Cell-free biosynthesis combined with deep learning accelerates de 
novo-development of antimicrobial peptides

Pandi, Amir; Adam, David; Zare, Amir; Trinh, Van Tuan; Schaefer, Stefan L.; Burt, Marie; Klabunde, Björn; Bobkova, Elizaveta; Kushwaha, Manish; Foroughijabbari, Yeganeh; Braun, Peter; Spahn, Christoph; Preußer, Christian; Pogge von Strandmann, Elke; Bode, Helge B.; von Buttlar, Heiner; Bertrams, Wilhelm; Jung, Anna Lena; Abendroth, Frank; Schmeck, Bernd; Hummer, Gerhard; Vázquez, Olalla; Erb, Tobias J.

doi:10.1038/s41467-023-42434-9

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Cell-free biosynthesis combined with deep learning accelerates de novo-development of antimicrobial peptides

Pandi, A., Adam, D., Zare, A., Trinh, V. T., Schaefer, S. L., Burt, M., et al. (2023). Cell-free biosynthesis combined with deep learning accelerates de novo-development of antimicrobial peptides. Nature Communications, 14(1): 7197. doi:10.1038/s41467-023-42434-9.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000D-E5F0-1 Version Permalink: https://hdl.handle.net/21.11116/0000-000D-E5F1-0

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Creators:
Pandi, Amir¹, Author
Adam, David^{1, 2}, Author
Zare, Amir¹, Author
Trinh, Van Tuan³, Author
Schaefer, Stefan L.⁴, Author
Burt, Marie⁵, Author
Klabunde, Björn⁵, Author
Bobkova, Elizaveta¹, Author
Kushwaha, Manish⁶, Author
Foroughijabbari, Yeganeh¹, Author
Braun, Peter^{2, 7, 8}, Author
Spahn, Christoph⁹, Author
Preußer, Christian^{10, 11}, Author
Pogge von Strandmann, Elke^{10, 11}, Author
Bode, Helge B.^{9, 12, 13, 14, 15}, Author
von Buttlar, Heiner^{2, 7}, Author
Bertrams, Wilhelm⁵, Author
Jung, Anna Lena^{5, 16}, Author
Abendroth, Frank³, Author
Schmeck, Bernd^{5, 15, 16, 17, 18, 19}, Author
Hummer, Gerhard^{4, 20}, Author Vázquez, Olalla^{3, 15}, AuthorErb, Tobias J.^{1, 15}, Author more..

Affiliations:
1Department of Biochemistry and Synthetic Metabolism, Max Planck Institute for Terrestrial Microbiology, Marburg, Germany, ou_persistent22
2Bundeswehr Institute of Microbiology, Munich, Germany, ou_persistent22
3Department of Chemistry, Philipps-University Marburg, Marburg, Germany, ou_persistent22
4Department of Theoretical Biophysics, Max Planck Institute of Biophysics, Max Planck Society, ou_2068292
5Institute for Lung Research, Universities of Giessen and Marburg Lung Center, Philipps-University Marburg, German Center for Lung Research (DZL), Marburg, Germany, ou_persistent22
6Université Paris-Saclay, INRAe, AgroParisTech, Micalis Institute, Jouy-en-Josas, France, ou_persistent22
7German Center for Infection Research (DZIF), Munich, Germany, ou_persistent22
8Fraunhofer Institute for Translational Medicine and Pharmacology (ITMP), Immunology, Infection and Pandemic Research, Munich, Germany, ou_persistent22
9Department of Natural Products in Organismic Interactions, Max Planck Institute for Terrestrial Microbiology, Marburg, Germany, ou_persistent22
10Institute for Tumor Immunology, Center for Tumor Biology and Immunology, Philipps-University Marburg, Marburg, Germany, ou_persistent22
11Core Facility Extracellular Vesicles, Center for Tumor Biology and Immunology, Philipps-University of Marburg, Marburg, Germany, ou_persistent22
12Molecular Biotechnology, Department of Biosciences, Goethe University Frankfurt, Frankfurt am Main, Germany, ou_persistent22
13Department of Chemistry, Chemical Biology, Philipps-University Marburg, Marburg, Germany, ou_persistent22
14Senckenberg Gesellschaft für Naturforschung, Frankfurt, Germany, ou_persistent22
15SYNMIKRO Center of Synthetic Microbiology, Marburg, Germany, ou_persistent22
16Core Facility Flow Cytometry – Bacterial Vesicles, Philipps-University Marburg, Marburg, Germany, ou_persistent22
17Department of Medicine, Pulmonary and Critical Care Medicine, University Medical Center Marburg, Philipps-University Marburg, Marburg, Germany, ou_persistent22
18Institute for Lung Health (ILH), Giessen, Germany, ou_persistent22
19Member of the German Center for Infectious Disease Research (DZIF), Marburg, Germany, ou_persistent22
20Institute for Biophysics, Goethe University Frankfurt, Frankfurt am Main, Germany, ou_persistent22

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Free keywords: Antimicrobials, Expression systems, Peptides, Synthetic biology

Abstract: Bioactive peptides are key molecules in health and medicine. Deep learning holds a big promise for the discovery and design of bioactive peptides. Yet, suitable experimental approaches are required to validate candidates in high throughput and at low cost. Here, we established a cell-free protein synthesis (CFPS) pipeline for the rapid and inexpensive production of antimicrobial peptides (AMPs) directly from DNA templates. To validate our platform, we used deep learning to design thousands of AMPs de novo. Using computational methods, we prioritized 500 candidates that we produced and screened with our CFPS pipeline. We identified 30 functional AMPs, which we characterized further through molecular dynamics simulations, antimicrobial activity and toxicity. Notably, six de novo-AMPs feature broad-spectrum activity against multidrug-resistant pathogens and do not develop bacterial resistance. Our work demonstrates the potential of CFPS for high throughput and low-cost production and testing of bioactive peptides within less than 24 h.

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Language(s): eng - English

Dates: Submitted: 2023-07-21Accepted: 2023-10-10Published Online: 2023-11-08

Publication Status: Published online

Pages: 14

Publishing info: -

Table of Contents: -

Rev. Type: Peer

Identifiers: DOI: 10.1038/s41467-023-42434-9
BibTex Citekey: pandi_cell-free_2023

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Title: Nature Communications

Abbreviation : Nat. Commun.

Source Genre: Journal

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Publ. Info: London : Nature Publishing Group

Pages: - Volume / Issue: 14 (1) Sequence Number: 7197 Start / End Page: - Identifier: ISSN: 2041-1723
CoNE: https://pure.mpg.de/cone/journals/resource/2041-1723