POLLEN DNA-REPAIR AFTER TREATMENT WITH THE MUTAGENS 4-NITROQUINOLINE-1-OXIDE, ULTRAVIOLET AND NEAR-ULTRAVIOLET IRRADIATION, AND BORON DEPENDENCE OF REPAIR

Irradiation of dry, mature pollen from Petunia hybrida with near-ultraviolet light from an erythemal-sunlamp gave rise to a repair-like, unscheduled DNA synthesis during the early stages of in vitro germination. Like that brought about by farultraviolet light from a germicidal lamp, this DNA synthesis is enhanced by hydroxyurea added to the germination medium, and reduced by photoreactivating light given after ultraviolet irradiation and before germination begins. It is concluded that pollen, often receiving considerable exposure to sunlight, has, in addition to the protection afforded by the ultraviolet filtering effect of yellow pigments, also the capacity to repair ultraviolet produced changes in DNA, by both photoreactivation and dark repair processes. Because mature Petunia pollen is arrested at the G2 stage of the cell cycle, germinating pollen provides us with a highly synchronous plant tissue with a very low background of DNA replicative synthesis suitable for sensitive measurement of DNA repair synthesis. Thus we have shown that 4-nitroquinoline-1-oxide, at concentrations greater than 0.001 mM, gives rise to an unscheduled DNA synthesis which is enhanced by hydroxyurea. Like that induced by ultraviolet radiation, the chemical mutagen brings about DNA repair only during the early stages of pollen germination, and further it has been possible to show that repair ceases at about the time that generative cell division and pollen tube elongation begins. Boron addition enhances both ultraviolet and 4-nitroquinoline-1-oxide induced repair synthesis. By delaying the chemical mutagen initiation of repair until after germination has begun, we have been able to show that boron is most beneficial during the first hour of germination. It is postulated that this is achieved through an as yet unknown effect of boron on the supply of precursors before pollen cell metabolism is fully committed to pollen tube synthesis later in the germination period. © 1979 Springer-Verlag.