2006
DOI: 10.1007/s00775-005-0076-3
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Density functional study of the catalytic cycle of nickel–iron [NiFe] hydrogenases and the involvement of high-spin nickel(II)

Abstract: In light of recent experiments suggesting high-spin (HS) Ni(II) species in the catalytic cycle of [NiFe] hydrogenase, a series of models of the Ni(II) forms Ni-SI(I,II), SI-CO and Ni-R(I,II,III) were examined in their high-spin states via density functional calculations. Because of its importance in the catalytic cycle, the Ni-C form was also included in this study. Unlike the Ni(II) forms in previous studies, in which a low-spin (LS) state was assumed and a square-planar structure found, the optimized geometr… Show more

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Cited by 82 publications
(117 citation statements)
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“…The (Ni-SI r ) II and Ni-SI a states have been reported to have within the spectral resolution identical FTIR spectra in the case of A. vinosum, [41,81] whereas for other oxygen-sensitive enzymes only the active Ni-SI a (or Ni-SI II according to some authors) is proposed. [91][92][93] Regarding the spin state of the divalent nickel ion, only a high-spin Ni 2 + species with a distorted tetrahedral geometry is in agreement with the one-electron reduced Ni-SI r/a states according to calculations [37,94] considering a four-coordinated nickel centre. This is further supported by Ni L-edge X-ray circular magnetic dichroism (XCMD) measurements on D. desulfuricans and D. gigas.…”
Section: The One-electron Reduced Epr-silent Statessupporting
confidence: 65%
“…The (Ni-SI r ) II and Ni-SI a states have been reported to have within the spectral resolution identical FTIR spectra in the case of A. vinosum, [41,81] whereas for other oxygen-sensitive enzymes only the active Ni-SI a (or Ni-SI II according to some authors) is proposed. [91][92][93] Regarding the spin state of the divalent nickel ion, only a high-spin Ni 2 + species with a distorted tetrahedral geometry is in agreement with the one-electron reduced Ni-SI r/a states according to calculations [37,94] considering a four-coordinated nickel centre. This is further supported by Ni L-edge X-ray circular magnetic dichroism (XCMD) measurements on D. desulfuricans and D. gigas.…”
Section: The One-electron Reduced Epr-silent Statessupporting
confidence: 65%
“…For each of these [NiFeSe] center redox states, the continuum electrostatics calculations were performed with all ISCs oxidized and with all ISCs reduced. It is worth pointing out that the nomenclature of the states is not uniform in the literature, and the two mechanistic studies quoted here are no exception; Ni-SI in the first model [42] and Nia-S in the second model [41] are the same state, but with different designations.…”
Section: Preparation Of the Crystallographic Structurementioning
confidence: 96%
“…Since there is no consensual mechanism, we considered two different recent hypotheses in the literature. From the mechanism proposed by Pardo et al [42] in 2006, we used the states SI I and SI II , cleavage reaction product C and the intermediate Ni(I) (the mechanism is illustrated in Fig. S1a).…”
Section: Preparation Of the Crystallographic Structurementioning
confidence: 99%
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“…NiSI and NiR are observed in different protonation states (NiSI I and NiSI II ; NiR I and NiR II ) (2,6). A NiR III state has also been detected in Allochromatium vinosum hydrogenase (noted Ni a -SR 1913 ) (7) and attributed to a NiR state with two fewer protons than NiR I (8). NiL, a state observed upon irradiation of NiC, is sometimes seen as a putative reaction intermediate as proposed for Hyd-1 from Escherichia coli in which NiC could not be detected (9).…”
mentioning
confidence: 99%