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Improving cell-free glycoprotein synthesis by characterizing and enriching native membrane vesicles

Author

Listed:
  • Jasmine M. Hershewe

    (Northwestern University, Technological Institute E136
    Northwestern University
    Northwestern University, Technological Institute E136)

  • Katherine F. Warfel

    (Northwestern University, Technological Institute E136
    Northwestern University
    Northwestern University, Technological Institute E136)

  • Shaelyn M. Iyer

    (Northwestern University, Technological Institute E136)

  • Justin A. Peruzzi

    (Northwestern University, Technological Institute E136
    Northwestern University
    Northwestern University, Technological Institute E136)

  • Claretta J. Sullivan

    (Wright-Patterson Air Force Base)

  • Eric W. Roth

    (Tech Institute A/B Wing A173)

  • Matthew P. DeLisa

    (Cornell University
    Cornell University
    Cornell University)

  • Neha P. Kamat

    (Northwestern University
    Northwestern University, Technological Institute E136
    Northwestern University, Technological Institute E310)

  • Michael C. Jewett

    (Northwestern University, Technological Institute E136
    Northwestern University
    Northwestern University, Technological Institute E136
    Northwestern University)

Abstract

Cell-free gene expression (CFE) systems from crude cellular extracts have attracted much attention for biomanufacturing and synthetic biology. However, activating membrane-dependent functionality of cell-derived vesicles in bacterial CFE systems has been limited. Here, we address this limitation by characterizing native membrane vesicles in Escherichia coli-based CFE extracts and describing methods to enrich vesicles with heterologous, membrane-bound machinery. As a model, we focus on bacterial glycoengineering. We first use multiple, orthogonal techniques to characterize vesicles and show how extract processing methods can be used to increase concentrations of membrane vesicles in CFE systems. Then, we show that extracts enriched in vesicle number also display enhanced concentrations of heterologous membrane protein cargo. Finally, we apply our methods to enrich membrane-bound oligosaccharyltransferases and lipid-linked oligosaccharides for improving cell-free N-linked and O-linked glycoprotein synthesis. We anticipate that these methods will facilitate on-demand glycoprotein production and enable new CFE systems with membrane-associated activities.

Suggested Citation

  • Jasmine M. Hershewe & Katherine F. Warfel & Shaelyn M. Iyer & Justin A. Peruzzi & Claretta J. Sullivan & Eric W. Roth & Matthew P. DeLisa & Neha P. Kamat & Michael C. Jewett, 2021. "Improving cell-free glycoprotein synthesis by characterizing and enriching native membrane vesicles," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22329-3
    DOI: 10.1038/s41467-021-22329-3
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    Cited by:

    1. Luis F. Schachner & Christopher Mullen & Wilson Phung & Joshua D. Hinkle & Michelle Irwin Beardsley & Tracy Bentley & Peter Day & Christina Tsai & Siddharth Sukumaran & Tomasz Baginski & Danielle DiCa, 2024. "Exposing the molecular heterogeneity of glycosylated biotherapeutics," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    2. Wan-Qiu Liu & Xiangyang Ji & Fang Ba & Yufei Zhang & Huiling Xu & Shuhui Huang & Xiao Zheng & Yifan Liu & Shengjie Ling & Michael C. Jewett & Jian Li, 2024. "Cell-free biosynthesis and engineering of ribosomally synthesized lanthipeptides," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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