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The insect perspective on Z-disc structure and biology

Frieder Schöck, Nicanor González‐Morales

2022Journal of Cell Science18 citationsDOI

Abstract

Myofibrils are the intracellular structures formed by actin and myosin filaments. They are paracrystalline contractile cables with unusually well-defined dimensions. The sliding of actin past myosin filaments powers contractions, and the entire system is held in place by a structure called the Z-disc, which anchors the actin filaments. Myosin filaments, in turn, are anchored to another structure called the M-line. Most of the complex architecture of myofibrils can be reduced to studying the Z-disc, and recently, important advances regarding the arrangement and function of Z-discs in insects have been published. On a very small scale, we have detailed protein structure information. At the medium scale, we have cryo-electron microscopy maps, super-resolution microscopy and protein-protein interaction networks, while at the functional scale, phenotypic data are available from precise genetic manipulations. All these data aim to answer how the Z-disc works and how it is assembled. Here, we summarize recent data from insects and explore how it fits into our view of the Z-disc, myofibrils and, ultimately, muscles.

Topics & Concepts

BiologyMyofibrilMyosinActinSarcomereCell biologyBiophysicsParacrystallineElectron microscopeAnatomyCrystallographyPhysicsBiochemistryMyocyteOpticsChemistryCardiomyopathy and Myosin StudiesCardiovascular Effects of ExerciseMuscle Physiology and Disorders
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