Abstract

The long-term goals of this proposal are to develop and demonstrate the synthetic strategies necessary for the preparation and utilization of 15N labeled RNA fragments. Such site-specifically 15 N labeled molecules have the potential to be invaluable probes of nucleic acid structure and interactions. In fact, there are some types of information which may be available only from 15N NMR of 15 N labeled molecules. At present, modem high-field spectrometers with the necessary capabilities are generally available, but the synthetic methodology necessary for preparation of the 15 N labeled RNA fragments is not. The first goal of this research is to develop synthetic routes to the 15N labeled purine nucleosides [1-15N] adenosine, [6-15N]-adenosine,[3-15N]- adenosine, [7-15N]-adenosine,[1-15N]-guanosine, [2-15N]-guanosine, [3- 15N]-guanosine, and [7-15N]-guanosine. The second goal is to develop methodology which will allow conversion of these labeled monomers into 15N labeled RNA fragments, in sufficient quantity and of sufficient purity for use in NMR studies. These syntheses will be carried out by an H-phosphorate method that has been used successfully for synthesis of 15N labeled DNA fragments. A particular advantage of the H-phosphorate method is that the monomers can be recovered and reused. Present methods for protection of ribonucleosides, however, do not give high enough yields of yr protected monomers to be applicable to valuable labeled nucleosides. Thus, an important synthetic aim of this proposal is to develop new synthetic procedures which will make it possible to obtain high yields of protected monomers. Achievement of this goal will be useful for less expensive monomers as well. Our procedures will be useful for any researchers needing improved methods for RNA synthesis, and will be particularly valuable where scale and economy are important. The final goal is to begin to use these 15N labeled RNA fragments to probe RNA structure and interactions in order to develop a better understanding of the principles of RNA folding, the specificity of RNA- protein interactions, and the ability of RNA to function as an enzyme. Specifically, the [1-15N], [2-15N], and [6-15N] labels will be used primarily to monitor base-pairing, while the [7-15N] and [3-15N] labels will be used to probes hydration in the major and minor grooves, as well as other poorly understand interactions that occur in complex RNA structures.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM048802-02
Application #
2186310
Study Section
Bio-Organic and Natural Products Chemistry Study Section (BNP)
Project Start
1994-01-01
Project End
1997-12-31
Budget Start
1995-01-01
Budget End
1995-12-31
Support Year
2
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

Shallop, Anthony J; Gaffney, Barbara L; Jones, Roger A (2004) Use of both direct and indirect 13C tags for probing nitrogen interactions in hairpin ribozyme models by 15N NMR. Nucleosides Nucleotides Nucleic Acids 23:273-80
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
Gu, Feng; Stillwell, W G; Wishnok, John S et al. (2002) Peroxynitrite-induced reactions of synthetic oligo 2'-deoxynucleotides and DNA containing guanine: formation and stability of a 5-guanidino-4-nitroimidazole lesion. Biochemistry 41:7508-18
Mukerji, Ishita; Williams, Alison P (2002) UV resonance Raman and circular dichroism studies of a DNA duplex containing an A(3)T(3) tract: evidence for a premelting transition and three-centered H-bonds. Biochemistry 41:69-77
Kuryavyi, V; Majumdar, A; Shallop, A et al. (2001) A double chain reversal loop and two diagonal loops define the architecture of a unimolecular DNA quadruplex containing a pair of stacked G(syn)-G(syn)-G(anti)-G(anti) tetrads flanked by a G-(T-T) Triad and a T-T-T triple. J Mol Biol 310:181-94
Veldhuyzen, W F; Shallop, A J; Jones, R A et al. (2001) Thermodynamic versus kinetic products of DNA alkylation as modeled by reaction of deoxyadenosine. J Am Chem Soc 123:11126-32
Kettani, A; Gorin, A; Majumdar, A et al. (2000) A dimeric DNA interface stabilized by stacked A.(G.G.G.G).A hexads and coordinated monovalent cations. J Mol Biol 297:627-44
Kuryavyi, V; Kettani, A; Wang, W et al. (2000) A diamond-shaped zipper-like DNA architecture containing triads sandwiched between mismatches and tetrads. J Mol Biol 295:455-69

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