[Lack of foto reactivation of the Haemophilus influenzae transforming DNA mutated with near ultraviolet light (325-400nm)]. / Ausencia de fotorreactivación en el DNA transformante de Haemophilus influenzae, mutado con luz de ultravioleta cercano (325-400 nm).

Three extracts from Saccharomyces cerevisiae were obtained by salting out with ammonium sulfate, these were I-G, EFRL-II-G and III-G. Fraction EFRL-II-G showed the highest photoreactivating activity on DNA str2000 irradiated with far UV light. However, the same fraction did not reactivate DNA str2000 previously inactivated by near UV irradiation. We think that the inactivation by near-UV was not due to photochemically-formed pyrimidine dimers. Decrease in spontaneous mutation frequency of cells transformed with DNA str2000 irradiated with near-UV light, was the same with the DNA treated with active or heat inactivated EFRL-II-G, therefore we may conclude that DNA lesions responsible for the effect are difference to pyrimidine dimers.

[Decrease of spontaneous mutations in Haemophilus influenzae caused by transformation with its own DNA irradiated with near-ultraviolet light]. / Disminución de la mutación espontánea de Haemophilus influenzae por transformación con su DNA irradiado con luz del ultravioleta cercano.

Transforming DNA containing the streptomycin resistance marker, was irradiated for 8 h with broad near ultraviolet light (325-400 nm) at pH 4.8, and the inactivation kinetics determined. After selection of streptomycin resistant transformants, they were grown until a turbidity of 150-200 Klett units. In these cultures we looked for new markers coming from the irradiated transforming DNA. We looked and found the novobiocin resistance marker and one that conveys to protoporphyrin IX utilization, measured as an increase in the mutation frequency of these markers in the streptomycin resistant population. In other experiments, we found a decline in spontaneous mutation frequency for the same markers in the cells transformed with irradiated DNA. This last finding rises the possibility of alterations on the mutator genes as a result of near ultraviolet irradiation.