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Paivi Yla-Anttila et al.
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Daniel J. Klionsky et al.
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Hunjoo Ha et al.
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Sudharsan Periyasamy-Thandavan et al.
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G. H. Tesch
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Weier Qi et al.
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P Pacher et al.
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I Tanida et al.
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Y Kabeya et al.
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H Ha et al.
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E Junn et al.
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