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Type-III secretion filaments as scaffolds for inorganic nanostructures
Anum Azam,
Danielle Tullman-Ercek
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Corresponding author for this work
Chemical and Biological Engineering
Research output
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Article
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peer-review
7
Scopus citations
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Keyphrases
Type III Secretion
100%
Inorganic Nanostructures
100%
PrgI
100%
Salmonella Enterica
40%
Nanostructured Materials
20%
Size Scaling
20%
Nanostructures
20%
Catalytic Properties
20%
Cell Membrane
20%
Amino Acids
20%
Magnetic Properties
20%
Self-assembling
20%
Type 3 Secretion System (T3SS)
20%
High Affinity
20%
Small Protein
20%
Living Cells
20%
Chemical Composition
20%
Size-and-shape
20%
Filamentary Structure
20%
Metal Binding
20%
Functional Particles
20%
Electrical Properties
20%
Mutant Strains
20%
N-terminal Region
20%
Energy Transduction
20%
Gold Surface
20%
Chemical Reduction
20%
Nanostructures Synthesis
20%
Affinity Peptide Tag
20%
Biochemistry, Genetics and Molecular Biology
Secretion (Process)
100%
N-Terminus
50%
Magnetism
50%
Type III Secretion System
50%
Protein Filament
50%
Amino Acids
50%
Energy Transfer
50%
Metal Binding
50%
Cell Membrane
50%
Salmonella enterica
50%
Protein Tag
50%
Material Science
Nanostructure
100%
Amino Acids
50%
Nanostructured Material
50%
Surface (Surface Science)
50%
Cell Membrane
50%
Phase Composition
50%