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Stabilization mechanism accommodating genome length variation in evolutionarily related viral capsids

Author

Listed:
  • Jennifer M. Podgorski

    (University of Connecticut)

  • Joshua Podgorski

    (University of Connecticut)

  • Lawrence Abad

    (University of Pittsburgh)

  • Deborah Jacobs-Sera

    (University of Pittsburgh)

  • Krista G. Freeman

    (University of Pittsburgh)

  • Colin Brown

    (San Diego State University)

  • Graham F. Hatfull

    (University of Pittsburgh)

  • Antoni Luque

    (University of Miami
    University of Miami)

  • Simon J. White

    (University of Connecticut)

Abstract

Tailed bacteriophages are one of the most numerous and diverse group of viruses. They store their genome at quasi-crystalline densities in capsids built from multiple copies of proteins adopting the HK97-fold. The high density of the genome exerts an internal pressure, requiring a maturation process that reinforces their capsids. However, it is unclear how capsid stabilization strategies have adapted to accommodate the evolution of larger genomes in this virus group. Here we characterize a capsid reinforcement mechanism in two evolutionary-related actinobacteriophages that modifies the length of a stabilization protein to accommodate a larger genome while maintaining the same capsid size. We use cryo-EM to reveal that capsids contain split hexamers of HK97-fold proteins with a stabilization protein in the chasm. The observation of split hexamers in mature capsids is unprecedented, so we rationalize this result mathematically, discovering that icosahedral capsids can be formed by all split or skewed hexamers as long as their T-number is not a multiple of three. Our results suggest that analogous stabilization mechanisms can be present in other icosahedral capsids, and they provide a strategy for engineering capsids accommodating larger DNA cargoes as gene delivery systems.

Suggested Citation

  • Jennifer M. Podgorski & Joshua Podgorski & Lawrence Abad & Deborah Jacobs-Sera & Krista G. Freeman & Colin Brown & Graham F. Hatfull & Antoni Luque & Simon J. White, 2025. "Stabilization mechanism accommodating genome length variation in evolutionarily related viral capsids," Nature Communications, Nature, vol. 16(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58298-0
    DOI: 10.1038/s41467-025-58298-0
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    References listed on IDEAS

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    1. Nicholas P. Stone & Gabriel Demo & Emily Agnello & Brian A. Kelch, 2019. "Principles for enhancing virus capsid capacity and stability from a thermophilic virus capsid structure," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
    2. Basem Al-Shayeb & Rohan Sachdeva & Lin-Xing Chen & Fred Ward & Patrick Munk & Audra Devoto & Cindy J. Castelle & Matthew R. Olm & Keith Bouma-Gregson & Yuki Amano & Christine He & Raphaël Méheust & Br, 2020. "Clades of huge phages from across Earth’s ecosystems," Nature, Nature, vol. 578(7795), pages 425-431, February.
    3. John Jumper & Richard Evans & Alexander Pritzel & Tim Green & Michael Figurnov & Olaf Ronneberger & Kathryn Tunyasuvunakool & Russ Bates & Augustin Žídek & Anna Potapenko & Alex Bridgland & Clemens Me, 2021. "Highly accurate protein structure prediction with AlphaFold," Nature, Nature, vol. 596(7873), pages 583-589, August.
    4. Reidun Twarock & Antoni Luque, 2019. "Structural puzzles in virology solved with an overarching icosahedral design principle," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
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