
AMP-activated Protein Kinase
40%
Oxidative Stress
38%
Microarrays
38%
Tyrosine
33%
Protein Domain
33%
Genome Wide Association Study
33%
Second Messenger System
33%
DNA Microarray
33%
Stress Granule
33%
Paracoccus pantotrophus
33%
Peptide Sequence
33%
Polymerase
33%
Phosphatase
33%
Gene Function
33%
Mitogen-Activated Protein Kinase
33%
DnaA
33%
Energy Landscape
33%
DNA Polymerase
33%
Protein Stability
33%
Folding Kinetics
33%
Sodium Sulfate
33%
Microcirculation
33%
Amino Acids
33%
Cell Metabolism
27%
Cyclic Adenosine Monophosphate
24%
Keyphrases
Pseudoazurin
33%
Protein Kinase
33%
System-level Analysis
33%
DNA Microarray
33%
Gene Function
33%
Osmotic Stress Signaling
33%
Target of Rapamycin Kinase
33%
TOR Kinase
33%
InsP7
33%
Signal Information
33%
Siw14
33%
PBP1
33%
TORC1 Signaling
33%
Environmental Stress Response
33%
Fluorescence Polarization Assay
33%
Protein Phosphatase 2A (PP2A)
25%
Spike Receptor Binding Domain
22%
Two-state Transition
22%
Urea Concentration
22%
Sch9
18%
Microarray Data
16%
Plague
16%
Yeast Cells
16%
Stress Defense
16%
TORC1 Pathway
16%
Starvation Response
16%
Complementary DNA (cDNA)
16%
Microcapillary
16%
Quantitative Kinetics
16%
Mixing Device
16%
Wild Strain
16%
Gene Expression Level
16%
Quench-flow
16%
Microarray
16%
Thiolutin
16%
Mixed Proteins
16%
Greek Key
16%
Protein Kinase Activity
13%
Phosphorylation
13%
Structural Unfolding
11%
State Mechanism
11%
Hierarchical Mechanism
11%
Stabilization Conditions
11%
Helical Propensity
11%
Two-state Model
11%
Three-state Model
11%
Denaturants
11%
SARS-CoV-2 Exposure
11%
Fidelity of DNA Synthesis
11%
Polymerase Structure
11%
Immunology and Microbiology
Oxidative Stress
50%
Cell Growth
45%
Sirolimus
33%
Second Messenger
33%
Receptor Binding
33%
Transcription Factors
33%
Prevalence
33%
Severe Acute Respiratory Syndrome Coronavirus 2
33%
Budding Yeast
33%
Humoral Immunity
33%
Eukaryote
27%
Yeast Cell
25%
Osmotic Stress
25%
Spike
20%
Neutralizing Antibody
20%
Downregulation
16%
Upregulation
16%
Ribosome
16%
Protein Synthesis
16%
Heat Stress
16%
Titer
13%
Saccharomyces cerevisiae
12%
Stress
8%
Heat Shock
8%
Cell Survival
8%
Hyperosmotic Stress
8%
Quantitative Reverse Transcription Polymerase Chain Reaction
8%
Antibody Production
6%
Seroprevalence
6%
COVID-19
6%
Virus Nucleocapsid
6%
Monospecific Antibody
6%
Polymerase Chain Reaction
6%