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oratory-controlled experiments (22,. 23). Of particular interest in this study. Figure 6. Comparisonof the vibrational- ly excited FLN spectrafor thre...
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FLNS has also been used to deter­ mine five BP-nucleoside adducts syn­ thesized by one-electron oxidation of B P in the presence of guanosine, deoxyguanosine, and deoxyadenosine (13). The results showed that a major depurination adduct from the binding of BP to DNA in rat liver nuclei is 7(benzo [a] pyren-6-yl)guanine (N7Gua). Only 20 pg of the adduct was required, an amount that can be obtained from one rat, whereas analysis by the com­ mon method of collisionally activated decomposition MS would require sacri­ ficing many rats.

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FLNS analysis of in vivo DNA adducts FLNS also can be used for in vivo stud­ ies. FLN spectra of (+)-cmf}-BPDEDNA and syrc-BPDE-DNA (Figure 7) have been used to identify the major diol epoxide adduct of fish liver DNA from English sole exposed to BP in lab­ oratory-controlled experiments (22, 23). Of particular interest in this study

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Wavelength (nm)

Figure 7. Comparison of the FLN spec­ trum of fish liver DNA (a) extracted from fish exposed to BP, (b) with stan­ dard FLN spectra of syn-BPDE-DNA, and (c) (+)-a/7f/-BPDE-DNA. The modification levels are ~ 1 adduct in 107 bases, ~ 1 adduct in 107 bases (determined radiometrically), and ~ 1 adduct in ~200 bases, re­ spectively.

Figure 6. Comparison of the vibrationally excited FLN spectra for three differ­ ent DNA adducts. All spectra were obtained in the standard gly/H 2 0 glass at 4.2 Κ with an excitation wavelength of 371.6 nm. (a) Mixture of BPT and DNA at a con­ centration of 10" 5 M, (b) (+)-anf/-BPDE-DNA with 0.5% bases modified, (c) (-)-anfi-BPDE-DNA with 1.5% bases modified, and (d) syn-BPDEDNA at a concentration of ~ 1 adduct in 107 bases. The peaks are labeled with their corre­ sponding excited-state vibrational frequencies (in cm - 1 ).

was whether the expected N-2-deoxyguanosine (N-2-dG) adduct from (+)αηίί-BPDE is formed. Despite the very low damage level of the DNA (~1 ad­ duct in 107 bases as determined by an independent method), the FLN spec­ trum exhibits a good signal-to-noise ra­ tio. As expected, a major adduct is de­ rived from BPDE, establishing the im­ portance of the monooxygenation mechanism. However, comparison of the fish DNA spectrum with the FLN spectra of syn-BPOE and (+)-antiBPDE-DNA shows that the adduct is not derived from (+)-onii-BPDE but from syn-BPDE. Although the major adduct is de­ rived from syn-BPDE, weaker contri­ butions from (+)-anti- and (-)-antiBPDE-DNA adducts cannot be ex­ cluded. Both anti- and syn-BPDE are strongly mutagenic in bacterial and mammalian cells, but αηίί'-BPDE gen­ erally shows greater activity than synBPDE in most tests (24). Thus the high proportion of syn-BPDE-DNA ad­ ducts in English sole exposed to the high dosage of BP used in these experi-

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ANALYTICAL CHEMISTRY, VOL. 61 NO. 18, SEPTEMBER 15, 1989 · 1029 A