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A Wood et al.
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J Görnemann et al.
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KO Kizer et al.
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T Burckin et al.
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L Riles et al.
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S Mili et al.
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MC Keogh et al.
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A Wood et al.
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NJ Krogan et al.
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B Li et al.
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JX Li et al.
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D Zenklusen et al.
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T Maniatis et al.
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DK Pokholok et al.
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AC Gavin et al.
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EJ Cho et al.
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EP Lei et al.
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G Jona et al.
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EC Shen et al.
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