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Characterizing the actin-binding ability of Zasp52 and its contribution to myofibril assembly

Kuo An Liao, Nicanor González‐Morales, Frieder Schöck

2020PLoS ONE14 citationsDOIOpen Access PDF

Abstract

In sarcomeres, α-actinin crosslinks thin filaments and anchors them at the Z-disc. Drosophila melanogaster Zasp52 also localizes at Z-discs and interacts with α-actinin via its extended PDZ domain, thereby contributing to myofibril assembly and maintenance, yet the detailed mechanism of Zasp52 function is unknown. Here we show a strong genetic interaction between actin and Zasp52 during indirect flight muscle assembly, indicating that this interaction plays a critical role during myofibril assembly. Our results suggest that Zasp52 contains an actin-binding site, which includes the extended PDZ domain and the ZM region. Zasp52 binds with micromolar affinity to monomeric actin. A co-sedimentation assay indicates that Zasp52 can also bind to F-actin. Finally, we use in vivo rescue assays of myofibril assembly to show that the α-actinin-binding domain of Zasp52 is not sufficient for a full rescue of Zasp52 mutants suggesting additional contributions of Zasp52 actin-binding to myofibril assembly.

Topics & Concepts

MyofibrilPDZ domainSarcomereActinCell biologyActininMyosinActin-binding proteinBiophysicsDrosophila melanogasterBiologyChemistryActin cytoskeletonBiochemistryCytoskeletonMyocyteCellGeneCardiomyopathy and Myosin StudiesMuscle Physiology and DisordersCellular Mechanics and Interactions
Characterizing the actin-binding ability of Zasp52 and its contribution to myofibril assembly | Litcius