Aqueous solution, DNA, Radical, Photochemistry and Radiolysis are his primary areas of study. His work in the fields of Aqueous solution, such as Solvated electron, intersects with other areas such as Peroxyl radicals. His biological study spans a wide range of topics, including Sugar, Polynucleotide, Radiation induced and Phosphoric acid.
His Radical study combines topics from a wide range of disciplines, such as Inorganic chemistry, Reaction rate constant, Moiety and Medicinal chemistry. His Photochemistry research incorporates elements of Elimination reaction, Deuterium, Dithiothreitol, Flash photolysis and Cis trans isomerization. His work deals with themes such as Electron paramagnetic resonance and Oxygen, which intersect with Radiolysis.
His primary scientific interests are in Aqueous solution, Radical, Photochemistry, Medicinal chemistry and Radiolysis. His Aqueous solution research is multidisciplinary, incorporating elements of Inorganic chemistry, Polynucleotide, Radical ion, DNA and Electron paramagnetic resonance. His studies in DNA integrate themes in fields like Molecular biology and Oxygen.
His work carried out in the field of Radical brings together such families of science as Reaction rate constant and Adduct. His Photochemistry study incorporates themes from Yield, Excited state, Triplet state, Flash photolysis and Quantum yield. The various areas that Dietrich Schulte-Frohlinde examines in his Radiolysis study include Radiation chemistry and Hydroxyl radical.
Dietrich Schulte-Frohlinde mostly deals with Aqueous solution, Radical, DNA, Photochemistry and DNA damage. He specializes in Aqueous solution, namely Radiolysis. His work carried out in the field of Radiolysis brings together such families of science as Conjugate acid, Crystallography and Acid catalysis.
His Radical research integrates issues from Nucleobase, Stereochemistry, Base and Medicinal chemistry. His studies in DNA integrate themes in fields like Molecular biology, Polynucleotide and Oxygen. His work on Photodissociation is typically connected to Guanine as part of general Photochemistry study, connecting several disciplines of science.
The scientist’s investigation covers issues in Radical, Aqueous solution, DNA, Photochemistry and Polynucleotide. The Radical study combines topics in areas such as Nucleobase, Stereochemistry and Base. Dietrich Schulte-Frohlinde combines subjects such as Electron paramagnetic resonance, Medicinal chemistry and Reaction sequence with his study of Base.
His Aqueous solution research is multidisciplinary, incorporating perspectives in Inorganic chemistry, Intercalation, Ruthenium, Radical ion and Quantum yield. His work on DNA damage as part of general DNA study is frequently linked to Programmed cell death, bridging the gap between disciplines. The study incorporates disciplines such as Peroxydisulfate, Tris, Divalent and Double bond in addition to Photochemistry.
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Radiation-Induced Strand Breaks in DNA: Chemical and Enzymatic Analysis of End Groups and Mechanistic Aspects
Clemens Von Sonntag;Ulrich Hagen;Annemarie Schön-Bopp;Dietrich Schulte-Frohlinde.
Advances in radiation biology (1981)
Formation of radical cations of methoxylated benzenes by reaction with hydroxyl radicals, thallium(2+), silver(2+), and peroxysulfate (SO4.-) in aqueous solution. Optical and conductometric pulse radiolysis and in situ radiolysis electron spin resonance study
P. O'Neill;S. Steenken;D. Schulte-Frohlinde.
The Journal of Physical Chemistry (1975)
DNA double-strand breaks induced by sparsely ionizing radiation and endonucleases as critical lesions for cell death, chromosomal aberrations, mutations and oncogenic transformation.
Günter Obe;Christian Johannes;Dietrich Schulte-Frohlinde.
Strand breaks and sugar release by .gamma.-irradiation of DNA in aqueous solution
Miral Dizdaroglu;Clemens Von Sonntag;Dietrich Schulte-Frohlinde.
Journal of the American Chemical Society (1975)
Yields of radiation-induced main chain scission of poly U in aqueous solution: strand break formation via base radicals.
D.G.E. Lemaire;E. Bothe;D. Schulte-Frohlinde.
International Journal of Radiation Biology (1984)
PHOTOCHEMICAL cis-trans-ISOMERIZATION OF SUBSTITUTED STILBENES
Dietrich Schulte-Frohlinde;Hartwig Blume;Hans Güsten.
The Journal of Physical Chemistry (1962)
HO2 ELIMINATION FROM α‐HYDROXYALKYLPEROXYL RADICALS IN AQUEOUS SOLUTION
Eberhard Bothe;Man Nien Schuchmann;Dietrich Schulte-Frohlinde;Clemens von Sonntag.
Photochemistry and Photobiology (1978)
Pulse radiolysis and electron spin resonance studies concerning the reaction of SO4.cntdot.- with alcohols and ethers in aqueous solution
H. Eibenberger;S. Steenken;P. O'Neill;D. Schulte-Frohlinde.
The Journal of Physical Chemistry (1978)
Laser-induced strand break formation in DNA and polynucleotides.
D. Schulte-Frohlinde;M. G. Simic;H. Görner.
Photochemistry and Photobiology (1990)
Model Studies for the Direct Effect of High-energy Irradiation on DNA. Mechanism of Strand Break Formation Induced by Laser Photoionization of Poly U in Aqueous Solution
Dietrich Schulte-Frohlinde;Joachim Opitz;Helmut Görner;Eberhard Bothe.
International Journal of Radiation Biology (1985)
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