Phillip A. Martens scite author profile

Breaks are introduced into DNA strands when DNA solutions containing ethidium bromide (EB) are exposed to incandescent light. The nicking rate is sensitive to the concentration of EB and the light intensity. At short exposure times, this rate is limited by photon capture and formation of an intermediate capable of nicking DNA and zero-order nicking kinetics are observed. If the EB is pre-irradiated, the nicking rate is limited by DNA concentration and first-order nicking kinetics are observed. The nicking rate is not greatly affected by the presence of a low frequency of ribonucleotides in the duplex structure. The nicking reaction produces neither double-strand breaks nor interstrand crosslinks. The nicks produced cannot be closed by DNA ligase. The fluorescent light intensities under normal laboratory conditions are insufficient to induce significant nicking.

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Sterilization of Medical Products Using Gas Plasma Technology

Martens¹,

Galliani²,

Graham³

et al. 2018

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Phillip A. Martens

Mechanism of mitochondrial DNA replication in mouse L-cells: Localization and sequence of the light-strand origin of replication

Replication of Mouse L-cell Mitochondrial DNA

Strand breakage in solutions of DNA and ethidium bromide exposed to visible light

Sterilization of Medical Products Using Gas Plasma Technology

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