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Surface imprinted bio‐nanocomposites for affinity separation of a cellular DNA repair protein

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Apurinic/apyrimidinic endonuclease 1 (APE1) is a multifunctional DNA repair protein localized in different subcellular compartments. The mechanisms responsible for the highly regulated subcellular localization and “interactomes” of this protein are… Click to show full abstract

Apurinic/apyrimidinic endonuclease 1 (APE1) is a multifunctional DNA repair protein localized in different subcellular compartments. The mechanisms responsible for the highly regulated subcellular localization and “interactomes” of this protein are not fully understood but have been closely correlated to the posttranslational modifications in different biological context. In this work, we attempted to develop a bio‐nanocomposite with antibody‐like properties that could capture APE1 from cellular matrices to enable the comprehensive study of this protein. By fixing the template APE1 on the avidin‐modified surface of silica‐coated magnetic nanoparticles, we first added 3‐aminophenylboronic acid to react with the glycosyl residues of avidin, followed by addition of 2‐acrylamido‐2‐methylpropane sulfonic acid as the second functional monomer to perform the first step imprinting reaction. To further enhance the affinity and selectivity of the binding sites, we carried out the second step imprinting reaction with dopamine as the functional monomer. After the polymerization, we modified the nonimprinted sites with methoxypoly (ethylene glycol) amine (mPEG‐NH2). The resulting molecularly imprinted polymer‐based bio‐nanocomposite showed high affinity, specificity, and capacity for template APE1. It allowed for the extraction of APE1 from the cell lysates with high recovery and purity. Moreover, the bound protein could be effectively released from the bio‐nanocomposite with high activity. The bio‐nanocomposite offers a very useful tool for the separation of APE1 from various complex biological samples.

Keywords: dna repair; repair protein; bio nanocomposite

Journal Title: Biopolymers
Year Published: 2023

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