G. Koppen et Kj. Angelis, REPAIR OF X-RAY-INDUCED DNA-DAMAGE MEASURED BY THE COMET ASSAY IN ROOTS OF VICIA-FABA, Environmental and molecular mutagenesis, 32(3), 1998, pp. 281-285
The comet assay was used to measure DNA damage and repair in nuclei re
leased from 1 cm root ends of Vicia Faba after X-ray irradiation. Irra
diation induced a linear increase of DNA content in comet tail with do
ses under various denaturation and electrophoretic conditions. The pH
of the electrophoresis solution played the most important role in the
detection of DNA damage. After irradiation with 30 Gy of X-rays, most
of the DNA damage was removed during the first 20 min, even in the pre
sence of DNA repair inhibitors. This first, rapid phase of DNA repair
was not affected by incubation on ice, but was partially blocked by 3-
aminobenzamide. When DNA was exposed to alkali (0.3 M NaOH) and electr
ophoresed at neutral pH, all DNA damage was removed in 2 hr, even in t
he presence of 3-aminobenzamide. Complete repair was inhibited by incu
bation on ice (30% of DNA remaining in tail) and partially by aphidico
lin (13% DNA remaining in tail). Under alkaline (0.3 M NaOH) pretreatm
ent and electrophoresis, more than 20% of detected DNA damage remained
unrepaired after 2 hr of postirradiation incubation with and without
3-aminobenzamide at room temperature. Aphidicolin and incubation on ic
e inhibited the removal of DNA damage to 33% and 39% DNA, respectively
. Moreover, aphidicolin treatment attenuated the first phase of damage
removal. Environ. Mol. Mutagen. 32:281-285, 1998 (C) 1998 Wiley-Liss,
Inc.