Design, synthesis and evaluation of biomimetic affinity ligands for elastases

## Abstract Bifunctional affinity ligands based on a triazine scaffold were rationally designed to target prion protein and shown to bind recombinant prion protein with high affinity and selectivity. The ligands were capable of discriminating between prion protein glycoforms and monomeric and dimer

The concepts of rational design and solid phase combinatorial chemistry were used to develop affinity adsorbents for glycoproteins. A detailed assessment of protein-carbohydrate interactions was used to identify key residues that determine monosaccharide specificity, which were subsequently exploite

An IgG-binding ligand library comprising 88 adsorbents based on a known lead compound (Li et al., 1998) was generated on an agarose solid phase. Individual members of the library were synthesized in two chemical steps using cyanuric chloride as the scaffold immobilized on the beaded support. The lib

## Abstract Affinity chromatography has played an increasingly important role both in the pharmaceutical industry and academic research. In the present study, we report our preliminary investigation on the relationship between the affinity ligand structure and its adsorption to multi‐protein sample

## Abstract Monoclonal anti‐HIV antibody 4E10 (mAb 4E10) is one of the most broadly neutralizing antibodies against HIV, directed against a specific epitope on envelope protein gp41. In the present study, a combinatorial __de novo__ design approach was used for the development of a biomimetic ligan