19 May 2011 Damage to dry plasmid DNA induced by nanosecond XUV-laser pulses
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Proceedings Volume 8077, Damage to VUV, EUV, and X-ray Optics III; 80770W (2011); doi: 10.1117/12.887735
Event: SPIE Optics + Optoelectronics, 2011, Prague, Czech Republic
Abstract
Ionizing radiation induces a variety of DNA damages including single-strand breaks (SSBs), double-strand breaks (DSBs), abasic sites, modified sugar and bases. Most theoretical and experimental studies have been focused on DNA strand scissions, in particular production of DNA double-strand breaks. DSBs have been proven to be a key damage at a molecular level responsible for the formation of chromosomal aberrations, leading often to cell death. The complexity of lesions produced in DNA by ionizing radiations is thought to depend on the amount of energy deposited at the site of each lesion. We have studied the nature of DNA damage induced directly by the pulsed 46.9 nm radiation provided by a capillary-discharge Ne-like Ar laser (CDL). Different surface doses were delivered with a repetition rate of a few Hz and an average pulse energy ~ 1 μJ. A simple model DNA molecule, i.e., dried closed-circular plasmid DNA (pBR322), was irradiated. The agarose gel electrophoresis method was used for determination of both SSB and DSB yields. Results are compared with a previous study of plasmid DNA irradiated with a single sub-nanosecond 1-keV X-ray pulse produced by a large-scale, double-stream gas puff target, illuminated by sub-kJ, near-infrared (NIR) focused laser pulses at the PALS facility (Prague Asterix Laser System).
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Eva Nováková, Marie Davídková, Ludék Vyšín, Tomáš Burian, Michael E. Grisham, Scott Heinbuch, Jorge J. Rocca, Libor Juha, "Damage to dry plasmid DNA induced by nanosecond XUV-laser pulses", Proc. SPIE 8077, Damage to VUV, EUV, and X-ray Optics III, 80770W (19 May 2011); doi: 10.1117/12.887735; https://doi.org/10.1117/12.887735
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KEYWORDS
Single sideband modulation

Double sideband modulation

Extreme ultraviolet

Aluminum

X-rays

Ionizing radiation

Pulsed laser operation

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