Thomas R. Krugh scite author profile

An N-acetyl-2-aminofluorene (AAF) modified deoxyoligonucleotide duplex, d(C1-C2-A3-C4-[AAF-G5]-C6-A7-C8-C9).d(G10-G11-T12-G13-C14-++ +G15-T16-G17-G18), was studied by one- and two-dimensional NMR spectroscopy. Eight of the nine complementary nucleotides form Watson-Crick base pairs, as shown by NOEs between the guanine imino proton and cytosine amino protons for G.C base pairs or by an NOE between the thymine imino proton and adenine H2 proton for A.T base pairs. The AAF-G5 and C14 bases show no evidence of complementary hydrogen bond formation to each other. The AAF-G5 base adopts a syn conformation, as indicated by NOEs between the G5 imino proton and the A3-H3' and A3-H2'/H2" protons and by NOEs between the fluorene-H1 proton of AAF and the G5-H1' or C6-H1' proton. The NOEs from the C4-H6 proton to C4 sugar protons are weak, and thus the glycosidic torsion angle in this nucleotide is not well defined by these NMR data. The remaining bases are in the anti conformation, as depicted by the relative magnitude of the H8/H6 to H2' NOEs when compared to the H8/H6 to H1' NOEs. The three base pairs on each end of the duplex exhibit NOEs characteristic of right-handed B-form DNA. Distance restraints obtained from NOESY data recorded at 32 degrees C using a 100-ms mixing time were used in conformational searches by molecular mechanics energy minimization studies. The final, unrestrained, minimum-energy conformation was then used as input for an unrestrained molecular dynamics simulation. Chemical exchange cross peaks are observed, and thus the AAF-9-mer exists in more than a single conformation on the NMR time scale. The NMR data, however, indicate the presence of a predominant conformation (> or = 70%). The structure of the predominant conformation of the AAF-9-mer shows stacking of the fluorene moiety on an adjacent base pair, exhibiting features of the base-displacement [Grunberger, D., Nelson, J. H., et al. (1970) Proc. Natl. Acad. Sci. U.S.A. 66, 488-494] and insertion-denaturation models [Fuchs, R.P.P., & Daune, M. (1971) FEBS Lett. 14, 206-208], while the distal ring of the fluorene moiety protrudes into the minor groove.

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Solution structure of a DNA duplex containing a replicable difluorotoluene–adenine pair

Guckian

Krugh

Kool

1998

Nat Struct Mol Biol

134

153

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A nonpolar aromatic nucleoside derivative based on 2,4-difluorotoluene (F), a non-hydrogen bonding shape analog of thymidine, was recently shown to be replicated against adenine with high efficiency and fidelity. This led to the suggestion that geometric matching, potentially even in the absence of hydrogen bonding between bases in a pair, may be sufficient to direct nucleotide selection during replication. We have examined the solution structure of the F-A pair in the context of a 12 base pair DNA duplex. We find that, despite the destabilization caused by this analog, the F-A pair very closely resembles that of a T x A pair in the same context. This lends support to the importance of shape matching in replication.

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Solution Structure of an RNA Internal Loop with Three Consecutive Sheared GA Pairs^,

et al. 2005

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Internal loops in RNA are important for folding and function. Many folding motifs are internal loops containing GA base pairs, which are usually thermodynamically stabilizing, i.e., contribute favorable free energy to folding. Understanding the sequence dependence of folding stability and structure in terms of molecular interactions, such as hydrogen bonding and base stacking, will provide a foundation for predicting stability and structure. Here, we report the NMR structure of the oligonucleotide duplex, 5'GGUGGAGGCU3'/3'PCCGAAGCCG5' (P = purine), containing an unusually stable and relatively abundant internal loop, 5'GGA3'/3'AAG5'. This loop contains three consecutive sheared GA pairs (trans Hoogsteen/Sugar edge AG) with separate stacks of three G's and three A's in a row. The thermodynamic consequences of various nucleotide substitutions are also reported. Significant destabilization of approximately 2 kcal/mol at 37 degrees C is found for substitution of the middle GA with AA to form 5'GAA3'/3'AAG5'. This destabilization correlates with a unique base stacking and hydrogen-bonding network within the 5'GGA3'/3'AAG5' loop. Interestingly, the motifs, 5'UG3'/3'GA5' and 5'UG3'/3'AA5', have stability similar to 5'CG3'/3'GA5' even though UG and UA pairs are usually less stable than CG pairs. Consecutive sheared GA pairs in the 5'GGA3'/3'AAG5' loop are preorganized for potential tertiary interactions and ligand binding.

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Structural Characterization of a (+)-trans-anti-Benzo[a]pyrene-DNA Adduct using NMR, Restrained Energy Minimization, and Molecular Dynamics

Fountain¹,

Krugh²

1995

Biochemistry

120

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The (+)-trans-anti-benzo[a]pyrene adduct formed at the N2 amino group of guanine is the major adduct found after metabolic activation of the ubiquitous carcinogen benzo[a]pyrene. The carcinogenic and mutagenic properties of the (+)-trans-anti-BP adduct, as well as related adducts, have been extensively studied. A DNA duplex containing a (+)-trans-anti-benzo[a]pyrene adduct covalently attached to the G8 nucleotide in the sequence d(CCTATGT[BP-G]CAC).d(GTGCACATAGG) was synthesized and the structure characterized by one- and two-dimensional NMR spectroscopy, in conjunction with energy minimization and molecular dynamics. This BP-11-mer duplex exhibits NOESY cross-peaks between benzo[a]pyrene protons and BP-G8, C9, A16, and C17 nucleotide protons that clearly delineate the location of the BP moiety in the minor groove of a B-type duplex with the pyrene ring oriented toward the 5' end of the modified strand. Large upfield shifts of A16 and C17 sugar resonances in the partner strand show that the pyrene moiety is situated near these sugars. Analysis of the spectra was complicated by the presence of chemical exchange line broadening of protons located near the (...T[BP-G]C...).(...GCA...) adduct site which shows the presence of a minor conformation for this BP-modified duplex in which TA is the 5' neighboring base pair. Distance restraints determined from NOESY spectra recorded at 20 degrees C were used in restrained and unrestrained energy minimization and molecular dynamics simulations to obtain a structure characteristic of the predominant conformation of the BP-11-mer duplex. The important structural features of the BP-11-mer are similar to those reported by Cosman et al. [(1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1914-1918] for a (+)-trans-anti-BP adduct at a (...C[BP-G]C...).(...GCG...) sequence in which CG is the 5' neighboring base pair. No evidence of a conformational equilibrium was reported in this duplex, from which we conclude that the presence of a 5' TA base pair plays a role in the conformational equilibrium. Watson-Crick base pairing is retained in the predominant conformer of the (+)-trans-anti-BP modified duplex, which provides a visualization of a structure that could allow faithful replication. The exchange rate could not be slowed sufficiently to allow individual distance parameters to be obtained for the minor conformer.(ABSTRACT TRUNCATED AT 400 WORDS)

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Thomas R. Krugh

Structural characterization of an N-acetyl-2-aminofluorene (AAF) modified DNA oligomer by NMR, energy minimization, and molecular dynamics

Solution structure of a DNA duplex containing a replicable difluorotoluene–adenine pair

Solution Structure of an RNA Internal Loop with Three Consecutive Sheared GA Pairs^,

Structural Characterization of a (+)-trans-anti-Benzo[a]pyrene-DNA Adduct using NMR, Restrained Energy Minimization, and Molecular Dynamics

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Thomas R. Krugh

Structural characterization of an N-acetyl-2-aminofluorene (AAF) modified DNA oligomer by NMR, energy minimization, and molecular dynamics

Solution structure of a DNA duplex containing a replicable difluorotoluene–adenine pair

Solution Structure of an RNA Internal Loop with Three Consecutive Sheared GA Pairs,

Structural Characterization of a (+)-trans-anti-Benzo[a]pyrene-DNA Adduct using NMR, Restrained Energy Minimization, and Molecular Dynamics

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Solution Structure of an RNA Internal Loop with Three Consecutive Sheared GA Pairs^,