19 results on '"Sunamura EI"'
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2. Performance Evaluation of a New Enzyme Immunoassay Method for Quantitative Determination of (1→3)-β-D-glucan in the Serum
3. A novel enzyme immunoassay for the measurement of plasma (1 → 3)-β-D-glucan levels
4. Physiological Impact of Intrinsic ADP Inhibition of Cyanobacterial FoF1 Conferred by the Inherent Sequence Inserted into the γ Subunit
5. A novel enzyme immunoassay for the measurement of plasma (1 → 3)-β-D-glucan levels
6. Structure of the γ–ε complex of cyanobacterial F1-ATPase reveals a suppression mechanism of the γ subunit on ATP hydrolysis in phototrophs
7. Amputation of a C-terminal helix of the γ subunit increases ATP-hydrolysis activity of cyanobacterial F1 ATP synthase
8. Utility of ASNSgene methylation evaluated with the HPLC method as a pharmacogenomic biomarker to predict asparaginase sensitivity in BCP-ALL
9. Reversible control of F1-ATPase rotational motion using a photochromic ATP analog at the single molecule level
10. The Chloroplast ATP Synthase Features the Characteristic Redox Regulation Machinery
11. A Conformational Change of the γ Subunit Indirectly Regulates the Activity of Cyanobacterial F1-ATPase
12. Regulation of F0F1-ATPase from Synechocystis sp. PCC 6803 by γ and ∈ Subunits Is Significant for Light/Dark Adaptation
13. Reversible control of F1-ATPase rotational motion using a photochromic ATP analog at the single molecule level.
14. A Conformational Change of the γ Subunit Indirectly Regulates the Activity of Cyanobacterial F1-ATPase.
15. Regulation of F0F1-ATPase from Synechocystis sp. PCC 6803 by γ and ε Subunits Is Significant for Light/Dark Adaptation.
16. Structure of the γ-ε complex of cyanobacterial F 1 -ATPase reveals a suppression mechanism of the γ subunit on ATP hydrolysis in phototrophs.
17. Amputation of a C-terminal helix of the γ subunit increases ATP-hydrolysis activity of cyanobacterial F 1 ATP synthase.
18. Regulation of F0F1-ATPase from Synechocystis sp. PCC 6803 by gamma and epsilon subunits is significant for light/dark adaptation.
19. Physiological impact of intrinsic ADP inhibition of cyanobacterial FoF1 conferred by the inherent sequence inserted into the gammasubunit.
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