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  • Immobilization of azide-functionalized proteins to micro- and nanoparticles directly from cell lysate.

Immobilization of azide-functionalized proteins to micro- and nanoparticles directly from cell lysate.

Mikrochimica acta (2023-12-22)
Gunjan Saini, Mrugesh Krishna Parasa, Katherine N Clayton, Julia G Fraseur, Scott C Bolton, Kevin P Lin, Steven T Wereley, Tamara L Kinzer-Ursem
ABSTRACT

Immobilization of proteins and enzymes on solid supports has been utilized in a variety of applications, from improved protein stability on supported catalysts in industrial processes to fabrication of biosensors, biochips, and microdevices. A critical requirement for these applications is facile yet stable covalent conjugation between the immobilized and fully active protein and the solid support to produce stable, highly bio-active conjugates. Here, we report functionalization of solid surfaces (gold nanoparticles and magnetic beads) with bio-active proteins using site-specific and biorthogonal labeling and azide-alkyne cycloaddition, a click chemistry. Specifically, we recombinantly express and selectively label calcium-dependent proteins, calmodulin and calcineurin, and cAMP-dependent protein kinase A (PKA) with N-terminal azide-tags for efficient conjugation to nanoparticles and magnetic beads. We successfully immobilized the proteins on to the solid supports directly from the cell lysate with click chemistry, forgoing the step of purification. This approach is optimized to yield low particle aggregation and high levels of protein activity post-conjugation. The entire process enables streamlined workflows for bioconjugation and highly active conjugated proteins.

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Sigma-Aldrich
Protein Kinase A Inhibitor Fragment 6-22 amide, ≥97% (HPLC)