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Sue Richards et al.
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Xuefu Li et al.
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Maegen A. Ackermann et al.
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Maegen A. Ackermann et al.
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Zhe Chen et al.
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Infantile autosomal dominant distal myopathy.
C. Scoppetta et al.
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J Raethjen et al.
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E Flashman et al.
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C Meredith et al.
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T Voit et al.
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T Martinsson et al.
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JJ Johnston et al.
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