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Proton coupling and anion effects in molybdenum model compounds
180 Abstracts B125
PROTON COUPLING AND ANION EFFECTS IN MOLYBDENUM MODEL COMPOUNDS R.C.Bray(a), R.Durant(b), G.J.Leigh(a). [(a) University of Sussex, Brighton, U.K. (b) University of Paisley, PA1 2BE, U.K.]
The model compound Mo02mpeH2 has been reduced by a novel route generating the species [MoOmpeH2]+.
Reaction of the
reduced species with the strong acids CF3S03H and CF3S03D allows EPR detection of a weak proton coupling to Molybdenum(i).
Though strong proton couplings for model
compounds have been previously reported, this is the first report of a weak coupling and is of interest because of similar couplings occurring during turnover in MO-enzymes. Investigation of couplings arising from Cl-, Br' and Iindicate strong interactions of these anions along the Mo=O axis and comparison of g values clearly shows that a previous report(ii) of [MoOmpeH2]+ was in error -. the true nature of the species seen was [MoOmpeH2Cl].
(i)
Measured Line Widths (in gauss-measured at half maxm.) 81
82
83
[JQI-[Ql
19.2 18.6 0.6
21.6 19.8 1.8
28.8 26.4 2.4
[MoOmpeH2]+/Cl' [MoOmepD2]+/Cl'
20.7 20.7
24.0 22.0 2.0
26.4 24.4 2.0
[MoOmpeH2]+ [MoOmpeD2]+
[JQl-[D21
0.0
(ii) J.T.Spence, M.Minelli, P.Kroneck.
(*) mpeH4 = [HS-C(CH3)2CH2&H2]2.
J.Amer.Chem.Soc.
PROTON COUPLING AND ANION EFFECTS IN MOLYBDENUM MODEL COMPOUNDS R.C.Bray(a), R.Durant(b), G.J.Leigh(a). [(a) University of Sussex, Brighton, U.K. (b) University of Paisley, PA1 2BE, U.K.]
The model compound Mo02mpeH2 has been reduced by a novel route generating the species [MoOmpeH2]+.
Reaction of the
reduced species with the strong acids CF3S03H and CF3S03D allows EPR detection of a weak proton coupling to Molybdenum(i).
Though strong proton couplings for model
compounds have been previously reported, this is the first report of a weak coupling and is of interest because of similar couplings occurring during turnover in MO-enzymes. Investigation of couplings arising from Cl-, Br' and Iindicate strong interactions of these anions along the Mo=O axis and comparison of g values clearly shows that a previous report(ii) of [MoOmpeH2]+ was in error -. the true nature of the species seen was [MoOmpeH2Cl].
(i)
Measured Line Widths (in gauss-measured at half maxm.) 81
82
83
[JQI-[Ql
19.2 18.6 0.6
21.6 19.8 1.8
28.8 26.4 2.4
[MoOmpeH2]+/Cl' [MoOmepD2]+/Cl'
20.7 20.7
24.0 22.0 2.0
26.4 24.4 2.0
[MoOmpeH2]+ [MoOmpeD2]+
[JQl-[D21
0.0
(ii) J.T.Spence, M.Minelli, P.Kroneck.
(*) mpeH4 = [HS-C(CH3)2CH2&H2]2.
J.Amer.Chem.Soc.