Dual organism design cycle reveals small subunit substitutions that improve [NiFe] hydrogenase hydrogen evolution.

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2013 nî lūn-bûn

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2013年の論文

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年學術文章

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Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

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Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

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Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

@en

Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

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Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

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Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

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P1476

Dual organism design cycle rev ...... ydrogenase hydrogen evolution.

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P2093

Christopher W Matteri

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Isaac T Yonemoto

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Thao Amy Nguyen

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P2860

The crystal structure of a reduced [NiFeSe] hydrogenase provides an image of the activated catalytic center

The crystal structure of an oxygen-tolerant hydrogenase uncovers a novel iron-sulphur centre

Structural basis for a [4Fe-3S] cluster in the oxygen-tolerant membrane-bound [NiFe]-hydrogenase

Crystal structure of the O(2)-tolerant membrane-bound hydrogenase 1 from Escherichia coli in complex with its cognate cytochrome b

Crystal structure of the nickel-iron hydrogenase from Desulfovibrio gigas

Unusual ligand structure in Ni-Fe active center and an additional Mg site in hydrogenase revealed by high resolution X-ray structure analysis

[3Fe-4S] to [4Fe-4S] cluster conversion in Desulfovibrio fructosovorans [NiFe] hydrogenase by site-directed mutagenesis

Protein production by auto-induction in high density shaking cultures

Protein structure prediction on the Web: a case study using the Phyre server

Enzymatic assembly of DNA molecules up to several hundred kilobases

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1754-1611-7-17

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scholarly article

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10.1186/1754-1611-7-17

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Hamilton Smith

Philip D Weyman

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2013-07-02T00:00:00Z

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244990398

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