Electron Hopping through the 15 Å Triple Tryptophan Molecular Wire in DNA Photolyase Occurs within 30 ps

DNA photolyase is a photoactive flavoprotein that contains three tryptophan residues between the FAD cofactor and the protein surface, the solvent-exposed Trp being located 14.8 Å from the flavin. Photoreduction of the neutral radical FADH• form to the catalytically active FADH− form occurs via elec...

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Veröffentlicht in:	Journal of the American Chemical Society 2008-11, Vol.130 (44), p.14394-14395
Hauptverfasser:	Lukacs, Andras, Eker, André P. M, Byrdin, Martin, Brettel, Klaus, Vos, Marten H
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Chemical Sciences Deoxyribodipyrimidine Photo-Lyase - chemistry Electrons Flavins - chemistry Free Radicals - chemistry Kinetics Life Sciences Models, Molecular Spectrum Analysis - methods Tryptophan - chemistry
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container_title	Journal of the American Chemical Society
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creator	Lukacs, Andras Eker, André P. M Byrdin, Martin Brettel, Klaus Vos, Marten H
description	DNA photolyase is a photoactive flavoprotein that contains three tryptophan residues between the FAD cofactor and the protein surface, the solvent-exposed Trp being located 14.8 Å from the flavin. Photoreduction of the neutral radical FADH• form to the catalytically active FADH− form occurs via electron transfer through this chain. The first step in this chain takes 30 ps, the second less than 4 ps. Using a combination of site-directed mutagenesis and femtosecond polarization spectroscopy to discriminate the spectroscopically indistinguishable Trp residues, we show that the third step occurs in less than 30 ps. This implies that the first photoreduction step is rate limiting and that the Trp chain effectively acts as molecular “wire” ensuring rapid and directed long-range charge translocation across the protein. This finding is important for the functioning of the large class of cryptochrome blue-light receptors, where the Trp chain is conserved. In DNA photolyase we make use of the natural photoactivation of the process, but more generally chains of aromatic amino acids may allow very fast long-range electron transfer also in nonphotoactive proteins.
doi_str_mv	10.1021/ja805261m
format	Article
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This implies that the first photoreduction step is rate limiting and that the Trp chain effectively acts as molecular “wire” ensuring rapid and directed long-range charge translocation across the protein. This finding is important for the functioning of the large class of cryptochrome blue-light receptors, where the Trp chain is conserved. 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Using a combination of site-directed mutagenesis and femtosecond polarization spectroscopy to discriminate the spectroscopically indistinguishable Trp residues, we show that the third step occurs in less than 30 ps. This implies that the first photoreduction step is rate limiting and that the Trp chain effectively acts as molecular “wire” ensuring rapid and directed long-range charge translocation across the protein. This finding is important for the functioning of the large class of cryptochrome blue-light receptors, where the Trp chain is conserved. 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subjects	Anisotropy Chemical Sciences Deoxyribodipyrimidine Photo-Lyase - chemistry Electrons Flavins - chemistry Free Radicals - chemistry Kinetics Life Sciences Models, Molecular Spectrum Analysis - methods Tryptophan - chemistry
title	Electron Hopping through the 15 Å Triple Tryptophan Molecular Wire in DNA Photolyase Occurs within 30 ps
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