Carcinogen–base stacking and base–base stacking in dCpdG modified by (+) and (−) anti‐BPDE

The low‐energy conformations accessible to dCpdG modified at guanine N2 via trans epoxide opening by (+) and (−) 7β,8α‐dihydroxy‐9α,10α‐epoxy‐7,8,9,10‐tetrahydrobenzo(a)pyrene (anti‐BPDE) have been delineated by minimized semiempirical potential‐energy calculations with all torsion angles flexible. Nearly 4000 trials were made, representing a fairly thorough investigation of the conformation space of the adducts. Carcinogen–base stacked states and base–base stacked conformers were found in the low‐energy regions of both enantiomers. Many ω′, ω, ψ domains accommodate the two types of conformations, with B‐like backbones among the most preferred states in each case. The conformational differences between the two enantiomers on the dimer level reside in subtle distinctions in orientation of the carcinogen–base linkage.

[1]  J. Dommen,et al.  A Mechanism for the Stereoselectivity and Binding of Benzo[a]pyrene Diol Epoxides to DNA , 1985 .

[2]  J. Cadet,et al.  Crystal structure of the cis-syn photodimer of thymidylyl (3'-5') thymidine cyanoethyl ester. , 1985, Biopolymers.

[3]  A. R. Srinivasan,et al.  Influence of the carcinogen 4-aminobiphenyl on DNA conformation. , 1985, Carcinogenesis.

[4]  N. Geacintov Mechanisms of interaction of polycyclic aromatic diol epoxides with DNA and structures of the adducts , 1985 .

[5]  B. Hingerty,et al.  Mutagenicity of Polycyclic Aromatic Hydrocarbons and Amines: A Conformational Hypothesis a , 1984 .

[6]  R. Levine,et al.  Studies on the conformation and dynamics of the C8-substituted guanine adduct of the carcinogen acetylaminofluorene; model for a possible Z-DNA modified structure. , 1984, Nucleic acids research.

[7]  A. Rich,et al.  The molecular structure of a DNA-triostin A complex. , 1984, Science.

[8]  B. Nordén,et al.  Spectroscopic studies of DNA complexes formed after reaction with anti-benzo[a]pyrene-7,8-dihydrodiol-9,10-oxide enantiomers of different carcinogenic potency. , 1984, Carcinogenesis.

[9]  H. L. Carrell,et al.  Stereochemical properties of nucleosides alkylated by activated carcinogens. , 1984, Cancer research.

[10]  N. Geacintov,et al.  Stereoselective covalent binding of anti-benzo(a)pyrene diol epoxide to DNA conformation of enantiomer adducts. , 1984, Journal of biomolecular structure & dynamics.

[11]  E. R. Taylor,et al.  Interactions of molecules with nucleic acids. X. Covalent intercalative binding of the carcinogenic BPDE I(+) to kinked DNA. , 1983, Journal of biomolecular structure & dynamics.

[12]  B. Hingerty,et al.  AAF linked to the guanine amino group: a B-Z junction. , 1983, Nucleic acids research.

[13]  J. Einstein,et al.  Structure of p-(p-nitroanilino)phenyl isothiocyanate, C13H9N3O2S , 1983 .

[14]  A. Sancar,et al.  A novel repair enzyme: UVRABC excision nuclease of Escherichia coli cuts a DNA strand on both sides of the damaged region , 1983, Cell.

[15]  B. Nordén,et al.  Covalent complexes of DNA and two stereoisomers of benzo(a)pyrene 7,8-dihydrodiol-9,10-epoxide studied by fluorescence and linear dichroism. , 1983, Cancer research.

[16]  S. Islam,et al.  Computer modelling studies of the covalent interactions between DNA and the enantiomers of anti-7,8-diol,9,10-epoxy-benzo[a]pyrene. , 1983, Journal of biomolecular structure & dynamics.

[17]  B. Hingerty,et al.  A conformational analysis of the (+) anti BPDE adduct to the guanine amino group of dCpdG. , 1983, Journal of biomolecular structure & dynamics.

[18]  A. Conney,et al.  Induction of microsomal enzymes by foreign chemicals and carcinogenesis by polycyclic aromatic hydrocarbons: G. H. A. Clowes Memorial Lecture. , 1982, Cancer research.

[19]  S. Neidle,et al.  Molecular structure of (+/-)-7,8,9,10-tetrahydroxy-7,8,9,10-tetrahydrobenzo(a)pyrene determined by x-ray crystallography. , 1982, Cancer research.

[20]  B. Hingerty,et al.  Conformation of the deoxydinucleoside monophosphate dCpdG modified at carbon 8 of guanine with 2-(acetylamino)fluorene. , 1982, Biochemistry.

[21]  W. Olson How flexible is the furanose ring? 2. An updated potential energy estimate , 1982 .

[22]  M. Osborne,et al.  Mutation in mammalian cells by stereoisomers of anti-benzo[a] pyrene-diolepoxide in relation to the extent and nature of the DNA reaction products. , 1982, Carcinogenesis.

[23]  S. A. Salisbury,et al.  Crystalline A-DNA: the X-ray analysis of the fragment d(G-G-T-A-T-A-C-C) , 1981, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[24]  H R Drew,et al.  Structure of a B-DNA dodecamer: conformation and dynamics. , 1981, Proceedings of the National Academy of Sciences of the United States of America.

[25]  A. Rich,et al.  Left-handed double helical DNA: variations in the backbone conformation. , 1981, Science.

[26]  Harold Booth,et al.  Stereodynamics of molecular systems , 1981 .

[27]  F. Kadlubar A transversion mutation hypothesis for chemical carcinogenesis by N2-substitution of guanine in DNA. , 1980, Chemico-biological interactions.

[28]  H. Berman Modelling of Drug-Nucleic Acid Interactions Intercalation Geometry of Oligonucleotides , 1979 .

[29]  B. Hingerty,et al.  The influence of terminal 3', 5' phosphates on conformations of dApdA. , 1979, Nucleic acids research.

[30]  J. Miller,et al.  Covalent intercalative binding to DNA in relation to the mutagenicity of hydrocarbon epoxides and N-acetoxy-2-acetylaminofluorene. , 1978, Cancer research.

[31]  B. Hingerty,et al.  Further refinement of the structure of yeast tRNAPhe. , 1978, Journal of molecular biology.

[32]  F. Beland Computer-generated graphic models of the N2-substituted deoxyguanosine adducts of 2-acetylaminofluorene and benzo[a]pyrene and the O6-substituted deoxyguanosine adduct of 1-naphthylamine in the DNA double helix. , 1978, Chemico-biological interactions.

[33]  I. Weinstein,et al.  Conformation of dinucleoside monophosphates modified with benzo[a]pyrene-7,8-dihydrodiol 9,10-oxide as measured by circular dichroism. , 1978, Biochemistry.

[34]  Norman L. Allinger,et al.  Conformational analysis. 122. Heats of formation of conjugated hydrocarbons by the force field method , 1977 .

[35]  M. Sundaralingam,et al.  Conformational analysis of the sugar ring in nucleosides and nucleotides. A new description using the concept of pseudorotation. , 1972, Journal of the American Chemical Society.

[36]  M. J. D. Powell,et al.  An efficient method for finding the minimum of a function of several variables without calculating derivatives , 1964, Comput. J..

[37]  F. Crick,et al.  The complementary structure of deoxyribonucleic acid , 1954, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.