Barbara Rothen scite author profile

Myofibrillogenesis in situ was investigated by confocal microscopy of immunofluorescently labelled whole mount preparations of early embryonic chicken heart rudiments. The time-course of incorporation of several components into myofibrils was compared in triple-stained specimens, taken around the time when beating starts. All sarcomeric proteins investigated so far were already expressed before the first contractions and myofibril assembly happened within a few hours. No typical stress fibre-like structures or premyofibrils, structures observed in cultured cardiomyocytes, could be detected during myofibrillogenesis in the heart. Sarcomeric proteins like (α)-actinin, titin and actin were found in a defined localisation pattern even in cardiomyocytes that did not yet contain myofibrils, making up dense body-like structures. As soon as the heart started to beat, all myofibrillar proteins were already located at their exact position in the sarcomere. The maturation of the sarcomeres was characterised by a short delay in the establishment of the pattern for M-line epitopes of titin with respect to Z-disk epitopes and the incorporation of the M-line component myomesin, which preceded that of myosin binding protein-C. Thus dense body-like structures, made up of titin, (α)-actinin and actin filaments serve as the first organised complexes also during myofibrillogenesis in situ and titin functions as a ruler for sarcomere assembly as soon as its C termini have become localised. We suggest that assembly of thin and thick filament occurs independently during myofibrillogenesis in situ and that myomesin might be important for integrating thick filaments with the M-line end of titin.

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Immunohistochemical Localization of RANK, RANKL and OPG in Healthy and Arthritic Canine Elbow Joints

Spahni

Schawalder

Rothen

et al. 2009

Veterinary Surgery

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Prosomes Form Sarcomere-like Banding Patterns in Skeletal, Cardiac, and Smooth Muscle Cells

Foucrier

Bassaglia

Grand

et al. 2001

Experimental Cell Research

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In situmonitoring of DNA: the plant nuclear envelope allows passage of short DNA fragments

Gisel

Rothen²,

Iglesias

et al. 1998

The Plant Journal

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SummaryWe monitored the cellular localization of fluorescently labeled foreign DNA in living plant cells. After physical delivery of labeled DNA fragments to the cytoplasm, short fragments up to 1.5 kb in length were found equally distributed between the cytoplasm and nucleus after 60 min. In contrast, 2.5 kb DNA fragments did not appear inside the nucleus. Thus, foreign DNA can enter plant nuclei through the intact nuclear envelope, but the efficiency of this process declines with increasing size of fragment.

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Barbara Rothen

Myofibrillogenesis in the developing chicken heart: assembly of Z-disk, M-line and the thick filaments

Immunohistochemical Localization of RANK, RANKL and OPG in Healthy and Arthritic Canine Elbow Joints

Prosomes Form Sarcomere-like Banding Patterns in Skeletal, Cardiac, and Smooth Muscle Cells

In situmonitoring of DNA: the plant nuclear envelope allows passage of short DNA fragments

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