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Michael J. Duffy et al.
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Dekuang Zhao et al.
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K. Taketani et al.
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X. Yin et al.
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Chunhong Yan et al.
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D Lu et al.
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JS Fridman et al.
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RA DeFilippis et al.
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The loss of mdm2 induces p53 mediated apoptosis
S de Rozieres et al.
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S Song et al.
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