INIS
photodynamic therapy
100%
copper
89%
proteins
78%
genes
67%
kinases
58%
apoptosis
56%
transcription factors
50%
oxygen
48%
bacteria
46%
cancer
44%
membranes
38%
metals
36%
signals
35%
oxidation
33%
dna
30%
cell cycle
29%
brucella
29%
toxicity
29%
levels
29%
environment
28%
growth
24%
transcription
23%
inflammation
22%
populations
22%
control
20%
genetics
20%
copper ions
19%
asymmetry
19%
production
18%
substrates
18%
induction
18%
radiations
18%
tumor cells
18%
interleukins
18%
colon
16%
escherichia coli
16%
cytokines
15%
spatial distribution
14%
phosphatases
14%
receptors
14%
coordinates
14%
starvation
14%
graphene
14%
esters
14%
inclusions
14%
animals
14%
secretion
14%
lipoproteins
14%
chemical vapor deposition
14%
monitoring
14%
Immunology and Microbiology
Photodynamics
76%
Caulobacter Vibrioides
58%
Photosensitization
40%
Oxidative Stress
31%
Immunoglobulin Enhancer Binding Protein
23%
Homeostasis
22%
Cancer Cell
20%
Signal Transduction
18%
Tumor Cell
18%
Hypericin
17%
Cell Death
16%
Viable but Nonculturable
14%
Dimorphism
14%
Photobiology
14%
Interleukin-1 Receptor
14%
Chromosome Replication
14%
Cell Cycle
14%
Alphaproteobacteria
14%
Morphotype
14%
Gene Activation
14%
Transcriptomics
14%
Viable Cell Count
14%
Toxic Concentration
14%
Induced Mutation
14%
Colon
14%
Secretion (Process)
14%
Cell Growth
14%
Transcription Factors
13%
Morphology
10%
Gene Expression
9%
Transcriptome
7%
Chemotaxis
7%
Cell Protection
7%
Cell Division
7%
Regulon
7%
Transcription Initiation Site
7%
Bleaching
7%
Sigma Factor
7%
Cell Population
7%
Outer Membrane
7%
DNA Laddering
6%
Cell Cycle Regulation
6%
Histidine Kinase
5%
Caspase
5%
Cell Proliferation
5%
Mitochondrion
5%
Lysosome
5%
Endoplasmic reticulum
5%
Cytokine
5%
Keyphrases
Interleukin-1 Receptor
14%
Biophysical Characterization
14%
Intrinsically Disordered Domains
14%
Resistance Protein
14%
Bladder Cancer Cells
14%
Photobiology
14%
Hypericin
14%
Jacques De Vitry
14%
Redox Signaling
14%
Cu Stress
14%
Transduction Mechanism
14%
Verteporfin
14%
Phototherapeutic
14%
Transcriptomic Response
14%
MCherry
14%
Soluble Aggregates
14%
IbpA
14%
Heavy Metal Resistance
14%
Zinc-cobalt
14%
Bacterial Evolution
14%
Copper-iron
14%
Metal Homeostasis
14%
Bacterial Exposure
14%
Iron-manganese
14%
Copper-zinc
14%
Dedicated Systems
14%
Hostile Environment
14%
Transcriptomic Landscape
14%
Wet Contact
14%
Phosphate Starvation
14%
T2SS
14%
Viable but Nonculturable State
14%
Dimorphism
14%
Bimodal Response
14%
Formamidopyrimidine DNA Glycosylase
14%
Bacterial Chemotaxis
14%
Bacterial Signal Transduction
14%
Protein Coordinates
14%
Signal Transduction Proteins
14%
Chromosomal Replication
11%
Inclusion Bodies
9%
Non-classical Inclusion Body
7%
Viable Count
7%
Non-culturable Cells
7%
Cu Resistance
7%
Cycle Mechanism
7%
Tibia
5%
Historical Tradition
5%
Parchment
5%
MITRE
5%