Keyphrases
Lichens
100%
Ramalina
52%
Thallus
32%
Lipid Nanoparticles
31%
Amino Acids
28%
Bacillus Thuringiensis
27%
Self-assembly
27%
Israel
26%
Spodoptera Littoralis
26%
Biomonitoring
24%
Biocompatibility
22%
Heavy Metals
21%
Tryptophan
20%
Amyloid-like
20%
Air Pollution
20%
Self-assembling Peptide
19%
Diphenylalanine
17%
Dipeptide
17%
Alzheimer's Disease
16%
Nanotechnology
16%
Cell Membrane
15%
Peptide Self-assembly
14%
Nanostructures
14%
Bio-inspired
14%
Chlorophyll a (Chl a)
14%
Peptide Assembly
13%
Rhizoctonia
13%
Lichen Thallus
13%
Nanomedicine
13%
RNA Therapeutics
13%
Minimalistic
13%
Transplanted Lichens
12%
Biomedical Applications
12%
Phenylalanine
12%
Small Interfering RNA (siRNA)
12%
Supramolecular Materials
11%
Sulfur
11%
Noctuidae
11%
Leukocytes
11%
Tomato
10%
Amyloid Formation
10%
Neurodegenerative Diseases
10%
Amyloidogenic
10%
Spectral Reflectance
9%
Egyptian Cotton Leafworm
9%
Gene Expression
9%
Peptide-based
9%
Ethylene
9%
Physical Properties
9%
Naphthoquinone
9%
Cytotoxicity
9%
Supramolecular Self-assembly
9%
Chlorophyll Degradation
9%
Stress Ethylene
9%
Elemental Content
8%
Metabolite Amyloids
8%
Amino Acids-based
8%
Cancer Cells
8%
Lymphocytes
8%
Small Molecules
8%
PHF6
8%
Phosphorylation
8%
Amyloid Fibrils
8%
Functional Materials
8%
Short Peptides
8%
Piezoelectric Materials
8%
Coal-fired Power Plant
8%
Nanoparticles
8%
Energy Harvesting
7%
Hydrogen Bonds (H-bonds)
7%
Mechanistic Insight
7%
Supramolecular Assembly
7%
Immune Response
7%
Biomaterials
7%
Amyloid Protein
7%
Monoclonal Antibody
7%
Caloplaca
7%
Type III Effector
7%
Endotoxin
7%
Virus
7%
Neuroblastoma Cells
7%
Parkinson's Disease
7%
Ethylene Production
7%
Type 2 Diabetes Mellitus (T2DM)
7%
Pantoea Agglomerans
7%
Physiological Parameters
6%
Human Islet Amyloid Polypeptide (hIAPP)
6%
Focal Adhesion Kinase
6%
Protein Aggregation
6%
RNA Interference
6%
Gene Silencing
6%
Neu5Gc
6%
Insecticidal Activity
6%
Alpha-synuclein (α-syn)
6%
Biological Control
6%
Tissue Engineering
6%
Aromatic Amino Acids
6%
Huntington's Disease
6%
Inflammation
6%
Mouse Model
6%