Keyphrases
Multimeric Ligands
100%
Melanoma
100%
Metastatic Melanoma
96%
Heterobivalent
68%
Surface Proteins
48%
Proposed Work
41%
Multifunctional Agents
37%
Cell Surface Receptor
37%
Convergent Synthesis
37%
Multivalent Ligands
34%
Melanocortin 1 Receptor (MC1R)
34%
Imaging Agents
34%
High Affinity
24%
Targeted Agents
20%
Single-epitope
20%
Formyl Peptide Receptor
20%
Linker Chemistry
20%
High-throughput Binding Assays
20%
Ligand Chemistry
20%
Multiple Normals
20%
Multiple Melanoma
20%
Targeted Delivery
17%
In Vivo Imaging
17%
Fluorophore
17%
Analytical Method
17%
Analytical Solution
17%
Tissue Microarray
17%
Single-photon Emission Computed Tomography (SPECT)
17%
Pharmacokinetics
17%
Binding Selectivity
17%
Targeting Ligands
17%
G Protein-coupled Receptor
17%
Bivalent Ligand
17%
Overexpression
17%
Receptor System
17%
Receptor Targets
17%
Chelates
17%
Monovalent Cations
17%
DOTA Derivative
17%
Immunohistochemistry
17%
Molecular Phenotype
17%
Biodistribution
17%
Target Receptor
17%
Ligand-directed
7%
Expression Pattern
7%
DNA Microarray
7%
Multimers
7%
Medicine and Dentistry
Nodular Melanoma
100%
Receptor
89%
Metastatic Melanoma
82%
Cell Surface Protein
42%
Absorption Distribution Metabolism Excretion
33%
Cell Surface Receptor
32%
Tetraxetan
28%
Imaging Agent
28%
Cross-Link
28%
Epitope
21%
Biodistribution
17%
Binding Assay
17%
Formylpeptide Receptor
16%
Melanocortin 1 Receptor
16%
Immunohistochemistry
14%
Tissue Microarray
14%
G Protein Coupled Receptor
14%
Indium 111
14%
Disease
14%
Analytic Method
14%
Pharmacokinetics
14%
Ex Vivo
14%
Single-Photon Emission Computed Tomography
14%
Monomer
10%
Polymer
7%
Pharmacology, Toxicology and Pharmaceutical Science
Melanoma
100%
Receptor
89%
Metastatic Melanoma
82%
Cell Surface Protein
42%
Cell Surface Receptor
32%
Absorption Distribution Metabolism Excretion
28%
Tetraxetan
28%
Epitope
21%
Biodistribution
17%
Formylpeptide Receptor
16%
Indium 111
16%
G Protein Coupled Receptor
14%
Binding Selectivity
14%
Melanocortin 1 Receptor
14%
Disease
14%
Pharmacokinetics
14%
Monomer
10%
Polymer
7%