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Spatial constraints drive amylosome-mediated resistant starch degradation by Ruminococcus bromii in the human colon

Author

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  • Benedikt H. Wimmer

    (University of Zurich, Department of Biochemistry)

  • Sarah Moraïs

    (Ben-Gurion-University of the Negev, Department of Life Sciences
    Ben-Gurion-University of the Negev, National Institute of Biotechnology in the Negev
    Ben-Gurion University of the Negev, The Goldman Sonnenfeldt School of Sustainability and Climate Change)

  • Itai Amit

    (Ben-Gurion-University of the Negev, Department of Life Sciences
    Ben-Gurion-University of the Negev, National Institute of Biotechnology in the Negev
    Ben-Gurion University of the Negev, The Goldman Sonnenfeldt School of Sustainability and Climate Change)

  • Omar Tovar-Herrera

    (Ben-Gurion-University of the Negev, Department of Life Sciences
    Ben-Gurion-University of the Negev, National Institute of Biotechnology in the Negev
    Ben-Gurion University of the Negev, The Goldman Sonnenfeldt School of Sustainability and Climate Change)

  • Meltem Tatli

    (University of Zurich, Department of Biochemistry)

  • Anke Trautwein-Schult

    (University of Greifswald, Institute of Microbiology, Department of Microbial Proteomics)

  • Barbara Pfister

    (ETH Zurich, Institute of Molecular Plant Biology)

  • Ran Zalk

    (Ben-Gurion University of the Negev, Ilse Katz Institute for Nanoscale Science and Technology)

  • Paloma Tödtli

    (University of Zurich, Department of Biochemistry)

  • Sebastian Simoni

    (University of Zurich, Department of Biochemistry)

  • Matteo Lisibach

    (University of Zurich, Department of Biochemistry)

  • Liron Levin

    (Ben-Gurion University of the Negev, Bioinformatics Core Facility, llse Katz Institute for Nanoscale Science and Technology)

  • Dörte Becher

    (University of Greifswald, Institute of Microbiology, Department of Microbial Proteomics)

  • Edward A. Bayer

    (Ben-Gurion-University of the Negev, Department of Life Sciences
    The Weizmann Institute of Science, Department of Biomolecular Sciences)

  • Ohad Medalia

    (University of Zurich, Department of Biochemistry)

  • Itzhak Mizrahi

    (Ben-Gurion-University of the Negev, Department of Life Sciences
    Ben-Gurion-University of the Negev, National Institute of Biotechnology in the Negev
    Ben-Gurion University of the Negev, The Goldman Sonnenfeldt School of Sustainability and Climate Change)

Abstract

Degradation of complex dietary fiber by gut microbes is essential for colonic fermentation, short-chain fatty acid production, and microbiome function. Ruminococcus bromii is the primary resistant starch (RS) degrader in humans, which relies on the amylosome, a specialized cell-bound enzymatic complex. To unravel its architecture, function, and the interplay among its components, we applied a holistic multilayered approach: Cryo-electron tomography reveals that the amylosome comprises a constitutive extracellular layer extending toward the RS substrate. Proteomics demonstrates remodeling of its contents across different growth conditions, with Amy4 and Amy16 comprising 60% of the amylosome in response to RS. Structural and biochemical analyses reveal complementarity and synergistic RS degradation by these enzymes. We demonstrate that amylosome composition and RS degradation are regulated at two levels: structural constraints and expression-driven shifts in enzyme proportions enforce enzyme proximity, which allows R. bromii to fine-tune its adaptation to dietary fiber and shape colonic metabolism.

Suggested Citation

  • Benedikt H. Wimmer & Sarah Moraïs & Itai Amit & Omar Tovar-Herrera & Meltem Tatli & Anke Trautwein-Schult & Barbara Pfister & Ran Zalk & Paloma Tödtli & Sebastian Simoni & Matteo Lisibach & Liron Levi, 2025. "Spatial constraints drive amylosome-mediated resistant starch degradation by Ruminococcus bromii in the human colon," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65800-1
    DOI: 10.1038/s41467-025-65800-1
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