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Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The position of the nucleus is important for the organisation of the cells and the development of the tissues. The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the…

Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The position of the nucleus is important for the organisation of the cells and the development of the tissues. The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the…

Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The position of the nucleus is important for the organisation of the cells and the development of the tissues. The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the…

Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the amphiphysin protein coding gene, appear to be at the origin of these diseases. In the C. elegans animal model,…

Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the amphiphysin protein coding gene, appear to be at the origin of these diseases. In the C. elegans animal model,…

Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the amphiphysin protein coding gene, appear to be at the origin of these diseases. In the C. elegans animal model,…

Visualisation by immunofluorescence of the nuclei (in green) and the plasma membrane (in red) of the epidermal cells of a nematode worm embryo (Caenorhabditis elegans). The muscle fibres contain several hundred nuclei. These nuclei are normally located peripherally, but are displaced in the case of certain severe conditions such as centronuclear myopathies (CNM). Mutations in BIN1, the amphiphysin protein coding gene, appear to be at the origin of these diseases. In the C. elegans animal model,…