Lenka Hornakova scite author profile

Due to the internal structure of the knee joint, the ability to characterize and quantify the dynamic response of the meniscal tissue directly is highly problematic. The main purpose of this study was to investigate the behaviour of the meniscus under loading conditions. Four healthy young females were included. To obtain T2* values in the meniscus, the vTE sequence was used with 10 echoes ranging from 0.8 to 10.1 ms. Submilisecond first echo time is a great advantage of vTE sequence allowing for precise mapping of relatively short T2*. The two-parametric least squares fitting procedure was used to calculate T2* pixel-wise. A custom-made diamagnetic apparatus was developed to simulate stress conditions on the lower limb in a conventional MR scanner. vTE T2* was performed in five consecutive scans, 6:10 min apart. Three different compartments of the medial and lateral meniscus were segmented. The differences at the different time-points were calculated. A constant increase of T2* times after compression was statistically significant in the anterior horn of the medial meniscus. T2* mapping with variable echo time sequence might be a satisfactorily sensitive technique to detect the changes of meniscus physiology under loading conditions.

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The structure of the unstructured: mosaic of tau protein linear motifs obtained by high-resolution techniques and molecular simulation

Cehlár¹,

Bagarova²,

Hornakova³

et al. 2021

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Intrinsically disordered proteins are flexible molecules with important physiological functions. Their mode of action often involves short segments, called linear motifs, which may exhibit distinct structural propensities. Tau is intrinsically disordered, microtubule-associated protein involved in the pathogenesis of various tauopathies. In this review we analyze the collection of 3D structures of tau local linear motifs gained from the deposited structures of tau complexes with various binding partners as well as of tau-tau complexes; determined by X-ray and electron crystallography, single-particle electron microscopy, NMR spectroscopy and molecular dynamics simulations. Insights into the partially stabilized conformations of tau linear motifs are valuable for understanding the physiological and pathological processes involving tau protein.

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Interaction kinetics reveal distinct properties of conformational ensembles of three‐repeat and four‐repeat tau proteins

et al. 2022

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Tau protein is an intrinsically disordered protein. Its physiological state is best described as a conformational ensemble (CE) of metastable structures interconverting on the local and molecular scale. The monoclonal antibody DC39C recognizes a linear C‐terminal tau epitope, and as the tau interaction partner, its binding parameters report about tau CE. Association kinetics of DC39C binding, together with crosslinking mass spectrometry, show differences in the accessibility of the C terminus in CEs of tau isoforms. Furthermore, removal of the C terminus accelerated the aggregation kinetics of three‐repeat tau proteins. Our results suggest a novel mechanism of splicing‐driven regulation of the tau C‐terminal domain with consequences on the specific roles of tau isoforms in microtubule assembly and pathological aggregation.

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Lenka Hornakova

In vivo assessment of time dependent changes of T2* in medial meniscus under loading at 3T: A preliminary study

The structure of the unstructured: mosaic of tau protein linear motifs obtained by high-resolution techniques and molecular simulation

Interaction kinetics reveal distinct properties of conformational ensembles of three‐repeat and four‐repeat tau proteins

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