Abstract

This project will explore the synthesis and use of multiply labeled DNA fragments that include both 15N and 13C labels. By incorporation of multiple labels we should be able to increase dramatically the amount of information that can be obtained from an NMR experiment. This multi- labeling approach will be accomplished both by incorporation of multiple- labeled monomers, and also by incorporation of more than one labeled monomer. The routes that we have already developed for preparation of the singly-labeled 15N deoxynucleosides will serve as a starting point for preparation of the multiply labeled compounds. The new labeled compounds targeted at this time are listed below: 1. [7-15N]-Hypoxanthine 2. [6,7-15N]-Adenine 3. [6,7-15N]-Deoxyadenosine 4. [3,6-15N]-Adenine 5. [3,6-15N]-Deoxyadenosine 6. [1,6,7-15N]-Deoxyadenosine 7. [2-13C]-[2,3-15N]-Deoxyguanosine 8. [2-13C]-[1,2-15N]-Deoxyguanosine 9. [2-13C]-[1,2,7-15N]-Deoxyguanosine 10. [2-13C]-[2,3-15N]-O6-Methyldeoxyguanosine 11. [2-13C]-[1,2-15N]-O6-Methyldeoxyguanosine 12. [2-13C]-[1,2,7-15N]-O6-Methyldeoxyguanosine These compounds, along with [4-15N]-deoxycytidine, will be incorporated into DNA fragments for NMR studies. The [1-15N]-, [2-15N]-, and [6-15N]- labels monitor interactions of the Watson-Crick face, while the [7-15N]- and [3-15N]-labels monitor interactions in the major and minor grooves. The [2-13C] atom will provide information about ring current effects, and will be used to detect the 15N chemical shift in molecules where there is non-exchangeable proton coupled to the 15N label. Specifically, we will define the base pairing present in O6MeG.A and O6MeG.G mismatches, and the base pairing in parallel-DNA. We will probe drug.DNA and peptide.DNA interactions, including both DNA.DNA and ligand.DNA H-bonding, as well as the exclusion of water that occurs upon drug on peptide binding. Further, in each of these systems, we will attempt to correlate the identity of the H-bond acceptor (O or N) with the chemical shift change of the donor NH group. In addition, with these multi-labeled compounds, we will also be able to monitor changes in hydration which occur at the site of the lesion, the site of ligand binding, or elsewhere in the complex.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM031483-13
Application #
2176148
Study Section
Bio-Organic and Natural Products Chemistry Study Section (BNP)
Project Start
1983-03-01
Project End
1998-07-31
Budget Start
1995-08-01
Budget End
1996-07-31
Support Year
13
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
Rutgers University
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
038633251
City
New Brunswick
State
NJ
Country
United States
Zip Code
08901

  Publications

Li, Tsai-Kun; Barbieri, Christopher M; Lin, Hsin-Chin et al. (2004) Drug targeting of HIV-1 RNA.DNA hybrid structures: thermodynamics of recognition and impact on reverse transcriptase-mediated ribonuclease H activity and viral replication. Biochemistry 43:9732-42
Shallop, Anthony J; Gaffney, Barbara L; Jones, Roger A (2003) Use of 13C as an indirect tag in 15N specifically labeled nucleosides. Syntheses of [8-13C-1,7,NH2-15N3]adenosine, -guanosine, and their deoxy analogues. J Org Chem 68:8657-61
Barbieri, Christopher M; Li, Tsai-Kun; Guo, Susan et al. (2003) Aminoglycoside complexation with a DNA.RNA hybrid duplex: the thermodynamics of recognition and inhibition of RNA processing enzymes. J Am Chem Soc 125:6469-77
Lorigan, G A; McNamara, R; Jones, R A et al. (1999) Magnitudes and orientations of the 15N chemical shift tensor of [1-15N]-2'-deoxyguanosine determined on a polycrystalline sample by two-dimensional solid-state NMR spectroscopy. J Magn Reson 140:315-9
Vojtechovsky, J; Eaton, M D; Gaffney, B et al. (1995) Structure of a new crystal form of a DNA dodecamer containing T.(O6Me)G base pairs. Biochemistry 34:16632-40
Parkinson, G N; Arvanitis, G M; Lessinger, L et al. (1995) Crystal and molecular structure of a new Z-DNA crystal form: d[CGT(2-NH2-A)CG] and its platinated derivative. Biochemistry 34:15487-95
Ginell, S L; Vojtechovsky, J; Gaffney, B et al. (1994) Crystal structure of a mispaired dodecamer, d(CGAGAATTC(O6Me)GCG)2, containing a carcinogenic O6-methylguanine. Biochemistry 33:3487-93
Erie, D A; Suri, A K; Breslauer, K J et al. (1993) Theoretical predictions of DNA hairpin loop conformations: correlations with thermodynamic and spectroscopic data. Biochemistry 32:436-54
Schneider, B; Ginell, S L; Jones, R et al. (1992) Crystal and molecular structure of a DNA fragment containing a 2-aminoadenine modification: the relationship between conformation, packing, and hydration in Z-DNA hexamers. Biochemistry 31:9622-8
Wang, Y; Jin, R; Gaffney, B et al. (1991) Characterization by 1H NMR of glycosidic conformations in the tetramolecular complex formed by d(GGTTTTTGG). Nucleic Acids Res 19:4619-22

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