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  • Open Access
    Bleijlevens, B. (2002). Activation and sensing of hydrogen in nature. [Thesis, fully internal, Universiteit van Amsterdam].
  • Albracht, S. P. J. (2001). Spectroscopy - the Functional Puzzle. In R. Cammack, R. Robson, & M. Frey (Eds.), Hydrogen as a fuel. Learning from nature. (pp. 110-127). Taylor & Francis.
  • Bernhard, M., Buhrke, T., Bleijlevens, B., de Lacey, A. L., Fernandez, V. M., Albracht, S. P. J., & Friedrich, B. (2001). The H2 sensor of Ralstonia Eutropha. Biochemical characteristics, spectroscopic properties, and its interaction with histidine protein kinase. The Journal of Biological Chemistry, 276, 15592-15597. https://doi.org/10.1074/jbc.M009802200
  • Buhrke, T., Bleijlevens, B., Albracht, S. P. J., & Friedrich, B. (2001). Involvement of hyp gene products in maturation of the H2-sensing [NiFe] hydrogenase of Ralstonia eutropha. The Journal of Biological Chemistry, 183, 7087-7093.
  • Bleijlevens, B., Faber, B. W., & Albracht, S. P. J. (2001). The [NiFe] hydrogenase from Allochromatium vinosum studied in EPR-detectable states: H/D exchange experiments that yield new information about the structure of the active site. Journal of Biological Inorganic Chemistry, 6, 763-769. https://doi.org/10.1007/s007750100252
  • Albracht, S. P. J., & Hedderich, R. (2000). Learning from hydrogenases: location of a proton pump and of a second FMN in bovine NADH-ubiquinone oxidoreductase (Complex I). FEBS Letters, 485, 1-6. https://doi.org/10.1016/S0014-5793(00)02172-4
  • Happe, R. P., Roseboom, W., Egert, G., Friedrich, C. G., Massanz, C., Friedrich, B., & Albracht, S. P. J. (2000). Unusual FTIR and EPR properties of the H2-activating site of the cytoplasmic NAD-reducing hydrogenase from Ralstonia eutropha. FEBS Letters, 466, 259-263. https://doi.org/10.1016/S0014-5793(99)01799-8
  • Davidson, G., Choudhury, S. B., Gu, Z., Bose, K., Roseboom, W., Albracht, S. P. J., & Maroney, M. J. (2000). Structural examination of the nickel site in Chromatium vinosum hydrogenase: redox state oscillations and structural changes accompanying reductive activation and CO binding. Biochemistry, 39, 7468-7479. https://doi.org/10.1021/bi000300t
  • Pershad, H. R., Duff, J. L. C., Heering, H. A., Duin, E. C., Albracht, S. P. J., & Armstrong, F. A. (1999). Catalytic electron transport in Chromatium vinosum [NiFe]-hydrogenase: appliaction of voltammetry in detecting redox-active centers and establishing that hydrogen oxidation is very fast even at potentials close to the reversible H+/H2 value. Biochemistry, 38, 8992-8999. https://doi.org/10.1021/bi990108v
  • Pierik, A. J., Roseboom, W., Happe, R. P., Bagley, K. A., & Albracht, S. P. J. (1999). Carbon monoxide and cyanide as intrinsic ligands to iron in the active site of [NiFe}-hydrogenases. NiFe(CN)2CO, biology's way to activate H2. The Journal of Biological Chemistry, 274, 3331-3337. https://doi.org/10.1074/jbc.274.6.3331
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