eutron and γ-Irradiation of Bacteriophage M13 DNA: Use of Standard Neutron Irradiation Facility (SNIF)

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We describe here the use of the Van de Graaff accelerator as a source of high energy neutrons for biological irradiation. Single-stranded bacteriophage M13 DNA was chosen as the system to determine the relative biological effectiveness of monoenergetic neutrons. A Standard Neutron Irradiation Facility (SNIF) was established using a 3 MV Van de Graaff accelerator. The ^2D (d,n)^3He nuclear reaction was used to produce neutron fluxes of 3×10^8 cm^<-2> sec^<-1> yielding dose rates as high as 50 Gy h-1. A detailed description of the neutron source, neutron fluence measurement, dose calculation and calibration are included. Exposure of single-stranded bacteriophage M13 DNA to 90 Gy of neutrons reduced survival to 0.18% of the unirradiated value. 500 Gy of γ-rays were required for the same level of killing, and RBE was estimated at 6 based on Do values. Determination of the extent of DNA damage after exposure to cleavage using gel electrophoresis, gave RBE values of 6-8 which was very similar to that observed for bacteriophage survival. The facility described here provides a reproducible source of high energy monoenergetic neutrons and dose levels suitable for experiments designed to measure DNA damage and effects on DNA synthesis.
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