Novel affinity adsorbents for metal-free purification of a solubility tag

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Rational design of a small peptidomimetic ligand to capture a viral spike protein

Publication . Costa, Carlos Filipe Santos; Lychko, Iana; Natal, Carolina Mota; Barbosa, Arménio Jorge Moura; Dias, Ana Margarida Gonçalves Carvalho; Roque, Ana Cecília Afonso; DQ - Departamento de Química; UCIBIO - Applied Molecular Biosciences Unit; Elsevier

The availability of purified antigenic proteins is critical to develop agents to prevent, diagnose, or treat infectious diseases. In this context, antigenic proteins are produced by recombinant expression in host cells and further purified, typically by chromatographic methods. Chromatographic steps that allow the one-step capture of the antigenic protein are important to streamline the purification train. Here, we present the design and development of an adsorbent bearing a synthetic affinity ligand to capture the SARS-CoV-2 spike protein, used as a model antigenic protein. A 120-ligand combinatorial library was designed in silico and then synthesised in solid phase, and both were computationally and experimentally screened for binding to the spike protein. One lead ligand was selected for yielding > 95 % binding, and 64–73 % recovery of original strain spike protein, its receptor-binding domain (RBD), and Omicron BA.5 variant spike protein. An enrichment factor of 15 was found when capturing the spike protein from a clarified supernatant sample. Complementary molecular dynamics simulations allowed a better understanding of the interactions between the lead ligand and the spike protein, which mainly consist of hydrophobic interactions, some hydrogen bonds and salt bridges formed with an important ligand carboxyl group. Overall, the methodology is a fast and efficient platform to develop affinity ligands for the purification of antigenic proteins in future pandemics.

2025-08-27Artigo científico

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Fundação para a Ciência e a Tecnologia

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2023.01023.BD