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C. R. German et al.
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Satoshi Nakagawa et al.
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Nicole Dubilier et al.
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Thomas M. Mccollom
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Mirjam Perner et al.
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Fumio Inagaki et al.
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Y Suzuki et al.
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S Nakagawa et al.
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DS Kelley et al.
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K Takai et al.
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M Sunamura et al.
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MD Lilley et al.
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S Schouten et al.
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Merging genomes with geochemistry in hydrothermal ecosystems
AL Reysenbach et al.
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K Takai et al.
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DS Kelley et al.
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