PHOTOADDITION OF 8-METHOXYPSORALEN TO E. coli DNA POLYMERASE I. ROLE OF PSORALEN PHOTO-ADDUCTS IN THE PHOTOSENSITIZED ALTERATIONS OF POL I ENZYMATIC ACTIVITIES

Abstract— We have previously demonstrated that 8-methoxypsoralen (8-MOP)? plus UVA is able to inactivate the three enzymatic activities of E. coli DNA polymerase I and that oxygen is required for these reactions (M. Granger et al. , (1982) Photochem. Photobiol. , 36 , 175–180). We now show that UV-A irradiation produces a covalent incorporation of the psoralen derivative into the enzyme either in the presence or in the absence of oxygen. The excited psoralen binds directly to the protein in an oxygen-independent reaction; no complex was detected in the absence of irradiation. Fluorescence measurements reveal that at least two photoadducts are formed.
The 8-MOP-photomodified enzyme is still fully active but further irradiation leads to an inhibition of the 5'→ 3' polymerase activity whereas the 5'→ 3' exonuclease activity is not affected. A major part of the inhibition reaction is shown to be oxygen-dependent but singlet oxygen quenchers have no effect on the kinetics. This oxygen-dependent reaction is attributed to a photosensitization, due to covalently bound 8-MOP, of neighbouring amino acids through an intermediate reactive oxygen species which is not singlet oxygen. The oxygen-independent reaction is attributed to a direct photosensitization through, for example, a radical mechanism.