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Title:
Modelling the Electron-Transfer Complex Between Aldehyde Oxidoreductase and Flavodoxin
Publication date:
2006
Citation:
-
Abstract:
Three-dimensional protein structures of the xanthine oxidase family show different solutions for the problem of transferring electrons between the flavin adenine dinucleotide (FAD) group and the molybdenum cofactor. In xanthine oxidase all the cofactors lie within domains of the same protein chain, whereas in CO dehydrogenase the Fe-S centres, FAD and Mo cofactors are enclosed in separate chains and the enzyme exists as a stable complex of all three. In aldehyde oxidoreductase, only Fe-S and Mo co-factors are present in a single protein chain. Flavodoxin is docked to aldehyde oxidoreductase to mimic the flavin component on the intramolecular electron transfer chain of aanthine oxidase and CO dehydrogenase and, remarkably, the main features of the electron-transfer pathway are observed.
Journal
Authors:
Ludwig Krippahl
, Palma PN, Moura I., Moura JG
Journal:
Eur. J. of Inor. Chem
Publisher:
-
Address:
-
Volume:
2006
Number:
19
Pages:
3835-3840
ISBN:
-
ISSN:
-
Note:
-
Url address:
-
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Plain text:
Ludwig Krippahl and Palma PN and Moura I. and Moura JG, Modelling the Electron-Transfer Complex Between Aldehyde Oxidoreductase and Flavodoxin, Eur. J. of Inor. Chem, Vol. 2006, No. 19, Pag. 3835-3840, 2006.
HTML:
<b><a href="/people/members/view.php?code=195d68ea5904b58472fd8c8aedcae233" class="author">Ludwig Krippahl</a>, Palma PN, Moura I. and Moura JG</b>, <u>Modelling the Electron-Transfer Complex Between Aldehyde Oxidoreductase and Flavodoxin</u>, Eur. J. of Inor. Chem, Vol. 2006, No. 19, Pag. 3835-3840, 2006.
BibTeX:
@article { author = {Ludwig Krippahl and Palma PN and Moura I. and Moura JG}, title = {Modelling the Electron-Transfer Complex Between Aldehyde Oxidoreductase and Flavodoxin}, journal = {Eur. J. of Inor. Chem}, volume = {2006}, number = {19}, pages = {3835-3840}, abstract = {Three-dimensional protein structures of the xanthine oxidase family show different solutions for the problem of transferring electrons between the flavin adenine dinucleotide (FAD) group and the molybdenum cofactor. In xanthine oxidase all the cofactors lie within domains of the same protein chain, whereas in CO dehydrogenase the Fe-S centres, FAD and Mo cofactors are enclosed in separate chains and the enzyme exists as a stable complex of all three. In aldehyde oxidoreductase, only Fe-S and Mo co-factors are present in a single protein chain. Flavodoxin is docked to aldehyde oxidoreductase to mimic the flavin component on the intramolecular electron transfer chain of aanthine oxidase and CO dehydrogenase and, remarkably, the main features of the electron-transfer pathway are observed.}, keywords = {Bioinorganic chemistry Electron transfer Molybdenum Enzyme models}, year = {2006}, }
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