Myofibril assembly and maintenance in zebrafish share common properties with avian muscle, supporting the premyofibril model of myofibrillogenesis.
This study confirms that the premyofibril model of myofibrillogenesis applies to zebrafish skeletal muscle development, establishing it as a relevant model for muscle assembly.
The "premyofibril" model of myofibrillogenesis, based on observations in cultured avian muscle cells, proposes that mature myofibrils are preceded by two intermediary structures: premyofibrils and nascent myofibrils. To determine if this model applies to zebrafish skeletal muscle development, we stained developing embryos with antibodies to sarcomeric alpha-actinin and myosin II. In the youngest muscle cells, sarcomeric alpha-actinin and non-muscle myosin II were each localized in linear arrays of small bands that resembled the premyofibrils in avian myocytes. The distribution of muscle-specific myosin II began as scattered short filaments followed in time by overlapping bundles of filaments and organized A-bands in the older somites. Alpha-actinin organization changed from small z-bodies to beaded Z-bands and ordered Z-bands in myofibrils that extended the length of the elongating somites. In older somites with mature myofibrils, premyofibrils were also present at the ends of the mature myofibrils, suggesting that as the cells and somites grew longer, premyofibrils were involved in the elongation of existing mature myofibrils. Fluorescence Recovery After Photobleaching showed that the exchange of proteins (actin, alpha-actinin, FATZ, myotilin and telethonin) between sarcoplasm and the Z-bands of mature myofibrils in zebrafish resembled that seen for the same proteins in cultured avian myotubes, suggesting that myofibril assembly and maintenance in zebrafish share common properties with avian muscle. Cell Motil. Cytoskeleton 2009. (c) 2009 Wiley-Liss, Inc.
Sanger et al. (Mon,) conducted a other in Skeletal muscle development. Antibody staining and Fluorescence Recovery After Photobleaching was evaluated on Protein localization and exchange during myofibrillogenesis. Myofibril assembly and maintenance in zebrafish share common properties with avian muscle, supporting the premyofibril model of myofibrillogenesis.