Genetic Incorporation of Non-canonical Amino Acids in Anti-HER2 VHH: Expression and Characterization

Nuria Ramos, Donna-Joe Bigot, Gabrielle Zeder-Lutz, J. Strub, A. Dagkesamanskaya, Régis Fauré, Sébastien Nouaille, Cédric Y. Montanier, Gilles Ferry, Renaud Wagner, Sarah Cianférani, J. A. Boutin, Gilles Truan
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Abstract

Nanobodies– or VHH– are small proteins (~120 residues) issued from antibodies with an intact recognition for the original target of the antibody. In the present study, we show the possibility of incorporating non-canonical amino acids at precise location of the sequence via classical genetic techniques (Genetic Code Expansion). We demonstrate that the amount of recombinant protein obtained is compatible with large production format. We show that this protein can be purified, that its sequence corresponds to the theoretical molecular weight and that the two non-canonical amino acids are incorporated at the desired locations of the sequence. Finally, we show by SPR that the affinity of these VHHs is maintained towards its target, HER2.
非规范氨基酸在抗her2 VHH中的遗传结合:表达和表征
纳米体(或VHH)是由抗体产生的小蛋白质(约120个残基),对抗体的原始靶标具有完整的识别。在目前的研究中,我们展示了通过经典遗传技术(遗传密码扩展)在序列的精确位置结合非规范氨基酸的可能性。我们证明获得的重组蛋白量与大生产格式兼容。我们证明该蛋白可以被纯化,其序列符合理论分子量,并且两个非规范氨基酸在序列的所需位置被合并。最后,我们通过SPR表明,这些vhh对其靶标HER2保持亲和力。
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