PLoS ONE (Jan 2019)

Structural diversity in the atomic resolution 3D fingerprint of the titin M-band segment.

  • Spyros D Chatziefthimiou,
  • Philipp Hornburg,
  • Florian Sauer,
  • Simone Mueller,
  • Deniz Ugurlar,
  • Emma-Ruoqi Xu,
  • Matthias Wilmanns

DOI
https://doi.org/10.1371/journal.pone.0226693
Journal volume & issue
Vol. 14, no. 12
p. e0226693

Abstract

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In striated muscles, molecular filaments are largely composed of long protein chains with extensive arrays of identically folded domains, referred to as "beads-on-a-string". It remains a largely unresolved question how these domains have developed a unique molecular profile such that each carries out a distinct function without false-positive readout. This study focuses on the M-band segment of the sarcomeric protein titin, which comprises ten identically folded immunoglobulin domains. Comparative analysis of high-resolution structures of six of these domains ‒ M1, M3, M4, M5, M7, and M10 ‒ reveals considerable structural diversity within three distinct loops and a non-conserved pattern of exposed cysteines. Our data allow to structurally interpreting distinct pathological readouts that result from titinopathy-associated variants. Our findings support general principles that could be used to identify individual structural/functional profiles of hundreds of identically folded protein domains within the sarcomere and other densely crowded cellular environments.