Chinese hamster V79 cells were irradiated with 254 nm (UV-C) and 308 nm (UV-B) light, emitted by a germicidal lamp and an excimer laser, respectively. Induction of mutations at two distinct genetic loci was measured by selecting colonies resistant to 6-thioguanine or to ouabain. Unlike 6-thioguanine resistance which can be presumed to be due to many different types of genetic damage, mutation to ouabain resistance seems to result from base-pair substitution events only. Much higher doses of 308 than of 254 nm radiation are required to induce equivalent numbers of mutants. However, induction of cell inactivation and 6-thioguanine resistant mutations with the two UV sources appears to be correlated, suggesting that a common mechanism, perhaps involving the induction of pyrimidine-containing dimers, is involved. The frequency of ouabain resistant mutants per lethal event is on the other hand much higher after irradiation with the 308 nm light. This latter finding further defines a part of the UV-B spectral region which seems to induce a unique kind of DNA damage which specifically results in base-pair substitution events. Action spectra studies therefore appear necessary in the definition of the mutagenic effects of UV-B radiations in mammalian cells.
Genetic effects of UV-B: mutagenicity of 308 nm light in Chinese hamster V79 cells / COLELLA C.M.; BOGANI P.; AGATI G.; F. FUSI. - In: PHOTOCHEMISTRY AND PHOTOBIOLOGY. - ISSN 0031-8655. - STAMPA. - 43:(1986), pp. 437-442. [10.1111/j.1751-1097.1986.tb05626.x]
Genetic effects of UV-B: mutagenicity of 308 nm light in Chinese hamster V79 cells.
BOGANI, PATRIZIA;FUSI, FRANCO
1986
Abstract
Chinese hamster V79 cells were irradiated with 254 nm (UV-C) and 308 nm (UV-B) light, emitted by a germicidal lamp and an excimer laser, respectively. Induction of mutations at two distinct genetic loci was measured by selecting colonies resistant to 6-thioguanine or to ouabain. Unlike 6-thioguanine resistance which can be presumed to be due to many different types of genetic damage, mutation to ouabain resistance seems to result from base-pair substitution events only. Much higher doses of 308 than of 254 nm radiation are required to induce equivalent numbers of mutants. However, induction of cell inactivation and 6-thioguanine resistant mutations with the two UV sources appears to be correlated, suggesting that a common mechanism, perhaps involving the induction of pyrimidine-containing dimers, is involved. The frequency of ouabain resistant mutants per lethal event is on the other hand much higher after irradiation with the 308 nm light. This latter finding further defines a part of the UV-B spectral region which seems to induce a unique kind of DNA damage which specifically results in base-pair substitution events. Action spectra studies therefore appear necessary in the definition of the mutagenic effects of UV-B radiations in mammalian cells.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.