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Influence of self-assembly on the performance of antimicrobial peptides
Sara Malekkhaiat Haffner,
Martin Malmsten
13
Citations (Scopus)
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Keyphrases
Self-assembly
100%
Antimicrobial Peptides
100%
Antimicrobial
22%
Membrane Interaction
22%
Antimicrobial Activity
22%
Peptide Interaction
11%
Interaction Effect
11%
Bacterial Lipopolysaccharide
11%
Low Toxicity
11%
Peptide Self-assembly
11%
Peptide Aggregation
11%
Bacterial Strains
11%
Broad-spectrum Antimicrobials
11%
Health Challenges
11%
Anti-inflammatory Effect
11%
Oligomerization
11%
Bacterial Membrane
11%
Conventional Antibiotics
11%
Flocculation
11%
Human Cells
11%
Novel Types
11%
Novel Pathways
11%
Inflammation
11%
Pharmacology, Toxicology and Pharmaceutical Science
Polypeptide Antibiotic Agent
100%
Antiinfective Agent
33%
Bacterium Lipopolysaccharide
22%
Antimicrobial Agent
22%
Antiinflammatory Activity
11%
Antibiotics
11%
Inflammation
11%
Infection
11%
Biomaterial
11%
Amyloid Protein
11%
Material Science
Antimicrobial Peptide
100%
Self Assembly
100%
Oligomerization
11%
Biomaterial
11%
Immunology and Microbiology
Antimicrobial Peptides
100%
Peptides
22%
Antimicrobial Agent
22%
Flocculation
11%
Antiinflammatory Activity
11%
Human Cell
11%
Oligomerization
11%
Bacterial Strain
11%
Bacterial Membrane
11%
Agricultural and Biological Sciences
Antimicrobial Peptides
100%
Amyloid Protein
11%
Biocompatible Material
11%
Lipopolysaccharide
11%
Biochemistry, Genetics and Molecular Biology
Flocculation
11%