Sequence Determination of Reduction Potentials by Cysteinyl Hydrogen Bonds and Peptide Dipoles in [4Fe-4S] Ferredoxins

Beck, Brian W.; Xie, Qian; Ichiye, Toshiko

doi:10.1016/s0006-3495(01)75726-8

Cited by 40 publications

(63 citation statements)

References 55 publications

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“…[16] We hypothesized that the main basis for the prooxidative action of some antioxidants is the reactivity, mainly the high redox potential of their secondary radicals formed in the reactions with the oxidants. [2] This feature may be of special importance if the Fe -S clusters of proteins constitute the critical target since their one-electron redox potential is low, ranging between 2 645 mV and 0 V. [23,24] The prooxidative action of ascorbate has been broadly discussed. [25 -27] However, it seems that similar property may be even more important for other antioxidants.…”

Section: Discussionmentioning

confidence: 99%

Limited Effectiveness of Antioxidants in the Protection of Yeast Defective in Antioxidant Proteins

Lewińska

Biliński

Bartosz

2004

Free Radical Research

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Efficacy of several antioxidants in the protection of the yeast Saccharomyces cerevisiae mutants deficient in CuZnSOD and deficient in glutaredoxin 5 to growth restriction induced by oxidants was studied. Ascorbate and glutathione protected the Deltasod1 and Deltagrx5 mutants against the effects of t-butyl hydroperoxide and cumene hydroperoxide, Deltasod1 mutants against oxytetracycline and Deltagrx5 mutants against menadione and 2,2'-azobis-(2-amidinopropane). However, Tempol, Trolox and melatonin were much less effective, showing prooxidative effects and, at high concentrations, hampering the growth of the mutants in the absence of exogenous oxidants. These results point to a complication of cellular effects of antioxidants by their prooxidative effects and to the usefulness of cellular tests to evaluate the biological effectiveness of antioxidants.

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Section: Discussionmentioning

confidence: 99%

Limited Effectiveness of Antioxidants in the Protection of Yeast Defective in Antioxidant Proteins

Lewińska

Biliński

Bartosz

2004

Free Radical Research

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“…In our related study using classical MM methods, several sequence determinants of reduction potentials involved hydrogen bonds to the redox site, in which the hydrogen bond donors included a backbone amide in some [1Fe]-rubredoxins [17] and a non-ligating cysteine in some [4Fe -4S]-Fds [18], and an asparagine and a histidine in the [1Fe]-rubrerythrin [102]. Although the effects on the reduction potential were modelled purely as electrostatic interactions, the possibility that the hydrogen bonds perturb the electronic structure of the redox site remained.…”

Section: Examining Perturbations Of the Inner Sphere By The Proteinmentioning

confidence: 99%

Density functional theory calculations of redox properties of iron–sulphur protein analogues

Ichiye

2011

Molecular Simulation

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A central issue in understanding redox properties of iron-sulphur (Fe-S) proteins is determining the factors that tune the reduction potentials of the Fe-S clusters. Studies of redox site analogues play an important role, particularly because individual factors can be examined independently of the environment by combining calculations and experiments of carefully designed ligands for the analogues. For iron-sulphur analogues, our study has shown that broken-symmetry density functional theory gives good energetics when the geometry is optimised using B3LYP with a double-z basis set with polarisation functions, and the energies of these geometries are calculated using B3LYP with additional diffuse functions added to the sulphurs. A comparison of our calculated energies for redox site analogues in the gas phase against electron detachment energies measured by a combination of electrospray ionisation and photoelectron spectroscopy (EI-PES) by Wang and co-workers has been essential because the comparison is for exactly the same molecule with no approximation for the environment. Overall, the correlation of our B3LYP/ 6-31(þþ) S G**//B3LYP/6-31G** detachment energies with EI-PES experiments is excellent for a wide variety of analogues. Moreover, our calculations at this level have provided insight into a wide variety of properties of iron-sulphur proteins.Dr Shuqiang Niu is a computational chemist interested in exploring complex electronic structures, physical properties, and reaction mechanisms of chemical and biological molecules using quantum mechanical and hybrid quantum mechanics/molecular mechanics methods. He received his B.S. and M.S. degrees in physical chemistry from Nankai University. After teaching for two years at Nankai University, he joined Professor R. Gleiter's group at Heidelberg University, Germany, and completed his Ph.D. degree in computational and organic chemistry in 1994. He then did postdoctoral work with Professor Michael Hall at Texas A&M University (1994 -1999) and with Dr Jeffrey Nichols at Pacific Northwest National Laboratories (1999 -2000) developing and applying computational methodologies for investigations of catalytic reactions and enzymatic mechanisms. He joined Professor Toshiko Ichiye's group at Washington State University in 2000 and then moved to Georgetown University with her in 2003. His current research primarily focuses on the simulation and prediction of redox properties of iron-sulfur proteins. Health. Her research involves computational and theoretical studies of biological macromolecules and other condensed matter systems at a molecular level. One major research interest is in understanding properties of electron transfer proteins utilising both quantum mechanical calculations of redox site analogs and classical mechanical calculations of the proteins. Another major interest is in understanding the underlying molecular basis of the unusual properties of water and in developing models of water for liquid state computer simulations using molecular multipole expansions.

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“…The electron-rich sulfur containing residues in the vicinity of the active site were demonstrated to be able to tune the redox potential of ferredoxins by changing their electrostatic potential. 44 In reduced Pdx, the flexible side-chain of Met70 follows the movement of the Cys45-Ala46 peptide upon its isomerization and shifts closer to the Ser44-Cys45 fragment (Figure 4). On the other side, Ser73 (Cys73 in the wild-type Pdx) moves closer to Met70.…”

Section: Redox-linked Fluctuation Of Surface Properties Of Pdxmentioning

confidence: 99%

Redox-dependent Structural Reorganization in Putidaredoxin, a Vertebrate-type [2Fe-2S] Ferredoxin from Pseudomonas putida

Sevrioukova

2005

Journal of Molecular Biology

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Sequence Determination of Reduction Potentials by Cysteinyl Hydrogen Bonds and Peptide Dipoles in [4Fe-4S] Ferredoxins

Cited by 40 publications

References 55 publications

Limited Effectiveness of Antioxidants in the Protection of Yeast Defective in Antioxidant Proteins

Limited Effectiveness of Antioxidants in the Protection of Yeast Defective in Antioxidant Proteins

Density functional theory calculations of redox properties of iron–sulphur protein analogues

Redox-dependent Structural Reorganization in Putidaredoxin, a Vertebrate-type [2Fe-2S] Ferredoxin from Pseudomonas putida

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