DNA Repair by Photolyase: A Novel Substrate with Low Background Absorption around 265 nm for Transient Absorption Studies in the UV (original) (raw)
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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FTIR study of CPD photolyase with substrate in single strand DNA
mahaputra wijaya
BIOPHYSICS, 2015
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Investigation of the Cyclobutane Pyrimidine Dimer (CPD) Photolyase DNA Recognition Mechanism by NMR Analyses
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Journal of Biological Chemistry, 2004
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Kinetics of cyclobutane thymine dimer splitting by DNA photolyase directly monitored in the UV
Pavel Müller
Proceedings of the National Academy of Sciences, 2011
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Dynamics and mechanisms of DNA repair by photolyase
Dongping Zhong
Physical chemistry chemical physics : PCCP, 2015
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Electrically monitoring DNA repair by photolyase
Jacqueline Barton
Proceedings of the National Academy of Sciences, 2005
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Similarities and Differences between Cyclobutane Pyrimidine Dimer Photolyase and (6-4) Photolyase as Revealed by Resonance Raman Spectroscopy
Takeshi Uchida
Journal of Biological Chemistry, 2006
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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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FTIR Study of Light-Dependent Activation and DNA Repair Processes of (6–4) Photolyase
Takeshi Todo
Biochemistry, 2011
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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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Light-induced reactions of Escherichia coli DNA photolyase monitored by Fourier transform infrared spectroscopy
Klaus Gerwert
FEBS Journal, 2005
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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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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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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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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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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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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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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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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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Bifurcating electron-transfer pathways in DNA photolyases determine the repair quantum yield
Dongping Zhong
Science (New York, N.Y.), 2016
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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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Light-Induced Conformational Change and Product Release in DNA Repair by (6−4) Photolyase
Takeshi Todo
Journal of the American Chemical Society, 2011
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Femtochemistry VII: Fundamental Ultrafast Processes in Chemistry, Physics, and Biology (Pt. 7)
goutham kodali
2006
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Thymine Dimerization in DNA Is an Ultrafast Photoreaction
Carlos E. Crespo-Hernández
Science, 2007
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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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Formation and stability of repairable pyrimidine photohydrates in DNA
Timothy Hilbert, Richard Cunningham
Biochemistry, 1990
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Substrate Assignment of the (6-4) Photolyase Reaction by FTIR Spectroscopy
Takeshi Todo
The Journal of Physical Chemistry Letters, 2011
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Vibrational analysis of carbonyl modes in different stages of light-induced cyclopyrimidine dimer repair reactions
Paul Tavan
Chemical Physics Letters, 2001
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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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Ultrafast photoreduction dynamics of a new class of CPD photolyases
Pavel Müller
Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 2021
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Reaction Mechanism of (6-4) Photolyase
Spring Liu
Journal of Biological Chemistry, 1997
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The Role of Pyrimidine Nucleobases Excimers in DNA Photoreactivity
Juan J. Serrano-Perez
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Binding and Catalytic Properties of Xenopus (6-4) Photolyase
Takeshi Todo
Journal of Biological Chemistry, 1997
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Characterization of (6-4) photoproduct DNA photolyase
K. Malhotra
The Journal of biological chemistry, 1994
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