Gudrun Gann scite author profile

Gudrun Gann

4Publications

24Citation Statements Received

66Citation Statements Given

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125

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University of Graz, University of Basel

Publications

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Redox chemistry of organoselenium compounds: Ab initio and density functional theory calculations on model systems for transition states and intermediates of the redox cycle of selenoenzymes

Benková

Kóňa

Gann

et al. 2002

Int J of Quantum Chemistry

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Ab initio [Hartree-Fock (HF)] and density functional theory (B3LYP) ECPcalculations on intermediates and transition states of the reduction of phenylseleninic acid with hydrogen sulfide and of seleninic acid with benzenethiol as models for the species involved in the redox cycle of selenoenzymes are presented. Selenenyl sulfide is found to be the final product of the reduction reaction with sulfides. Further reduction to the selenol requires surmounting a substantial barrier (∼50 kcal mol −1 ). The final step of the redox cycle-oxidation of the selenol by hydrogen peroxide-is strongly exothermic. In case of the unsubstituted derivative H 2 Se three mechanisms for this oxidation are found [concerted and stepwise 1,2-hydrogen and oxygen shift (TS6A, TS6B, resp.) and a four-membered transition state TS6C]. For the oxidation of phenylselenol only TS6A and TS6B are obtained. For nearly all calculated structures the HF wave functions show a triplet instability. In contrast, at the B3LYP level only TS6C has a significant triplet instability. On the basis of QCISD(T)//QCISD results a mechanism involving TS6C seems highly unlikely.

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A relation between the systematic errors of a quantum chemical potential and of fluid properties calculated from it

2001

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Nonlinear optic properties of p-tricyanovinyl, p-dicyanovinyl, and p-dicyano-methyleneamino-anilines and poly(methylmethacrylate)s covalently functionalized with them. Syntheses with nitriles C

et al. 1998

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Redox Reactions of Selenium Compounds: Density Functional Theory Calculations on Model Intermediates and Transition Structures of the Redox Cycle Proposed for Selenoenzymes

et al. 2006

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Gudrun Gann

Redox chemistry of organoselenium compounds: Ab initio and density functional theory calculations on model systems for transition states and intermediates of the redox cycle of selenoenzymes

A relation between the systematic errors of a quantum chemical potential and of fluid properties calculated from it

Nonlinear optic properties of p-tricyanovinyl, p-dicyanovinyl, and p-dicyano-methyleneamino-anilines and poly(methylmethacrylate)s covalently functionalized with them. Syntheses with nitriles C

Redox Reactions of Selenium Compounds: Density Functional Theory Calculations on Model Intermediates and Transition Structures of the Redox Cycle Proposed for Selenoenzymes

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