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M Nakai et al.
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KL Kuo et al.
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K Shimada et al.
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K Yanagimoto et al.
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RA Anderson et al.
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Y Fujimura et al.
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SJ Hossain et al.
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T Ohe et al.
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DM Wang et al.
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M Suzuki et al.
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M Kato et al.
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Importance of a pyrogallol-type structure in catechin compounds for apoptosis-inducing activity
K Saeki et al.
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Lipid occurrence, distribution and degradation to flavour volatiles during tea processing
R Ravichandran et al.
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GY Zhang et al.
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