Single strand breaks induced by very low fluence UVR (20 µW cmˉ²
, 310 nm) and visible
light (70 µW cmˉ²
, 405 nm) and higher fluence unfiltered xenon arc lamp radiation
(3 mW cmˉ²
) were measured by single cell gel electrophoresis. The normal responses of 6
cell lines to the low fluence radiation show a peak in single strand breaks after
approximately 2 minutes, after which time the single strand breakage returns to
background levels despite continued irradiation. This was not observed with the higher
fluence irradiation. The repair of these single strand breaks was observed to be complete
within 4 minutes after both high and low fluence irradiation.
The dose responses were modulated by beta-carotene and o-phenanthroline; these
molecules appeared to have both photosensitising and photoprotective properties, in the
cells tested at least. Inorganic arsenic (V) was observed to inhibit single strand break
repair and the religation of repair-related excised lesions. Arsenic-induced crosslinking
and the excision of the crosslinked lesions were observed.
The Area Moment, a new parameter for the image analysis of these low dose phenomena
based on the measurement of the Comet Area and DNA migration, is proposed. The Area
Moment displayed a higher level of sensitivity to the dose responses. Lower variance in
Area Moment data enabled statistical significance (p < 0.05, t-test) to be attained where
existing parameters returned only borderline significance at best.
Date of Award | 1999 |
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Original language | English |
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Awarding Institution | |
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Single cell gel electrophoresis-based investigations of UVR- and visible light-induced single strand breakage in cultured human cells
Kendall, J. F. (Author). 1999
Student thesis: PhD