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  • In vivo polyester immobilized sortase for tagless protein purification

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    Author(s)
    Hay, Iain D
    Du, Jinping
    Reyes, Patricia Rubio
    Rehm, Bernd HA
    Griffith University Author(s)
    Rehm, Bernd
    Year published
    2015
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    Abstract
    Background: Laboratory scale recombinant protein production and purification techniques are often complicated, involving multiple chromatography steps and specialized equipment and reagents. Here it was demonstrated that recombinant proteins can be expressed as covalently immobilized to the surface of polyester (polyhydroxyalkanoate, PHA) beads in vivo in Escherichia coli by genetically fusing them to a polyester synthase gene (phaC). The insertion of a self-cleaving module, a modified sortase A (SrtA) from Staphylococcus aureus and its five amino acid recognition sequence between the synthase and the target protein led to ...
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    Background: Laboratory scale recombinant protein production and purification techniques are often complicated, involving multiple chromatography steps and specialized equipment and reagents. Here it was demonstrated that recombinant proteins can be expressed as covalently immobilized to the surface of polyester (polyhydroxyalkanoate, PHA) beads in vivo in Escherichia coli by genetically fusing them to a polyester synthase gene (phaC). The insertion of a self-cleaving module, a modified sortase A (SrtA) from Staphylococcus aureus and its five amino acid recognition sequence between the synthase and the target protein led to a simple protein production and purification method. Results: The generation of hybrid genes encoding tripartite PhaC-SrtA-Target fusion proteins, enabled immobilization of proteins of interest to the surface of PHA beads in vivo. After simple cell lysis and isolation of the PHA beads, the target proteins could be selectively and efficiently released form the beads by activating the sortase with CaCl2 and triglycine. Up to 6 mg/l of soluble proteins at a purity of ~98 % could be isolated in one step with no optimization. This process was used to produce and isolate three proteins: Green fluorescent protein, maltose binding protein and the Mycobacterium tuberculosis vaccine candidate Rv1626. Conclusions: We have developed a new technique for easy production and purification of recombinant proteins. This technique is capable of producing and purifying high yields of proteins suitable for research application in less than 2 days. No costly or specialized protein chromatography equipment, resins, reagents or expertise are required.
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    Journal Title
    Microbial Cell Factories
    Volume
    14
    Issue
    1
    DOI
    https://doi.org/10.1186/s12934-015-0385-3
    Copyright Statement
    © 2015 Hay et al. This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
    Note
    Page numbers are not for citation purposes. Instead, this article has the unique article number of 190.
    Subject
    Microbiology
    Microbiology not elsewhere classified
    Industrial biotechnology
    Publication URI
    http://hdl.handle.net/10072/342779
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    • Journal articles

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