Time-resolved EPR studies with DNA photolyase: excited-state FADH0 abstracts an electron from Trp-306 to generate FADH-, the catalytically active form of the cofactor
Craig Essenmacher
Proceedings of the National Academy of Sciences, 1993
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A QM/MM Investigation of Thymine Dimer Radical Anion Splitting Catalyzed by DNA Photolyase
Ursula Rothlisberger
ChemPhysChem, 2009
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Photolyase: Dynamics and electron-transfer mechanisms of DNA repair
Dongping Zhong
Archives of biochemistry and biophysics, 2017
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Quantum Yield Measurements of Short-Lived Photoactivation Intermediates in DNA Photolyase: Toward a Detailed Understanding of the Triple Tryptophan Electron Transfer Chain †
Andras Lukacs, Marten Vos
The Journal of Physical Chemistry A, 2010
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Model studies of the (6-4) photoproduct photolyase enzyme: Laser flash photolysis experiments confirm radical ion intermediates in the sensitized repair of thymine …
Gautam Prakash
Journal of the American …, 2000
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Dynamics and mechanisms of DNA repair by photolyase
Dongping Zhong
Physical chemistry chemical physics : PCCP, 2015
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Dynamics and mechanism of repair of ultraviolet-induced (6–4) photoproduct by photolyase
Zheyun Liu, Dongping Zhong
Nature, 2010
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FTIR study of CPD photolyase with substrate in single strand DNA
mahaputra wijaya
BIOPHYSICS, 2015
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Dynamics and mechanism of cyclobutane pyrimidine dimer repair by DNA photolyase
Zheyun Liu
Proceedings of the National Academy of Sciences, 2011
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Loss of Fourth Electron-Transferring Tryptophan in Animal (6–4) Photolyase Impairs DNA Repair Activity in Bacterial Cells
Pavel Müller
Biochemistry, 2017
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Light-induced reactions of Escherichia coli DNA photolyase monitored by Fourier transform infrared spectroscopy
Klaus Gerwert
FEBS Journal, 2005
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Resonance Raman and UV−Vis Spectroscopic Characterization of FADH • in the Complex of Photolyase with UV-Damaged DNA †
Stacey Wagner
The Journal of Physical Chemistry B, 2003
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FTIR Study of Light-Dependent Activation and DNA Repair Processes of (6–4) Photolyase
Takeshi Todo
Biochemistry, 2011
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Quantum yield measurements of short-lived photoactivation intermediates in DNA photolyase: Towards a detailed understanding of the triple tryptophan electron transfer chain
Viruthachalam Thiagarajan
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DNA repair by photolyase: A novel substrate with low background absorption around 265 nm for transient absorption studies in the UV
Viruthachalam Thiagarajan
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Electron Nuclear Double Resonance Differentiates Complementary Roles for Active Site Histidines in (6-4) Photolyase
Takeshi Todo
Journal of Biological Chemistry, 2006
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Electrically monitoring DNA repair by photolyase
Jacqueline Barton
Proceedings of the National Academy of Sciences, 2005
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Intramolecular Electron Transfer from Tryptophan to Guanosyl Radicals in a Linked System as a Model of DNA Repair
Alexandra Yurkovskaya
Zeitschrift für Physikalische Chemie, 2017
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Kinetics of Electron Returns in Successive Two-Photon DNA Repair by (6-4) Photolyase
Pavel Müller
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Bifurcating electron-transfer pathways in DNA photolyases determine the repair quantum yield
Dongping Zhong
Science (New York, N.Y.), 2016
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Electron Fate and Mutational Robustness in the Mechanism of (6-4)Photolyase-Mediated DNA Repair
Akio Kitao
ACS Catalysis, 2017
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Combined QM/MM Investigation on the Light-Driven Electron-Induced Repair of the (6–4) Thymine Dimer Catalyzed by DNA Photolyase
A. Dreuw
The Journal of Physical Chemistry B, 2013
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Reaction Mechanism of (6-4) Photolyase
Spring Liu
Journal of Biological Chemistry, 1997
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Femtosecond Dynamics of DNA Photolyase: Energy Transfer of Antenna Initiation and Electron Transfer of Cofactor Reduction
Dongping Zhong
The Journal of Physical Chemistry B, 2004
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Sub-nanosecond tryptophan radical deprotonation mediated by a protein-bound water cluster in class II DNA photolyases
Lars-Oliver Essen
Chemical Science
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Reactivities Leading to Potential Chemical Repair of Sunlight-Induced DNA Damage: Mechanistic Studies of Cyclobutane Pyrimidine Dimer (CPD) Lesions under Alkaline Conditions
Ritu Chaturvedi
2020
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Investigation of the Cyclobutane Pyrimidine Dimer (CPD) Photolyase DNA Recognition Mechanism by NMR Analyses
Takeshi Todo
Journal of Biological Chemistry, 2004
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Single Hydrogen Bond Donation from Flavin N5 to Proximal Asparagine Ensures FAD Reduction in DNA Photolyase
mahaputra wijaya
Journal of the American Chemical Society, 2016
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Characterization of (6-4) photoproduct DNA photolyase
K. Malhotra
The Journal of biological chemistry, 1994
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Photochemistry of Wild-Type and N378D Mutant E. coli DNA Photolyase with Oxidized FAD Cofactor Studied by Transient Absorption Spectroscopy
Andras Lukacs
ChemPhysChem 2016, 17, 1 – 13, 2016
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Photoselected electron transfer pathways in DNA photolyase
Spiros Skourtis, T. Prytkova
Proceedings of the National Academy of Sciences, 2007
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Electron Tunneling Pathways and Role of Adenine in Repair of Cyclobutane Pyrimidine Dimer by DNA Photolyase
Zheyun Liu
Journal of the American Chemical Society, 2012
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Affinity Probing of Flavin Binding Sites. 2. Identification of a Reactive Cysteine in the Flavin Domain of Escherichia coli DNA Photolyaset
Andrei Raibekas
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DNA Damage and Radical Reactions: Mechanistic Aspects, Formation in Cells and Repair Studies
Miguel Miranda
CHIMIA International Journal for Chemistry, 2008
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DNA Photosensitization by an “Insider”: Photophysics and Triplet Energy Transfer of 5-Methyl-2-pyrimidone Deoxyribonucleoside
Christophe Morell
Chemistry - A European Journal, 2015
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