A novel approach for analyzing the structure of DNA modified by Benzo[a]pyrene diol epoxide at single-molecule resolution |
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Authors: | Pietrasanta L I Smith B L MacLeod M C |
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Affiliation: | Department of Physics, University of California, Santa Barbara, California 93106, and Department of Carcinogenesis, University of Texas M. D. Anderson Cancer Center, Smithville, Texas 78957, USA. |
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Abstract: | Benzo[a]pyrene diol epoxide (BPDE) has been shown to bind specifically to the exocyclic amino group of deoxyguanosine in duplex DNA. Interestingly, this metabolite exhibits stereoselectivity in its tumorigenic and mutagenic effects. It is thought that local DNA conformation is altered at the site of the adduct, resulting in aberrant biological processes, and that in certain sequence contexts BPDE-DNA adducts induce bends in the DNA. In the work presented here, we compared DNA structural alterations of BPDE-modified DNA and unmodified DNA via tapping mode atomic force microscopy (AFM). DNA fragments 366 base pairs (bp) in length were generated by PCR from the duplicated multiple-cloning site of pBEND2 inserted into pGEM-3Zf(-), and either mock-modified or treated with BPDE to give modification levels between 1 and 5% of the nucleotides. Control or BPDE-modified DNA was adsorbed to mica and visualized in air by AFM. The contour lengths and end-to-end lengths of individual molecules were measured. The ratio of end-to-end distance to contour length was significantly smaller for modified DNA molecules than for the unmodified DNA preparation, although the frequency distributions of the contour lengths were similar for the two preparations. This suggests BPDE-DNA adducts cause significant bending of DNA molecules, confirming previous conclusions based on more indirect measurements. The average induced bend angle for BPDE-DNA adducts is estimated to be at least 30 degrees. |
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