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Literature DB >> 15506726

Long-range electron transfer across Peptide bridges: the transition from electron superexchange to hopping.

Rouba Abdel Malak¹, Zhinong Gao, James F Wishart, Stephan S Isied.

Abstract

Long-range electron transfer rate constants for complexes of the type [(bpy)2RuIIL-Pron-apyRuIII)(NH3)5]5++ proline residues (n) varying from 0 to 9 were determined by complementary electron pulse radiolysis and flash photolysis techniques from the picosecond to the millisecond time scales. The activationless kmax values from both techniques coalesce into one data set. The distance dependence of the reactions is consistent with a smooth transition from a superexchange mechanism with attenuation constant beta = 1.4 A-1 to a hopping mechanism with attenuation constant beta = 0.17 A-1. The transition occurs between n = 3 and 4 prolines, and the virtual hopping rate constant at the shortest distance is about 1 x 106 times slower than that observed for the superexchange value.

Entities: Chemical Species

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Year: 2004 PMID： 15506726 DOI： 10.1021/ja0401040

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

16 in total

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2. Theoretical Study of Shallow Distance Dependence of Proton-Coupled Electron Transfer in Oligoproline Peptides.

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4. Electronic Decay Length in a Protein Molecule.

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Long-range electron transfer across Peptide bridges: the transition from electron superexchange to hopping.

1. Photo-induced oxidation of the uniquely liganded heme f in the cytochrome b6f complex of oxygenic photosynthesis.

2. Theoretical Study of Shallow Distance Dependence of Proton-Coupled Electron Transfer in Oligoproline Peptides.

3. Tuning electronic transport via hepta-alanine peptides junction by tryptophan doping.

4. Electronic Decay Length in a Protein Molecule.

5. Two Aromatic Rings Coupled a Sulfur-Containing Group to Favor Protein Electron Transfer by Instantaneous Formations of π∴S:π↔π:S∴π or π∴π:S↔π:π∴S Five-Electron Bindings.

6. A New Type of Electron Relay Station in Proteins: Three-Piece S:Π∴S↔S∴Π:S Resonance Structure.

7. Probing Charge Transport through Peptide Bonds.

8. Interactions between redox complexes and semiconductor quantum dots coupled via a peptide bridge.

9. Shallow Distance Dependence for Proton-Coupled Tyrosine Oxidation in Oligoproline Peptides.

10. Fundamental limits on wavelength, efficiency and yield of the charge separation triad.