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Brian McDonagh et al.
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Sara Landolfo et al.
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Enrique Herrero et al.
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Miguel C. Teixeira et al.
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Genome-wide monitoring of wine yeast gene expression during alcoholic fermentation
T Rossignol et al.
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ME Walker et al.
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ANTIOXIDANTS & REDOX SIGNALING (2000)
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D Delneri et al.
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