Models for Ferredoxins: Electronic Structures of Iron-Sulfur Clusters with One, Two, and Four Iron Atoms

Louis Noodleman; Joe G. Norman; Joseph H. Osborne; Arie Aizman; David A. Case

doi:10.1021/ja00298a004

Models for Ferredoxins: Electronic Structures of Iron-Sulfur Clusters with One, Two, and Four Iron Atoms

Louis Noodleman
, Joe G. Norman
, Joseph H. Osborne
, Arie Aizman
, David A. Case

Research output: Contribution to journal › Article › peer-review

287 Scopus citations

Abstract

We report results of Xα valence bond scattered wave (Xα-VB-SW) calculations for a variety of clusters that mimic the active sites in iron-sulfur proteins: Fe(SR)₄ ^1-,2-(R = H, CH₃), Fe₂S₂(SH)₄ ^2-,3- and Fe₄S₄(SCH₃)4^2-,3-. Emphasis is placed on comparisons among the various clusters, including changes in the elctron distribution upon reduction, upon going from low spin to high spin, and upon changes in cluster geometry. We present estimates based on the calculations of Mössbauer isomer shifts and quadrupole splittings which lead to a consistent account of many experimental observations. The calculations predict the iron-(bridging sulfur) bonds to be stronger than those between iron and the terminal sulfur atoms; this has interesting structural and spectroscopic implications. To a good approximation, the oxidized 4-Fe complex can be viewed as two high-spin reduced 2-Fe clusters, despite the differences in geometry. Some of the implications of these results for structure-function problems in iron-sulfur proteins are discussed.

Original language	American English
Pages (from-to)	3418-3426
Number of pages	9
Journal	Journal of the American Chemical Society
Volume	107
Issue number	12
DOIs	https://doi.org/10.1021/ja00298a004
State	Published - Jun 1985
Externally published	Yes

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/ja00298a004

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title = "Models for Ferredoxins: Electronic Structures of Iron-Sulfur Clusters with One, Two, and Four Iron Atoms",

abstract = "We report results of Xα valence bond scattered wave (Xα-VB-SW) calculations for a variety of clusters that mimic the active sites in iron-sulfur proteins: Fe(SR)4 1-,2-(R = H, CH3), Fe2S2(SH)4 2-,3- and Fe4S4(SCH3)42-,3-. Emphasis is placed on comparisons among the various clusters, including changes in the elctron distribution upon reduction, upon going from low spin to high spin, and upon changes in cluster geometry. We present estimates based on the calculations of M{\"o}ssbauer isomer shifts and quadrupole splittings which lead to a consistent account of many experimental observations. The calculations predict the iron-(bridging sulfur) bonds to be stronger than those between iron and the terminal sulfur atoms; this has interesting structural and spectroscopic implications. To a good approximation, the oxidized 4-Fe complex can be viewed as two high-spin reduced 2-Fe clusters, despite the differences in geometry. Some of the implications of these results for structure-function problems in iron-sulfur proteins are discussed.",

author = "Louis Noodleman and Norman, \{Joe G.\} and Osborne, \{Joseph H.\} and Arie Aizman and Case, \{David A.\}",

year = "1985",

month = jun,

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language = "American English",

volume = "107",

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T2 - Electronic Structures of Iron-Sulfur Clusters with One, Two, and Four Iron Atoms

AU - Noodleman, Louis

AU - Norman, Joe G.

AU - Osborne, Joseph H.

AU - Aizman, Arie

AU - Case, David A.

PY - 1985/6

Y1 - 1985/6

N2 - We report results of Xα valence bond scattered wave (Xα-VB-SW) calculations for a variety of clusters that mimic the active sites in iron-sulfur proteins: Fe(SR)4 1-,2-(R = H, CH3), Fe2S2(SH)4 2-,3- and Fe4S4(SCH3)42-,3-. Emphasis is placed on comparisons among the various clusters, including changes in the elctron distribution upon reduction, upon going from low spin to high spin, and upon changes in cluster geometry. We present estimates based on the calculations of Mössbauer isomer shifts and quadrupole splittings which lead to a consistent account of many experimental observations. The calculations predict the iron-(bridging sulfur) bonds to be stronger than those between iron and the terminal sulfur atoms; this has interesting structural and spectroscopic implications. To a good approximation, the oxidized 4-Fe complex can be viewed as two high-spin reduced 2-Fe clusters, despite the differences in geometry. Some of the implications of these results for structure-function problems in iron-sulfur proteins are discussed.

AB - We report results of Xα valence bond scattered wave (Xα-VB-SW) calculations for a variety of clusters that mimic the active sites in iron-sulfur proteins: Fe(SR)4 1-,2-(R = H, CH3), Fe2S2(SH)4 2-,3- and Fe4S4(SCH3)42-,3-. Emphasis is placed on comparisons among the various clusters, including changes in the elctron distribution upon reduction, upon going from low spin to high spin, and upon changes in cluster geometry. We present estimates based on the calculations of Mössbauer isomer shifts and quadrupole splittings which lead to a consistent account of many experimental observations. The calculations predict the iron-(bridging sulfur) bonds to be stronger than those between iron and the terminal sulfur atoms; this has interesting structural and spectroscopic implications. To a good approximation, the oxidized 4-Fe complex can be viewed as two high-spin reduced 2-Fe clusters, despite the differences in geometry. Some of the implications of these results for structure-function problems in iron-sulfur proteins are discussed.

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JF - Journal of the American Chemical Society

IS - 12

ER -

Models for Ferredoxins: Electronic Structures of Iron-Sulfur Clusters with One, Two, and Four Iron Atoms

Abstract

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