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Palindromic assembly of the giant muscle protein titin in the sarcomeric Z-disk

Author

Listed:
  • Peijian Zou

    (EMBL-Hamburg c/o DESY)

  • Nikos Pinotsis

    (EMBL-Hamburg c/o DESY
    National Center for Scientific Research ‘Demokritos’)

  • Stephan Lange

    (King's College London
    ETH Zurich Hoenggerberg)

  • Young-Hwa Song

    (EMBL-Hamburg c/o DESY)

  • Alexander Popov

    (EMBL-Hamburg c/o DESY)

  • Irene Mavridis

    (National Center for Scientific Research ‘Demokritos’)

  • Olga M. Mayans

    (EMBL-Hamburg c/o DESY
    Biozentrum, University of Basel)

  • Mathias Gautel

    (King's College London)

  • Matthias Wilmanns

    (EMBL-Hamburg c/o DESY)

Abstract

The Z-disk of striated and cardiac muscle sarcomeres is one of the most densely packed cellular structures in eukaryotic cells1. It provides the architectural framework for assembling and anchoring the largest known muscle filament systems by an extensive network of protein–protein interactions, requiring an extraordinary level of mechanical stability. Here we show, using X-ray crystallography, how the amino terminus of the longest filament component, the giant muscle protein titin, is assembled into an antiparallel (2:1) sandwich complex by the Z-disk ligand telethonin. The pseudosymmetric structure of telethonin mediates a unique palindromic arrangement of two titin filaments, a type of molecular assembly previously found only in protein–DNA complexes. We have confirmed its unique architecture in vivo by protein complementation assays, and in vitro by experiments using fluorescence resonance energy transfer. The model proposed may provide a molecular paradigm of how major sarcomeric filaments are crosslinked, anchored and aligned within complex cytoskeletal networks.

Suggested Citation

  • Peijian Zou & Nikos Pinotsis & Stephan Lange & Young-Hwa Song & Alexander Popov & Irene Mavridis & Olga M. Mayans & Mathias Gautel & Matthias Wilmanns, 2006. "Palindromic assembly of the giant muscle protein titin in the sarcomeric Z-disk," Nature, Nature, vol. 439(7073), pages 229-233, January.
    • Handle: RePEc:nat:nature:v:439:y:2006:i:7073:d:10.1038_nature04343
    DOI: 10.1038/nature04343
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    Cited by:

    1. Chisa Shiraishi & Akinobu Matsumoto & Kazuya Ichihara & Taishi Yamamoto & Takeshi Yokoyama & Taisuke Mizoo & Atsushi Hatano & Masaki Matsumoto & Yoshikazu Tanaka & Eriko Matsuura-Suzuki & Shintaro Iwa, 2023. "RPL3L-containing ribosomes determine translation elongation dynamics required for cardiac function," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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