[en] In the present work, the sensitization due to oxygen in the irradiation of DNA in aqueous solution has been investigated. The following parameters were examined: change of the secondary structure, double and single strand break rates, nature of the broken ends, inhibition of the DNA polymerase through irradiated DNA, matrix function of irradiated DNA in the RNA synthesis and infectivity of irradiated T1-DNA. Under accurately determined gaseous conditions, it was found that the single strand break rates increase by a factor of 2.4 in the presence of O₂. The number of final monophosphates show an oxygen effect of 2.0. The number of the 5'-OH- and the 5'-P end groups prior to alkali treatment is not noticeably effected by the oxygen present during irradiation. The double strand break rate also exhibits an oxygen effect. However, it is not a high as could be expected from the single strand break rate. It was concluded from the analysis of the dose-effect curve for the double strand break rate and the analysis of the broken ends that the share of alkali labile breaks in the DNA which is irradiated in the presence of oxygen is increased. When irradiating in the presence of O₂, a greater change in the secondary structure of the DNA occurs than when irradiating in the absence of O₂. This fact can not be ascribed to strand breaks alone. The increased lesions occuring in the presence of O₂ also inhibit the DNA polymerase but are of no significance as a stop point for the RNA polymerase. It could be shown with infectious T1-DNA that, the host cell besides many other lesions can also eleminate all damage occuring with increased frequency by irradiation in the presence of O₂. The lethal phenomenon has a G-value of about 0.05 and exhibits no oxygen effect. (orig./LH)